Tocilizumab Exerts Anti-Tumor Effects on Colorectal Carcinoma Cell Xenografts Corresponding to Expression Levels of Interleukin-6 Receptor

The use of tocilizumab against the interleukin-6 receptor (IL-6R) has been demonstrated as inhibiting the progression of diverse cancers in vitro and in vivo. Nonetheless, evidence regarding the anti-tumor effects of tocilizumab on human colorectal carcinoma (CRC) corresponding to IL-6R expression levels remains scarce. To investigate the influence of IL-6R expression, SW480 and HT-29 cells inoculated subcutaneously into NU/NU mice were used as human CRC xenograft models with anti-IL-6R antibody (tocilizumab) therapy. The IL-6R expression levels, histology of CRC growth/invasiveness, and tumor growth-related signaling pathway were estimated by H&E and immunohistochemical staining. SW480 tumor cells with higher IL-6R expression levels showed better responsiveness in tocilizumab therapy than in the treated HT-29 group. Likewise, therapeutic effects of tocilizumab on the proliferative ability with mitotic index and Ki-67 expressions, invasiveness with MMP-9 proteinase expressions, and ERK 1/2 and STAT3 signaling transduction in the SW480 treatment group were superior to the HT-29 treatment group. In light of our results, IL-6R is the key indicator for the efficacy of tocilizumab treatment in CRC xenografts. From the perspective of precision medicine, tumor response to anti-IL-6R antibody therapy could be predicted on the basis of IL-6R expression levels. In this manner, tocilizumab may serve as a targeted and promising anti-CRC therapy.

Alterations of Cytoskeleton Networks in Cell Fate Determination and Cancer Development

Cytoskeleton proteins have been long recognized as structural proteins that provide the necessary mechanical architecture for cell development and tissue homeostasis. With the completion of the cancer genome project, scientists were surprised to learn that huge numbers of mutated genes are annotated as cytoskeletal or associated proteins. Although most of these mutations are considered as passenger mutations during cancer development and evolution, some genes show high mutation rates that can even determine clinical outcomes. In addition, (phospho)proteomics study confirms that many cytoskeleton-associated proteins, e.g., β-catenin, PIK3CA, and MB21D2, are important signaling mediators, further suggesting their biofunctional roles in cancer development. With emerging evidence to indicate the involvement of mechanotransduction in stemness formation and cell differentiation, mutations in these key cytoskeleton components may change the physical/mechanical properties of the cells and determine the cell fate during cancer development. In particular, tumor microenvironment remodeling triggered by such alterations has been known to play important roles in autophagy, metabolism, cancer dormancy, and immune evasion. In this review paper, we will highlight the current understanding of how aberrant cytoskeleton networks affect cancer behaviors and cellular functions through mechanotransduction.

Genetic variations in UCA1, a lncRNA functioning as a miRNA sponge, determine endometriosis development and the potential associated infertility via regulating lipogenesis

Endometriosis is a hormone-associated disease which has been considered as the precursor for certain types of ovarian cancer. In recent years, emerging evidence demonstrated potent roles of lncRNA in regulating cancer development. Since endometriosis shares several features with cancer, we investigated the possible involvement of cancer-related lncRNAs in endometriosis, including UCA1, GAS5 and PTENP1. By using massARRAY system, we investigated certain genetic variations in cancer-related lncRNAs that can change the thermo-stability, leading to up-regulation or down-regulation of those lncRNAs. Our data indicated three risk genetic haplotypes in UCA1 which can stabilize the RNA structure and increase the susceptibility of endometriosis. Of note, such alterations were found to be associated with long-term pain and infertility in patients. It has been known that UCA1 can function as a ceRNA to sponge and inhibit miRNAs, resulting in loss-of-control on downstream target genes. Gene network analyses revealed fatty acid metabolism and mitochondria beta-oxidation as the major pathways associated with altered UCA1 expression in endometriosis patients. Our study thus provides evidence to highlight functional/epigenetic roles of UCA1 in endometriosis development via regulating fatty acid metabolism in women.

Ribosome Biogenesis Serves as a Therapeutic Target for Treating Endometriosis and the Associated Complications

Ribosome biogenesis is a cellular process critical for protein homeostasis during cell growth and multiplication. Our previous study confirmed up-regulation of ribosome biogenesis during endometriosis progression and malignant transition, thus anti-ribosome biogenesis may be effective for treating endometriosis and the associated complications. A mouse model with human endometriosis features was established and treated with three different drugs that can block ribosome biogenesis, including inhibitors against mTOR/PI3K (GSK2126458) and RNA polymerase I (CX5461 and BMH21). The average lesion numbers and disease frequencies were significantly reduced in treated mice as compared to controls treated with vehicle. Flow cytometry analyses confirmed the reduction of small peritoneal macrophage and neutrophil populations with increased large versus small macrophage ratios, suggesting inflammation suppression by drug treatments. Lesions in treated mice also showed lower nerve fiber density which can support the finding of pain-relief by behavioral studies. Our study therefore suggested ribosome biogenesis as a potential therapeutic target for treating endometriosis.

Genetic impacts on thermostability of onco-lncRNA HOTAIR during the development and progression of endometriosis

HOTAIR is a well-known long non-coding RNA (lncRNA) involved in various cellular signaling, whereas its functional impacts on endometriosis development are still largely unknown. To this end, six potential functional single nucleotide polymorphisms (SNPs) in HOTAIR, with minor allele frequencies more than 10% in Han population and altered net energy of RNA structures larger than 0.5 kcal/mol, were selected for genotyping study. The study included 207 endometriosis patients and 200 healthy women. Genetic substitutions at rs1838169 and rs17720428 were frequently found in endometriosis patients, and rs1838169 showed statistical significance (p = 0.0174). The G-G (rs1838169-rs17720428) haplotype showed the most significant association with endometriosis (p < 0.0001) with enhanced HOTAIR stability, and patients who harbor such haplotype tended to show higher CA125. Data mining further revealed higher mRNA HOTAIR levels in the endometria of patients with severe endometriosis which consistently showed reduced HOXD10 and HOXA5 levels. HOTAIR knockdown with specific shRNAs down-regulated cell proliferation and migration with the induction of HOXD10 and HOXA5 expression in human ovarian clear cancer cells. Our study therefore provided evidence to indicate a prominent role of HOTAIR in promoting endometriosis, which could be used as a potential target for clinical applications.

Somatic mutational landscapes of adherens junctions and their functional consequences in cutaneous melanoma development

Cell-cell interaction in skin homeostasis is tightly controlled by adherens junctions (AJs). Alterations in such regulation lead to melanoma development. However, mutations in AJs and their functional consequences are still largely unknown.

Methods: Cadherin mutations in skin cutaneous melanoma were identified using sequencing data from TCGA dataset, followed by cross-validation with data from non-TCGA cohorts. Mutations with significant occurrence were subjected to structural prediction using MODELLER and functional protein simulation using GROMACS software. Neo-antigen prediction was carried out using NetMHCpan tool. Cell-based fluorescence reporter assay was used to validate β-catenin activity in the presence of cadherin mutations. Clinical significance was analyzed using datasets from TCGA and other non-TCGA cohorts. Targeted gene exon sequencing and immunofluorescence staining on melanoma tissues were performed to confirm the in silico findings.

Results: Highly frequent mutations in type-II classical cadherins were found in melanoma with one unique recurrent mutation (S524L) in the fifth domain of CDH6, which potentially destabilizes Ca²⁺-binding and cell-cell contacts. Mutational co-occurrence and physical dynamics analyses placed CDH6 at the center of the top-four mutated cadherins (core CDHs; all type-II), suggesting altered heterophilic interactions in melanoma development. Mutations in the intracellular domains significantly disturbed CDH6/β-catenin complex formation, resulting in β-catenin translocation into cytosol or nucleus and dysregulation of canonical Wnt/β-catenin signaling. Although mutations in core CDH genes correlated with advanced cancer stages and lymph node invasion, the overall and disease-free survival times in those patients were longer in patients with wild-type. Peptide/MHC-I binding affinity predictions confirmed overall increased neo-antigen potentials of mutated cadherins, which associated with T-lymphocyte infiltration and better clinical outcomes after immunotherapy.

Conclusion: Changes in cell-cell communications by somatic mutations in AJ cadherins function as one of mechanisms to trigger melanoma development. Certain mutations in AJs may serve as potential neo-antigens which conversely benefit patients for longer survival times.

Overexpression of wild type or a Q311E mutant MB21D2 promotes a pro-oncogenic phenotype in HNSCC

Cadherin‐mediated cell–cell contacts regulated by intracellular binders play critical roles in tissue homeostasis and tumorigenesis. Here, we screened mutational profiles of 312 annotated genes involved in cadherin binding in human squamous cell carcinomas and found MB21D2 to carry a unique recurrent Q311E mutation. MB21D2 overexpression was also frequently found in head and neck cancer (HNSCC) and was associated with poor clinical outcomes. Cell‐based characterizations revealed pro‐oncogenic roles for MB21D2 wild‐type (WT) and its Q311E mutant (Q311E) in cell proliferation, colony formation, sphere growth, and migration/invasion by promoting epithelial–mesenchymal transition. Conversely, MB21D2 knockdown in MB21D2‐overexpressing cells resulted in cell growth arrest and apoptosis. Xenograft tumor models with Q311E‐expressing cells formed larger and more aggressive lesions, compared to models with WT‐MB21D2‐expressing cells or an empty vector. Transcriptome and protein interactome analyses revealed enrichment of KRAS signaling by MB21D2 expression. Immunoblotting confirmed RAS elevation, along with upregulation/phosphorylation of PI3K, AKT, and CREB. Blocking RAS signaling in MB21D2‐expressing cells by manumycin significantly reduced cell growth and survival. Our study thus defined RAS signaling‐dependent pro‐oncogenic roles for MB21D2 overexpression and Q311E MB21D2 expression in HNSCC development.

YWHAZ amplification/overexpression defines aggressive bladder cancer and contributes to chemo-/radio-resistance by suppressing caspase-mediated apoptosis

The objective of this study was to characterize the oncogenic actions of a recently identified cancer‐associated gene YWHAZ (also named as 14‐3‐3 ζ/δ) in urothelial carcinomas of the urinary bladder (UCUB). A genome‐wide study revealed YWHAZ to be involved in the amplicon at 8q22.3, and its genetic amplification was detected predominantly in muscle‐invasive bladder cancer (MIBC). Immunohistochemical staining confirmed the association of YWHAZ overexpression with higher tumor stages, lymph node/vascular invasion, and mitotic activity. Univariate and multivariate analyses further indicated the prognostic potential of YWHAZ for more aggressive cancer types. Both gene set enrichment analysis and STRING network studies suggested involvement of YWHAZ in regulating caspase‐mediated apoptosis. Ectopic expression of YWHAZ in bladder cells with low endogenous YWHAZ levels boosted cell resistance to doxorubicin and cisplatin, as well as to ionizing radiation. Conversely, YWHAZ‐knockdown using specific shRNA in cells with high endogenous YWHAZ levels diminished survival activity, suppressing cell growth and increasing cell death. Our findings confirm the essential role played by YWHAZ in sustaining cell proliferation during chemo/radiotherapy. Treatments based on anti‐YWHAZ strategies may thus be beneficial for UCUB patients overexpressing YWHAZ. © 2019 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of Pathological Society of Great Britain and Ireland.

Novel K6-K14 keratin fusion enhances cancer stemness and aggressiveness in oral squamous cell carcinoma

Keratin intermediate filament (IF) is one component of cellular architectures, which provides necessary mechanical support to conquer environmental stresses. Recent findings reveal its involvement in mechano-transduction and the associated stem cell reprogramming, suggesting the possible roles in cancer development. Here, we report t(12;17)(q13.13;q21.2) chromosomal rearrangement as the most common fusion event in OSCC, resulting in a variety of inter-keratin fusions. Junction site mapping verified 9 in-frame K6-K14 variants, three of which were correlated with lymph node invasion, late tumor stages (T3/T4) and shorter disease-free survival times. When expressed in OSCC cells, those fusion variants disturbed wild-type K14 organization through direct interaction or aggregate formation, leading to perinuclear structure loss and nuclear deformation. Protein array analyses showed the ability of K6-K14 variant 7 (K6-K14/V7) to upregulate TGF-β and G-CSF signaling, which contributed to cell stemness, drug tolerance, and cell aggressiveness. Notably, K6-K14/V7-expressing cells easily adapted to a soft 3-D culture condition in vitro and formed larger, less differentiated tumors in vivo. In addition to the anti-mechanical-stress activity, our data uncover oncogenic functionality of novel keratin filaments caused by gene fusions during OSCC development.

Suppression of Cell Growth, Migration and Drug Resistance by Ethanolic Extract of Antrodia cinnamomea in Human Lung Cancer A549 Cells and C57BL/6J Allograft Tumor Model

The purpose of this study was to investigate the inhibitory activities of ethanolic extracts from Antrodia cinnamomea (EEAC) on lung cancer. Cell proliferation and cell cycle distribution were analyzed using (3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) (MTT) assay and flow cytometry, respectively. Wound-healing assay, Western blotting, and a murine tumor model were separately used to examine cell migration, protein expression, and tumor repression. Our results showed that EEAC induced cell cycle arrest at the G0/G1 phase resulting decreased cell viability in A549 cells. Moreover, EEAC up-regulated the growth-suppressing proteins, adenosine 5′-monophosphate-activated protein kinase (AMPK), p21 and p27, but down-regulated the growth-promoting proteins, protein kinase B (Akt), mammalian tarfet of rapamycin (mTOR), extracellular signal-regulating kinase 1/2 (ERK1/2), retinoblastoma protein (Rb), cyclin E, and cyclin D1. EEAC also inhibited A549 cell migration and reduced expression of gelatinases. In addition, our data showed that tumor growth was suppressed after treatment with EEAC in a murine allograft tumor model. Some bioactive compounds from EEAC, such as cordycepin and zhankuic acid A, were demonstrated to reduce the protein expressions of matrix metalloproteinase (MMP)-9 and cyclin D1 in A549 cells. Furthermore, EEAC enhanced chemosensitivity of A549 to paclitaxel by reducing the protein levels of caveolin-1. Our data suggests that EEAC has the potential to be an adjuvant medicine for the treatment of lung cancer.

RSF-1 overexpression determines cancer progression and drug resistance in cervical cancer

BACKGROUND

Remodeling spacing factor 1 (RSF-1/HBXAP) has been linked to a variety of cancer types, however, its roles and the therapeutic potential are not clear in cervical cancer.

METHODS

RSF-1 expression in cancer tissues was analyzed by immunohistochemical staining followed by statistical analysis with SPSS. Anti-RSF-1 studies were performed by treating cells with specific siRNA or a dominant mutant form (RSF-D4).

RESULTS

RSF-1 expression correlates with cancer progression that strongly-positive staining can be found in 67.7% carcinomas and 66.7% CIN lesions, but none in normal tissues. Such overexpression also associated with increased tumor size, poor differentiation, higher nodal metastasis and advanced clinical stages. Kaplan- Meier analysis confirmed that cancer patients with high RSF-1 levels exhibited a significantly shorter survival time than those with low RSF-1 levels. Downregulation of RSF-1 by siRNA silencing or RSF-D4 reduced cell growth and increased drug sensitivity toward paclitaxel treatment in HeLa cells.

CONCLUSIONS

RSF-1 participates in the tumor progression of cervical cancer and could be considered as an early prognostic marker for cancer development and clinical outcome. Therapies based on anti-RSF-1 activity may be beneficial for patients with RSF-1 overexpression in their tumors.

Up-regulation of ribosome biogenesis by MIR196A2 genetic variation promotes endometriosis development and progression

Aberrant miRNA expression has been reported in endometriosis and miRNA gene polymorphisms have been linked to cancer. Because certain ovarian cancers arise from endometriosis, we genotyped seven cancer-related miRNA single nucleotide polymorphisms (MiRSNPs) to investigate their possible roles in endometriosis. Genetic variants in MIR196A2 (rs11614913) and MIR100 (rs1834306) were found to be associated with endometriosis development and related clinical phenotypes, such as infertility and pain. Downstream analysis of the MIR196A2 risk allele revealed upregulation of rRNA editing and protein synthesis genes, suggesting hyper-activation of ribosome biogenesis as a driving force for endometriosis progression. Clinical studies confirmed higher levels of small nucleolar RNAs and ribosomal proteins in atypical endometriosis lesions, and this was more pronounced in the associated ovarian clear cell carcinomas. Treating ovarian clear cells with CX5461, an RNA polymerase I inhibitor, suppressed cell growth and mobility followed by cell cycle arrest at G2/M stage and apoptosis. Our study thus uncovered a novel tumorigenesis pathway triggered by the cancer-related MIR196A2 risk allele during endometriosis development and progression. We suggest that anti-RNA polymerase I therapy may be efficacious for treating endometriosis and associated malignancies.

Exploration of anti-cancer effects and mechanisms of Zuo-Jin-Wan and its alkaloid components in vitro and in orthotopic HepG2 xenograft immunocompetent mice

BACKGROUND

Zuo-Jin-Wan (ZJW), a two-herb formula consisting of Coptis chinensis (CC) and Evodia rutaecarpa (ER), is commonly used in traditional Chinese medicine for the treatment of cancers. However, the efficacies and mechanisms of ZJW and its alkaloid components on cancers are still unclear.

METHODS

Here we investigated the anti-cancer effects and mechanisms of ZJW, CC, ER, berberine, and evodiamine in cells and in intrahepatic xenograft mice.

RESULTS

Treatment of HepG2 cells with ZJW, CC, ER, berberine, and evodiamine significantly displayed cytotoxic effects in a dose- and time-dependent manner. Hierarchical cluster analysis of gene expression profiles showed that CC and ZJW shared a similar mechanism for the cytotoxic effects, suggesting that CC was the active ingredient of ZJW for anti-cancer activity. Network analysis further showed that c-myc was the likely key molecule involved in the regulation of ZJW-affected gene expression. A human hepatoma xenograft model was established by intrahepatic injection of HepG2 cells containing nuclear factor-κB-driven luciferase genes in immunocompetent mice. In vivo bioluminescence imaging showed that cells had been successfully transplanted in mouse liver. Oral administration of ZJW for 28 consecutive days led to a significant decrease in the accumulation of ascites, the ratio of tumor-to-liver, and the number of transplanted cells in livers.

CONCLUSIONS

In conclusion, our findings suggested for the first time that ZJW significantly suppressed human cancer cell growth in orthotopic HepG2 xenograft-bearing immunocompetent mice. Moreover, c-myc might play a potent role in the cytotoxic mechanisms of ZJW, CC, ER, berberine, and evodiamine.

Genetic variations of MUC17 are associated with endometriosis development and related infertility

BACKGROUND

Genetic alterations of mucin genes, such as MUC2 and MUC4, were previously identified to be associated with endometriosis and related infertility. Additionally, gene expression profiling has confirmed MUC17 to be overexpressed in mucinous ovarian carcinoma; however, its associated risk for endometriosis remains unclear. This study was focused on the potential impact of genetic variations in MUC17 on endometriosis development and associated clinical features.

METHODS

The study subjects included 189 female Taiwanese patients with pathology-proven endometriosis and 191 healthy Taiwanese women as controls. Five single-nucleotide polymorphisms (rs4729645, rs10953316, rs74974199, rs4729655, and rs4729656) within the MUC17 gene were selected and genotyped using the Taqman genotyping assay to examine the allele frequency and genotype distributions of MUC17 polymorphisms.

RESULTS

Genotyping revealed that the A allele at rs10953316 in MUC17 was a protective genetic factor in endometriosis development (p = 0.008; OR = 0.53; 95% CI: 0.36-0.79). Genetic variation of rs4729655 protected patients against endometriosis-induced infertility, but was associated with a higher cancer antigen 125 (CA125) level. Base-pairing analysis, called MaxExpect, predicted an additional loop in the mRNA structure caused by rs10953316 polymorphism, possibly influencing ribosome sliding and translation efficiency. Such predictions were confirmed by immunohistochemistry that patients with AA genotype at rs10953316 showed low MUC17 levels in their endometrium, patients with GA genotype showed moderate levels, and strong staining could be found in patients with GG genotype.

CONCLUSIONS

MUC17 polymorphisms are involved in endometriosis development and the associated infertility in the Taiwanese population.

Factors in the prioritization of information needs among Hong Kong Chinese breast cancer patients

Objective:

The study aims to examine the prioritization of information needs in breast cancer patients, using the Information Needs Questionnaire (INQ); and to identify the demographic and clinical characteristics associated with that prioritization.

Methods:

A cross-sectional exploratory study was conducted, by means of consecutive sampling. The INQ was used to examine participants’ preferences on information needs. Their demographic and clinical characteristics were collected by means of a structured questionnaire and review of medical records. Backward multivariable logistic regression analysis was performed to examine the association between prioritization of patients’ information needs and their demographic and clinical characteristics.

Results:

A total of 275 breast cancer patients took part in the analysis. Of the nine INQ items, most participants ranked as their top four needs information about the likelihood of a cure (79%), extent of the disease (76%), treatment options (55%), and family risk of developing breast cancer (51%). Certain demographic and clinical characteristics-religious belief, whether living alone or not, household income, educational level, and time since cancer diagnosis-influenced patients’ prioritization of information needs.

Conclusion:

Understanding and meeting the information needs of breast cancer patients are crucial to improving their quality of care. Different patients are likely to have different priorities in information needs according to their demographic and clinical characteristics. An awareness of these associated factors will allow better tailor-made educational interventions to be provided to meet patients’ individual needs in a more adequate way.

2'-hydroxyflavanone induces apoptosis of human osteosarcoma 143 B cells by activating the extrinsic TRAIL- and intrinsic mitochondria-mediated pathways

Flavanones demonstrate a propensity to antiproliferation and induce apoptosis of malignant cells. Among the 4 flavanones under study, 2'-hydroxyflavanone exhibited the greatest potency to reduce the cell viability of 143 B cells in 4 osteosarcoma cells. Flow cytometry analysis showed that 2'-hydroxyflavanone increased the hypodiploid cells in the sub-G1 phase but resulted in the reduced DNA content in the G0/G1 phase in 143 B cells. The 2'-hydroxyflavanone-induced apoptosis in 143 B cells was confirmed by 4'-6-diamidino-2-phenylindole staining and mitochondrial membrane potential (Δψm) assay. Increasing expressions of tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) and death receptor 5 (DR5) were found in 2'-hydroxyflavanone-treated cells. Moreover, 2'-hydroxyflavanone increased the expressions of B-cell lymphoma-extra small, cytochrome c, and cleavage poly (ADP-ribose) polymerase but downregulated B-cell lymphoma/leukemia-2expressions in 143 B cells. Furthermore, in vivo experiments showed that 2'-hydroxyflavanone inhibited the tumor growth of 143 B cells. 2'-hydroxyflavanone induced the apoptosis of 143 B cells via the extrinsic TRAIL- and intrinsic mitochondrial-dependent pathways, indicating its potential for inducing cancer apoptosis in osteosarcoma.

BMPR1B up-regulation via a miRNA binding site variation defines endometriosis susceptibility and CA125 levels

Background

Bone morphogenetic protein receptor I B (BMPR1B) is a transmembrane receptor mediating TGF-β signal transduction. Recent studies indicate a tumor suppressor role for BMPR1B in ovarian cancer. Polymorphism at BMPR1B 3′UTR within the miR-125b binding site alters its binding affinity toward the miRNA, which may result in insufficient post-transcriptional repression.

Methods

Single-nucleotide polymorphisms rs1970801, rs1434536, and rs11097457 near the miR-125b binding site in BMPR1B were genotyped by Taqman assay on 193 endometriosis patients and 202 healthy controls. BMPR1B and CA125 levels in ectopic endometrial tissues were evaluated by quantitative PCR and immunohistochemistry. Luciferase reporter assay was utilized to verify regulatory roles of BMPR1B 3′UTR with allelic variants of rs1434536 in a cell line model. Cell proliferation and migration were recorded, while expression of BMPR1B, CA125, glucocorticoid receptor (GCCR) and IL-1β were measured by quantitative PCR in endometrial cells transfected with wild-type or mutated miR-125b.

Results

This study found two endometriosis-associated SNPs, rs1434536 (P = 0.010) and rs1970801 (P = 0.0087), located within and next to a miR-125b binding site on BMPR1B. Interestingly, patients with homozygous variant alleles at rs1434536 showed significantly lower serum CA125 levels. Immunohistochemistry staining further confirmed inverse correlation between BMPR1B and CA125 levels in three rs1434536 genotypes. Cell assays demonstrated the variant allele of rs1434536 up-regulating BMPR1B at both mRNA and protein levels, which negatively correlated with CA125 and IL-1β levels. Disruption of the binding between miR-125b and BMPR1B hampered abnormal cell proliferation.

Conclusions

SNPs of BMPR1B within and next to the miR-125b binding site manifested strong correlation with endometriosis development in a Taiwanese cohort. Disrupting the binding of miR-125b toward BMPR1B would increase protein expression, diminishing abnormal cell proliferation as well as serum and cellular CA125 levels. Genetic variation at the miR-125b binding site may play functional roles to protect against endometriosis progression.

Rubus idaeus L. reverses epithelial-to-mesenchymal transition and suppresses cell invasion and protease activities by targeting ERK1/2 and FAK pathways in human lung cancer cells

Epithelial to mesenchymal transition (EMT) has been considered essential for cancer metastasis, a multistep complicated process including local invasion, intravasation, extravasation, and proliferation at distant sites. Herein we provided molecular evidence associated with the antimetastatic effect of Rubus idaeus L. extracts (RIE) by showing a nearly complete inhibition on the invasion (p<0.001) of highly metastatic A549 cells via reduced activities of matrix metalloproteinase-2 (MMP-2) and urokinasetype plasminogen activator (u-PA). We performed Western blot to find that RIE could induce up-regulation of epithelial marker such as E-cadherin and α-catenin and inhibit the mesenchymal markers such as N-cadherin, fibronectin, snail-1, and vimentin. Selective snail-1 inhibition by snail-1-specific-siRNA also showed increased E-cadherin expression in A549 cells suggesting a possible involvement of snail-1 inhibition in RIE-caused increase in E-cadherin level. RIE also inhibited p-FAK, p-paxillin and AP-1 by Western blot analysis, indicating the anti-EMT effect of RIE in human lung carcinoma. Importantly, an in vivo BALB/c nude mice xenograft model showed that RIE treatment reduced tumor growth by oral gavage, and RIE represent promising candidates for future phytochemical-based mechanistic pathway-targeted cancer prevention strategies.

Decreased Kruppel-like factor 4 (KLF4) expression may correlate with poor survival in gastric adenocarcinoma

Kruppel-like factors (KLFs) play either anti- or pro-proliferation roles in different human cancers. Here, we investigated the expression of KLF4 in gastric cancers and its correlation with clinicopathological parameters and overall survival. KLF4 expression was measured in 118 surgical specimens by immunohistochemical microarray assay. No association of cytoplasmic KLF4 expression with gender, TNM status, stage, survival, and pathological type was found. Using Kaplan-Meier analysis, significantly higher overall survival rate was observed in patients with high cytoplasmic KLF4 expression compared to low cytoplasmic KLF4 expression. Univariate analysis revealed that cytoplasmic KLF4 expression, grade, histological type, lymph node metastasis, and stages were correlated to longer overall survival. Our results suggest that KLF4 may play an anti-oncogenic role in gastric tumorigenesis.

Elucidating the inhibitory mechanisms of the ethanolic extract of the fruiting body of the mushroom Antrodia cinnamomea on the proliferation and migration of murine leukemia WEHI-3 cells and their tumorigenicity in a BALB/c allograft tumor model

The aim of this study was to explore whether the ethanolic extract of Antrodia cinnamomea (EEAC), a medical mushroom form Taiwan, could affect the proliferation and migration of WEHI-3 cells in vitro and to explore the antitumor effects of EEAC in BALB/c mice engrafted with WEHI-3 cells. The results showed that EEAC inhibited the proliferation of WEHI-3 cells, resulting in the accumulation of cell in G0/G1 and G2/M phases, as determined by flow cytometry. Moreover, EEAC markedly reduced the migration of WEHI-3 cells, as determined by a transwell assay. Treatment of WEHI-3 cells with EEAC also decreased MMP-9 protein expression and enzyme activity. The protein levels of p-Akt, p-ERK1/2 were also decreased, whereas the expression of p21 and p27 was increased. Furthermore, in an in vivo model, EEAC treatment reduced the infiltration of WEHI-3 cells into the liver and spleens and decreased tumor growth. Other bioactive compounds, such as cordycepin and zhankuic acid A, have been demonstrated to reduce the expression of MMP-9, cyclin E, cyclin D1 and to increase the expression of p21, p27. This is the first study to investigate that the mechanisms by which EEAC reduce the proliferation and migration of WEHI-3 cells in vitro, as well as the ability of EEAC to reduced infiltration of WEHI-3 cells into the liver and spleen in vivo. The results suggest that EEAC may prove to be useful in future antileukemic therapies.

Abstract LB-109: Identification of novel keratin fusion in squamous cell carcinomas

Genetic instability is a hallmark during cancer development, such that gene fusions frequently occur when chromosomal translocation joins different genes. A variety of gene fusions have been identified in cancer, some of them are well known biomarkers for cancer diagnostic or chemotherapy targets. Our preliminary study uncovered novel gene fusions joining type I and II keratins in oral squamous cell carcinoma (OSCC) by pair-end RNA-seq transcriptome study. This finding was further validated by dual-color FISH and Sanger sequencing following nested PCR. Keratins form imtermediate filaments in a cell with equal-molar pairing of type I and II keratins, which maintain cell integrity under mechanical stresses and regulate adhesion and migration activity. Although keratins have been known as biomarkers in different types of squamous cell carcinoma (SCC), their functions in cancer development remain controversial. Interestingly, we detected the presence of keratin fusion in early-stage cancer specimens, suggesting the involvement of keratin fusion in carcinogenesis. Although sample size was limited, we found the presence of some keratin fusion variants exclusive to late-stage cancer specimens, which suggest the correlation of keratin fusion with cancer development. Besides OSCC, we also identified keratin fusion in esophageal, nasopharyngeal and cervical carcinoma in our preliminary study, which may suggest keratin fusion as a common driving mechanism among SCCs.

Citation Format: Jack Cheng, Ming-Tsung Lai, Shan-Chih Lee, Chun-Chin Chao, Chih-Mei Chen, Ka-Lok Ng, Jim Jinn-Chyuan Sheu. Identification of novel keratin fusion in squamous cell carcinomas. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr LB-109. doi:10.1158/1538-7445.AM2013-LB-109

Rsf-1, a chromatin remodelling protein, interacts with cyclin E1 and promotes tumour development

Chromosome 11q13.5 containing RSF1 (HBXAP), a gene involved in chromatin remodelling, is amplified in several human cancers including ovarian carcinoma. Our previous studies demonstrated requirement of Rsf-1 for cell survival in cancer cells, which contributed to tumour progression; however, its role in tumourigenesis has not yet been elucidated. In this study, we co-immunoprecipitated proteins with Rsf-1 followed by nanoelectrospray mass spectrometry and identified cyclin E1, besides SNF2H, as one of the major Rsf-1 interacting proteins. Like RSF1, CCNE1 is frequently amplified in ovarian cancer, and both Rsf-1 and cyclin E1 were found co-up-regulated in ovarian cancer tissues. Ectopic expression of Rsf-1 and cyclin E1 in non-tumourigenic TP53(mut) RK3E cells led to an increase in cellular proliferation and tumour formation by activating cyclin E1-associated kinase (CDK2). Tumourigenesis was not detected if either cyclin E1 or Rsf-1 was expressed, or they were expressed in a TP53(wt) background. Domain mapping showed that cyclin E1 interacted with the first 441 amino acids of Rsf-1. Ectopic expression of this truncated domain significantly suppressed G1/S-phase transition, cellular proliferation, and tumour formation of RK3E-p53(R175H) /Rsf-1/cyclin E1 cells. The above findings suggest that Rsf-1 interacts and collaborates with cyclin E1 in neoplastic transformation and TP53 mutations are a prerequisite for tumour-promoting functions of the RSF/cyclin E1 complex.

Talin-1 overexpression defines high risk for aggressive oral squamous cell carcinoma and promotes cancer metastasis

Oral squamous cell carcinoma (OSCC) is highly invasive and is associated with frequent tumour recurrences and lymph node metastases. Identification of genes involved in the aggressiveness of OSCC may provide new targets for clinical intervention. A genome-wide study based on the Sty1 250K SNP array indicated the involvement of the Talin-1 (TLN1) gene in the 9p13.3 amplicon, which was further validated by dual colour fluorescence in situ hybridization (FISH). Comparative analyses revealed that TLN1 was the most highly expressed integrin-cytoskeleton cross-linker that can trigger integrin activation. IHC analyses and mouse study also revealed an association between TLN1 overexpression and advanced OSCC with invasion to adjacent tissues. Survival analyses indicated a significant association between TLN1 genetic gain/overexpression and a reduced overall survival in patients. Functional knockdown by a dominant negative TLN1 fragment reduced cell growth and invasiveness in TLN1-overexpressing cells via inactivation of downstream oncogenic signalling. The present study suggests an important role for TLN1 in oral cancer development. TLN1 overexpression could serve as a diagnostic marker for aggressive phenotypes and a potential target for treating OSCC.

Abstract 5051: Overexpression of talin 1 (TLN1) in invasive oral squamous cell carcinoma (OSCC)

Oral squamous cell carcinoma (OSCC) is a highly invasive disease displaying frequent tumor recurrence and lymph node metastasis. Genes involved in cytoskeleton remodeling, cell attachment, and cell mobility are suspicious candidates that promote invasiveness. A genomewide study based on Sty1 250K SNP array platform revealed the involvement of TLN1 gene in the 9p13.3 amplicon. Although large scale screening on 123 tumor tissues by dual color-fluorescence in situ hybridization (FISH) indicated low frequency (around 7.3%) of TLN1 amplification in OSCC, the overall gene expression levels were significantly higher in tumor tissues as compared to the adjacent normal oral epithelium (P &lt; 0.01). As compared to other cytoskeleton crossing linkers that can trigger integrin activation, TLN1 stood out to be the most highly expressed one in OSCC. A mouse study revealed that TLN1 overexpression could be detected in invasive tumors but not in the lesions at early stages. Immunohistochemistry (IHC) data revealed stronger TLN1 immunereactivity in OSCC than in normal tissues. More intense staining pattern was detected at the leading edge of cancer cells under going angiogenesis or lymphogenesis. Patients with TLN1 overexpression had a significantly shorter overall survival and higher recurrence rate than those without. Collectively, our study suggested an important role of TLN1 in oral cancer progression.

Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 5051.

Abstract 3091: Oncogenic roles of nuclear VCP in oral cancer development

VCP is a member of AAA-ATPase family that includes putative ATP-binding proteins involved in nuclear envelope reconstruction, cell cycle regulation, Golgi reassembly, suppression of apoptosis, and DNA-damage response. Due to the novel functions, VCP overexpression was linked to cancer development and suggested as a prognostic tumor marker for poor clinical outcome. Our preliminary data of SNP array analysis on 33 fresh clinical OSCC samples identified an amplified region at chromosome 9p13.3 containing the VCP gene. This finding was further validated by FISH analysis on a larger scale using paraffin-embedded oral cancer tissues. Consistent with genomic copy alterations, the mRNA and protein expression levels of VCP were also found higher in OSCC tissues. Interestingly, the nuclear VCP staining correlates with VCP gene amplification and shorter overall survival, suggesting the novel functions of VCP in nucleus during OSCC development. In this study, we identified several nuclear binding partners for VCP in OSCC cells, and signaling networks controlled by VCP during OSCC development were discussed.

Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 3091.

Antioxidative and hepatoprotective effects of magnolol on acetaminophen-induced liver damage in rats

Acute liver failure (ALF), an often fatal condition characterized by massive hepatocyte necrosis, is frequently caused by drug poisoning, particularly with acetaminophen (N-acetyl-p-aminophenol/APAP). Hepatocyte necrosis is consecutive to glutathione (GSH) depletion and mitochondrial damage caused by reactive oxygen species (ROS) overproduction. Magnolol, one major phenolic constituent of Magnolia officinalis, have been known to exhibit potent antioxidative activity. In this study, the anti-hepatotoxic activity of magnolol on APAP-induced toxicity in the Sprague-Dawley rat liver was examined. After evaluating the changes of several biochemical parameters in serum, the levels of aspartate aminotransferase (AST), alanine aminotransferase (ALT), and lactate dehydrogenase (LDH) were elevated by APAP (500 mg/kg) intraperitoneal administration (8 and 24 h) and reduced by treatment with magnolol (0.5 h after APAP administration; 0.01, 0.1, and 1 mug/kg). Histological changes around the hepatic central vein, lipid peroxidation (thiobarbituric acid-reactive substance/TBARS), and GSH depletion in liver tissue induced by APAP were also recovered by magnolol treatment. The data show that oxidative stress followed by lipid peroxidation may play a very important role in the pathogenesis of APAP-induced hepatic injury; treatment with lipid-soluble antioxidant, magnolol, exerts anti-hepatotoxic activity. Our study points out the potential interest of magnolol in the treatment of toxic ALF.

Functional genomic analysis identified epidermal growth factor receptor activation as the most common genetic event in oral squamous cell carcinoma

A 250K single-nucleotide polymorphism array was used to study subchromosomal alterations in oral squamous cell carcinoma (OSCC). The most frequent amplification was found at 7p11.2 in 9 of 29 (31%) oral cancer patients. Minimal genomic mapping verified a unique amplicon spanning from 54.6 to 55.3 Mb on chromosome 7, which contains SEC61G and epidermal growth factor receptor (EGFR). Results from fluorescence in situ hybridization, transcriptome, and immunohistochemistry analyses indicated that the expression level of EGFR, but not of SEC61G, was up-regulated and tightly correlated with DNA copy number in 7p11.2 amplified tumors. Among the members of the erbB family, EGFR (HER1) was found to be the most frequently amplified and highly expressed gene in both human and mouse oral tumors (P < 0.01). Genes for downstream effectors of EGFR, including KRAS, mitogen-activated protein kinase 1, and CCND1, were also found amplified or mutated, which resulted in activation of EGFR signaling in 55% of OSCC patients. Head and neck squamous cancer cells with different EGFR expression levels showed differential sensitivity to antitumor effects of AG1478, a potent EGFR inhibitor. AG1478-induced EGFR inactivation significantly suppressed tumor development and progression in a mouse oral cancer model. Our data suggest that EGFR signaling is important in oral cancer development and that anti-EGFR therapy would benefit patients who carry the 7p11.2 amplicon in their tumors.

Hepatoprotective and Antioxidant Effects of Ethanol Extract from Phellinus merrillii on carbon tetrachloride-induced liver damage

In the present study, we investigated the hepatoprotective and antioxidant capacities of ethanol extract of Phellinus merrillii (PM) on carbon tetrachloride-induced hepatotoxicity. In high-performance liquid chromatography (HPLC) analysis, the finger print chromatogram of PM was established. Both hispolon and PM showed a similar peak at the retention time of 6 min. This implied that PM did contain the active ingredient of hispolon. Treatment with PM (0.5, 1 and 2 g/kg) prior to the administration of carbon tetrachloride (1.5 ml/kg in olive oil, 20%) significantly prevented the increased serum alanine aminotransferase (s-GOT) and serum aspartate aminotransferase (s-GPT) in a dose-dependent manner. We also found that the incidences of ballooning degeneration, necrosis and portal triaditis were lowered in the group pretreated with PM. Carbon tetrachloride induces up-regulation of antioxidant enzymes, including superoxide dismutase (SOD) (86.6%), catalase (58.8%) and glutathione peroxidase (GPx)(64.7%) in the liver. Pretreatment with PM significantly reduced the all these antioxidant enzyme activities. Therefore, we verified that ethanol extract of PM has the hepatoprotective and antioxidant capacities on rats.

Hepatoprotective effect of Phyllanthus in Taiwan on acute liver damage induced by carbon tetrachloride

The effect of oral administration of Phyllanthus methanolic extracts (PME) (i.e. P. acidus, P. emblica, P. myrtifolius, P. multiflorus, P. amarus, P. debilis, P. embergeri, P. hookeri, P. tenellus, P. urinaria L.s. nudicarpus, P. urinaria L.s. urinaria) or gallic acid (GA) on the progression of acute liver damage induced by CCl(4) in rats was examined by morphological and biochemical methods. P. acidus, P. urinaria L.s. urinaria, GA at a dose of 0.5 g/kg, and P. emblica, P. urinaria L.s. nudicarpus at a dose of 1.0 g/kg attenuated CCl(4)-induced increase in serum glutamate-oxalate-transaminase (GOT). P. acidus, P. urinaria L.s. nudicarpus, P. urinaria L.s. urinaria, GA at a dose of 0.5 g/kg, and P. emblica, P. amarus, P. hookeri, P. tenellus at a dose of 1.0 g/kg attenuated CCl(4)-induced increase in serum glutamate-pyruvate-transaminase (GPT). Concurrently, P. acidus, P. multiflorus, P. embergeri, P. hookeri, P. tenellus and P. urinaria L.s. urinaria elevated the activity of liver reduced glutathione peroxidase (GSH-Px). Since the protective effects of P. acidus, P. emblica, P. myrtifolius, P. embergeri, P. urinaria L.s. nudicarpus, P. urinaria L.s. urinaria and GA correlate with a reduction in liver infiltration and focal necrosis observed using histological methods, these data demonstrate that P. acidus and P. urinaria L.s. urinaria are hepatoprotective and antioxidant agents.

E-cadherin gene 3'-UTR C/T polymorphism is associated with prostate cancer

INTRODUCTION

E-cadherin (CDH-1) is a cell-cell adhesive molecule which maintains cell integrity and communication between the intracellular and extracellular world. CDH-1 may therefore be related to carcinogenesis. A polymorphism located at the 3'-UTR of the CDH-1 gene is associated with stone disease; however, its relationship to prostate cancer has not been reported. We aimed to study whether there is an association between the 3'-UTR polymorphism and prostate cancer.

MATERIALS AND METHODS

We collected 96 patients with prostate cancer and 114 normal controls for this study. The polymorphism of the CDH-1 gene was studied by polymerase chain reaction-based restriction analysis.

RESULTS

There was a significant difference in genotype distribution of the CDH-1 gene polymorphism between cancer patients and normal controls (p < 0.001). The distribution of the CDH-1 gene CC genotype in prostate cancer patients (51.0%) was higher than in the controls (10.5%). The odds ratio for the CDH-1 'C' allele was 2.896 (95% CI = 1.908-4.396). There was no significant difference according to age, pathological grading, clinical staging, and responsiveness to hormonal therapy among patients. Only 3 patients (3.1%) had a history of urolithiasis.

CONCLUSIONS

The CDH-1 gene 3'-UTR C/T polymorphism is associated with prostate cancer. The 'CC' homozygote indicates a relatively higher risk for developing prostate cancer than other genotypes.

Glutathione S-transferase M1 gene but not insulin-like growth factor-2 gene or epidermal growth factor gene is associated with prostate cancer☆

Prostate cancer is the most common urologic malignancy involving multiple factors. There is evidence that suggests that detoxification enzymes and growth factors may play a role in the formation of prostate cancer. Our aim was to investigate whether polymorphisms of glutathione S-transferase M1 (GST M1), insulin-like growth factor-2 (IGF-2), and epidermal growth factor (EGFR) genes could be used as genetic markers for risk of prostate cancer. In this study, we compared the frequency of the polymorphisms of GST M1, IGF-2, and EGFR genes among 96 patients with prostate cancer and 121 healthy male volunteers from the same geographic area (age, older than 60 years). There was significant difference in the GST M1 genotype between the prostate cancer group and the control group (P=0.042). The GST M1 null genotype was significantly higher in the cancer group (59.4%) than in the control group (45.5%). However, our study did not reveal a significant association between prostate cancer and the distribution of the IGF-2 or EGFR genotypes. This study suggests that the GST M1 gene, but not the IGF-2 or the EGFR genes, may be a risk factor of developing prostate cancer in Taiwan.

Association of proline-directed protein kinase FA with tumorigenesis, invasion, and poor prognosis of human colon carcinoma

BACKGROUND

Initial studies revealed that the multisubstrate proline-directed protein kinase F(A) (PDPK F(A)) is overexpressed in various types of human carcinomas relative to normal controls. Suppression of overexpressed PDPK F(A) inhibits the growth of cancer cells, suggesting a role of this PDPK in human malignancy. In this study, we combine immunohistologic, molecular, cellular, animal, and clinicopathologic studies to demonstrate an essential and critical role of PDPK F(A) in progression and poor prognosis of human colon carcinoma.

METHODS

The stable antisense clones of human colon carcinoma cells with specific suppression of PDPK F(A) were established for tumorigenesis and invasion studies. In immunohistologic and clinicopathologic studies, the expression and localization of PDPK F(A) were analyzed by immunohistochemical staining of the specimens obtained from human colon carcinoma patients with Dukes Stage B/C.

RESULTS

Initial molecular and cellular studies revealed that the antisense clone of colon carcinoma cells (COLO-205) with specific suppression of PDPK F(A) dramatically lost capabilities of adhesion, chemotaxis, and invasion when compared with the parental or control-transfected colon carcinoma cells. This is the first indication of an association of overexpressed PDPK F(A) with colon carcinoma progression. In agreement with this notion, the in vivo study also revealed that the mice injected with the antisense clone with low-level PDPK F(A) only developed very small tumors (< 0.5 cm(3)) even after a 6-week observation. This is in contrast to the parental or control-transfected cells that developed large tumors (> 5 cm(3)) under identical conditions. Pathologic evaluation revealed invasion to the muscle layer in all tumors formed by the parental cells. In contrast, there was no sign of invasion in mice injected with the antisense clone, confirming an essential role of PDPK F(A) in colon carcinoma progression. Clinicopathologic study also revealed that PDPK F(A) is preferentially overexpressed in the invasive area of colon carcinomatous tissues and overexpression of PDPK F(A) is statistically and closely correlated with venous/lymphatic infiltration, lymph node metastasis, and poor prognosis of colon carcinoma patients with Dukes Stage B/C.

CONCLUSIONS

The results demonstrate an essential and critical role of overexpressed PDPK F(A) in progression and poor prognosis of colon carcinoma patients. Suppression of overexpressed PDPK F(A) may provide a new powerful adjuvant approach to prevent human colon carcinoma progression and poor prognosis after surgery and chemotherapy.

Association of overexpressed proline-directed protein kinase F(A) with chemoresistance, invasion, and recurrence in patients with bladder carcinoma

BACKGROUND

It has been shown previously that proline-directed protein kinase F(A) (PDPK F(A)) is overexpressed in various human malignancies compared with its expression in normal controls, and the suppression of overexpressed PDPK F(A) is capable of inhibiting the growth of various types of human carcinoma cells, suggesting a role for this PDPK in human malignancies. In this report, the authors combine immunohistologic, molecular, cellular, and clinicopathologic studies to demonstrate further an essential critical role for overexpressed PDPK F(A) in bladder carcinoma invasion, chemoresistance, and poor prognosis.

METHODS

The expression and localization of PDPK F(A) were analyzed by the immunohistochemical staining of specimens obtained from patients with primary transitional cell carcinoma (TCC) of the bladder. The stable antisense clones of human bladder carcinoma cells with specific suppression of overexpressed PDPK F(A) were established for invasion and chemosensitivity studies.

RESULTS

The immunohistochemical study revealed that PDPK F(A) was overexpressed preferentially in the invasive bladder carcinoma tissues. It was found that the stable antisense clones with specific suppression of overexpressed PDPK F(A) to approximately 40% of the parental control level were capable of inhibiting the invasive activity and simultaneously enhancing the chemosensitivity of bladder carcinoma cells to various therapeutic drugs, such as vinblastine, vincristine, paclitaxel, and bleomycin. Clinicopathologic studies also revealed a correlation between overexpressed PDPK F(A) and disease recurrence/survival in patients with primary TCC (P < 0.05).

CONCLUSIONS

Taken together, the results demonstrate an essential critical role of overexpressed PDPK F(A) in invasion, chemoresistance, and poor prognosis. Suppression of overexpressed PDPK F(A) may provide a new potential target for therapeutic intervention aimed at preventing chemoresistance, disease progression, and recurrence in patients with bladder carcinoma.

AKT-1, -2, and -3 are expressed in both normal and tumor tissues of the lung, breast, prostate, and colon

PURPOSE

The AKT/PKB kinase controls many of the intracellular processes that are dysregulated in human cancer, including the suppression of apoptosis and anoikis and the induction of cell cycle progression. Three isoforms of AKT have been identified: AKT-1, -2, and -3. Selective up-regulation of AKT-3 RNA expression has been reported in hormone-independent breast and prostate cancer cell lines suggesting that AKT-3 expression may be increased with breast or prostate tumor progression. To determine whether AKT-3 RNA expression is selectively up-regulated in human cancers and whether the patterns of AKT RNA expression may change with tumor development, we examined AKT isoform expression by RT-PCR in human cancer cell lines, primary human cancers, and normal human tissues.

EXPERIMENTAL DESIGN

AKT-1, -2, and -3 RNA expression was examined by RT-PCR. Because up-regulated AKT-3 expression has been implicated in human breast and prostate cancer progression, we also examined AKT-3 expression levels by semiquantitative RT-PCR using matched normal/tumor first-strand cDNA pairs from colon, breast, prostate, and lung cancers.

RESULTS

Our data reveal that the overwhelming majority of both normal and tumor tissues express all three of the AKT isoforms. Moreover, semiquantitative RT-PCR of matched normal/tumor pairs confirmed similar AKT-3 RNA expression levels in both normal and tumor tissue.

CONCLUSIONS

Our data show that both normal and tumor tissues express all three of the AKT isoforms and indicate that tumorigenesis does not involve a dramatic shift in the RNA expression patterns of the three AKT isoforms.

The pro domain of beta-secretase does not confer strict zymogen-like properties but does assist proper folding of the protease domain

beta-Secretase (BACE) is a membrane-bound aspartyl protease that cleaves the amyloid precursor protein to generate the N terminus of the amyloid beta peptide. BACE is expressed as a precursor protein containing Pre, Pro, protease, transmembrane, and cytosolic domains. A soluble BACE derivative (PreProBACE460) that is truncated between the protease and transmembrane domains was produced by baculovirus-mediated expression. ProBACE460 was purified from conditioned media of infected insect cells using immobilized concanavalin A and immobilized BACE inhibitor, P10-P4' Stat(Val). Furin cleaves ProBACE460 between the Pro and protease regions to generate mature BACE460. The k(cat)/K(m) of ProBACE460 when assayed with a polypeptide substrate is only 2.3-fold less than that of BACE460. This finding and the similar inhibitory potency of P10-P4' Stat(Val) for ProBACE460 and BACE460 suggest that the Pro domain has little effect on the BACE active site. Exposure of ProBACE460 to guanidine denaturation/renaturation results in a 7-fold higher recovery of BACE activity than when BACE460 is similarly treated. The presence of free BACE Pro peptide during renaturation of BACE460 but not ProBACE460 increases recovery of activity. These findings show that the Pro domain in ProBACE460 does not suppress activity as in a strict zymogen but does appear to facilitate proper folding of an active protease domain.

Ceramide induces the dephosphorylation and inhibition of constitutively activated Akt in PTEN negative U87mg cells

In the present study, treatment of the PTEN negative U87MG human glioblastoma cell line with C2-ceramide resulted in a dose- and time-dependent decrease in the constitutive phosphorylation of Akt at threonine 308 and serine 473. The C2-ceramide induced dephosphorylation of Akt correlated with a 90-95% reduction in the Akt kinase activity. Exposure to C2-ceramide did not affect the basal or PDGF activated levels PtdIns-3,4-P(2) and PtdIns-3,4,5-P(3), indicating PI3-K activity was not inhibited. Additionally, treatment of cells with the PI3-K inhibitor wortmannin and C2-ceramide resulted in an enhanced rate of Akt dephosphorylation versus either agent alone. Finally, treatment of cells with the phosphatase inhibitors okadaic acid or calyculin A prevented the C2-ceramide induced dephosphorylation and inhibition of Akt activity. These data demonstrate the ability of C2-ceramide to inhibit the constitutive phosphorylation and activity of Akt in U87MG cells and implicate the activation of ceramide activated protein phosphatase, rather than decreased PI3-K activity, as the mechanism of inhibition.

Congenital rhabdomyosarcoma--a case report

A term female newborn was noted to have a tumor mass in the oral cavity soon after birth. Oral computer tomography revealed a well-enhanced soft tissue mass about 4 x 4 x 3 cm in size in the left buccal area. Group III embryonal type congenital rhabdomyosarcoma was diagnosed after biopsy (gross removal was not feasible). Respiratory distress exacerbated due to rapid tumor growth compressing airway with the result that endotracheal tube had to be intubated. Chemotherapy was done and complicated by two episodes of neutropenic fever and sepsis. Radiotherapy was suggested but refused by the family. Tumor size was slightly reduced and endotracheal tube could be removed four months later. She was taken home under regular chemotherapy. Radiotherapy, was, however, clearly indicated.

Photoactivated gamma-secretase inhibitors directed to the active site covalently label presenilin 1

Cleavage of amyloid precursor protein (APP) by the beta- and gamma-secretases generates the amino and carboxy termini, respectively, of the A beta amyloidogenic peptides A beta40 and A beta42--the major constituents of the amyloid plaques in the brain parenchyma of Alzheimer's disease patients. There is evidence that the polytopic membrane-spanning proteins, presenilin 1 and 2 (PS1 and PS2), are important determinants of gamma-secretase activity: mutations in PS1 and PS2 that are associated with early-onset familial Alzheimer's disease increase the production of A beta42 (refs 4-6), the more amyloidogenic peptide; gamma-secretase activity is reduced in neuronal cultures derived from PS1-deficient mouse embryos; and directed mutagenesis of two conserved aspartates in transmembrane segments of PS1 inactivates the ability of gamma-secretase to catalyse processing of APP within its transmembrane domain. It is unknown, however, whether PS1 (which has little or no homology to any known aspartyl protease) is itself a transmembrane aspartyl protease or a gamma-secretase cofactor, or helps to colocalize gamma-secretase and APP. Here we report photoaffinity labelling of PS1 (and PS2) by potent gamma-secretase inhibitors that were designed to function as transition state analogue inhibitors directed to the active site of an aspartyl protease. This observation indicates that PS1 (and PS2) may contain the active site of gamma-secretase. Interestingly, the intact, single-chain form of wild-type PS1 is not labelled by an active-site-directed photoaffinity probe, suggesting that intact wild-type PS1 may be an aspartyl protease zymogen.

Presenilin 1 is linked with gamma-secretase activity in the detergent solubilized state

gamma-Secretase is a membrane-associated protease that cleaves within the transmembrane region of amyloid precursor protein to generate the C termini of the two Abeta peptide isoforms, Abeta40 and Abeta42. Here we report the detergent solubilization and partial characterization of gamma-secretase. The activity of solubilized gamma-secretase was measured with a recombinant substrate, C100Flag, consisting largely of the C-terminal fragment of amyloid precursor protein downstream of the beta-secretase cleavage site. Cleavage of C100Flag by gamma-secretase was detected by electrochemiluminescence using antibodies that specifically recognize the Abeta40 or Abeta42 termini. Incubation of C100Flag with HeLa cell membranes or detergent-solubilized HeLa cell membranes generates both the Abeta40 and Abeta42 termini. Recovery of catalytically competent, soluble gamma-secretase critically depends on the choice of detergent; CHAPSO (3-[(3-cholamidopropyl)dimethylammonio]-2-hydroxy-1-propanesulfonate) but not Triton X-100 is suitable. Solubilized gamma-secretase activity is inhibited by pepstatin and more potently by a novel aspartyl protease transition-state analog inhibitor that blocks formation of Abeta40 and Abeta42 in mammalian cells. Upon gel exclusion chromatography, solubilized gamma-secretase activity coelutes with presenilin 1 (PS1) at an apparent relative molecular weight of approximately 2.0 x 10(6). Anti-PS1 antibody immunoprecipitates gamma-secretase activity from the solubilized gamma-secretase preparation. These data suggest that gamma-secretase activity is catalyzed by a PS1-containing macromolecular complex.

Activation of p38 mitogen-activated protein kinase and mitochondrial Ca(2+)-mediated oxidative stress are essential for the enhanced expression of grp78 induced by the protein phosphatase inhibitors okadaic acid and calyculin A

We have reported that treatment with okadaic acid, a potent protein phosphatase inhibitor, has the ability to enhance the synthesis of the 78-kDa glucose-regulated protein (GRP78). This article reports our investigation of another protein phosphatase inhibitor, calyculin A, demonstrating the signaling pathways elicited by the protein phosphatase inhibitors that lead to the induction of grp78. Our data showed that the induction process is abolished by SB203580, a specific inhibitor of p38 mitogen-activated protein kinase (p38(MAPK)). Phosphorylation-activation of p38(MAPK) in the treated cells was indicated by its own phosphorylation, as shown by double Western blotting analyses and directly confirmed by the in vitro kinase assay using MAPK-activated protein kinase-2, a well-known downstream effector of p38(MAPK), as a substrate. The involvement of p38(MAPK) in this process is further substantiated by using transient transfection assays with a plasmid, pGRP78-Luc, which contains a 0.72-kbp stretch of the grp78 promoter. By exploiting the same transfection assay, we demonstrated that the up-regulation of the grp78 promoter by the protein phosphatase inhibitors is suppressed in the presence of the cytoplasmic calcium chelator bis(aminophenoxy)ethane N,N'-tetraacetic acid, the mitochondria calcium uniporter inhibitor ruthenium red as well as the antioxidants N-acetyl cysteine and pyrrolidinedithiocarbamate. Taken together, our results lead us to conclude that treatment with the protein phosphatase inhibitors would activate the signaling pathways involving p38(MAPK) and mitochondrial calcium-mediated oxidative stress and that these pathways must act in concert in order to confer the induction of grp78 by okadaic acid and calyculin A.

Diverse effects of tyrosine kinase inhibitors on follicle-stimulating hormone-stimulated estradiol and progesterone production from rat granulosa cells in serum-containing medium and serum-free medium containing epidermal growth factor

Epidermal growth factor (EGF) has been shown to influence FSH-stimulated estradiol (E2) and progesterone (P4) production from granulosa cells. RG 50810, a tyrosine kinase inhibitor (TKI), has previously been shown to inhibit the EGF-receptor tyrosine kinase. RG 50810 has also been shown to inhibit FSH-stimulated increases in mRNA for steroidogenic enzymes, implying a functional role of tyrosine kinases in FSH action in granulosa cells. However, inhibition of FSH-stimulated steroidogenesis by TKIs has not been evaluated in connection with the effects of EGF in granulosa cells. In the present studies, FSH-stimulated E2 production was inhibited similarly by inhibitors of protein kinase A (H-89) and protein kinase C (calphostin C) and by TKIs, and none of the inhibitors were capable of reversing the EGF-induced inhibition of FSH-stimulated E2 production. FSH-stimulated P4 production was enhanced dramatically in serum-containing medium with concentrations of TKI that were near previously reported IC50s. The enhancing effect of TKIs was less evident in serum-free medium. Addition of EGF to serum-free medium enhanced FSH-stimulated P4 production, and the TKIs reversed EGF-enhanced P4 production, but in a manner similar to that of protein kinase A inhibitor H-89. Compared to results in serum-free medium, the potency of RG 50810 and genistein to inhibit the effects of EGF on P4 production was 3- to 8-fold greater relative to H-89. These studies have demonstrated that TKIs RG 50810 and genistein selectively inhibit the effects of EGF on FSH-stimulated P4 production in granulosa cell cultures. In contrast, these studies have demonstrated nonselective inhibition of FSH-stimulated E2 and P4 production by TKIs in serum-free medium, in which it is not clear which enzyme system is affected by the compounds tested.

Kinetic pathway for the slow to fast transition of thrombin. Evidence of linked ligand binding at structurally distinct domains

The kinetic pathway for the Na+-induced slow --> fast transition of thrombin was characterized. The slow form was shown to consist of two conformers in a 3:1 ratio (ES2:ES1) at 5 degrees C, pH 7.4, Gamma/2 0.3. ES2 binds Na+ 3 orders of magnitude faster than does ES1. The small molecule active site-directed inhibitor L-371,912, and the exosite I binding ligand hirugen, like Na+, bind selectively to ES2 and induce the slow --> fast conversion of thrombin. The slow --> fast transition is limited by the rate of conversion of ES1 to ES2 (k approximately 28 s-1 at 5 degrees C). Replacement of Arg-221a or Lys-224 at the Na+ binding site with Ala appears to selectively alter the slow form and reduce the apparent affinity of the mutants for Na+ and L-371,912. This replacement, however, has little effect on the affinity for the inhibitor in the presence of saturating concentrations of Na+. The kinetically linked ligand binding at the Na+ binding site, exosite I, and the active site of thrombin characterized in the present study indicates the basis for the plasticity of this important enzyme, and suggests the possibility that the substrate specificity and, therefore, the procoagulant and anticoagulant activities of thrombin may be subject to allosteric regulation by as yet unidentified physiologically important effectors.

A BRCA1 mutant alters G2-M cell cycle control in human mammary epithelial cells

Mutations in BRCA1 increase the risk of breast and ovarian cancer. Although the mechanism by which mutant BRCA1 alters growth regulation is unknown, the COOH terminus of BRCA1 appears to play a critical role. To examine this, we introduced a vector expressing BRCA1 COOH-terminal residues 1293-1863 (CT-BRCA1) into nontumorigenic human breast epithelial cells. Overexpression of CT-BRCA1 led to a reduction in the doubling time (from 64 to 44 h) and a decreased reliance on growth factors, suggesting that this CT-BRCA1 may function in a dominant-negative manner. Expression of CT-BRCA1 induced alterations in cell cycle control, mainly in G2-M, including a loss of G2-M block by colchicine. These results suggest that one function of BRCA1-related growth control occurs by governing checkpoint(s) between DNA replication and mitosis.

Electron spin resonance spin trapping assay and immunohistochemical localization of superoxide dismutases in the rat nasal mucosa

The immunohistochemical method and electron spin resonance (ESR) spin trapping assay were employed to detect the localization and biochemical activity of superoxide dismutases (SODs) in the rat nasal mucosa. Manganese SOD and copper-zinc SOD were immunohistochemically illustrated to be richly expressed in the epithelial cells and the subepithelial glands of nasal mucosa. The olfactory vesicles also showed positive immunostaining for manganese SOD and copper-zinc SOD. ESR spin trapping assay revealed that SOD activity in the mucosa of olfactory areas was significantly higher than in the mucosa of respiratory areas; however, the ratio of SOD activity in the mitochondrial fraction to SOD activity in the cytosolic fraction was similar, approximating 17:83 in the mucosa of both the olfactory and respiratory areas. The predominant localization of SODs in epithelial cells of nasal mucosa suggests the importance of mucosal epithelium in protecting nasal mucosa against cytotoxic superoxide (O2-) radicals. Epithelial goblet cells and the connective tissue of lamina propria, which showed no positive immunostaining for SODs, are considered to be vulnerable to oxidative insults implicated in the generation of O2- radicals. The higher SODs activity in the mucosa of olfactory areas implies that there is a different requirement of SOD in mucosa of the respiratory and olfactory areas on scavenging microenvironmental O2- radicals.

Immunohistochemical localization of manganese superoxide dismutase in rat vestibular dark cell regions

A modified immunoglobulin peroxidase bridge sequence method was used to detect the localization of manganese superoxide dismutase (MnSOD), a superoxide radical (O2-) scavenging enzyme locating in mitochondrial matrix, in the vestibular labyrinth of pigmented rats. Strong positive MnSOD immunostaining was demonstrated in the dark cell regions of the ampullae, utricle, and common crus. The result provides for the first time direct evidence demonstrating the existence of mitochondrial O2- scavengers in the vestibular labyrinth and illustrates that the specific sites for vestibular MnSOD immunolocalization are the dark cell regions. This site specificity of MnSOD immunolocalization suggests that dark cell regions may possess high metabolic activity and may encounter constant threat from O2-. We assume MnSOD is needed in protecting some physiologic functions of the dark cell regions. Cell types showing negative MnSOD immunostaining may conceivably be relatively vulnerable to acute O2- damage.

Immunohistochemical localization of manganese superoxide dismutase in the rat cochlea

There has been recent increasing interest in the involvement of superoxide radicals (O2-) and their scavenging enzymes, the superoxide dismutases, in the patho-physiology of certain diseases. Since mitochondria are significant intracellular sources of O2- and important targets of oxidant injury, determining the intracochlear localization of mitochondrial O2- scavenging enzyme may provide important insight into the pathogenesis of injury due to cochlear oxidants. In order to locate the mitochondrial O2- scavenging enzyme, manganese superoxide dismutase (MnSOD), the authors used a modified immunoglobulin peroxidase bridge sequence method to detect MnSOD in paraffin-embedded, formalin-fixed rat cochleas. Site-specific immunolocalization of MnSOD could be demonstrated in the cochlear labyrinth, suggesting that the generation of intracochlear O2- was possibly implicated in the metabolically active sites and sites rich in vascularity. This study also provided a useful probe for detecting MnSOD immunohistochemically from ethylenediamine tetra-acetic acid-treated materials without requiring an antigen retrieval procedure.

Superoxide dismutases in human palatine tonsils

In order to investigate the protective system of human palatine tonsils against the cytotoxic superoxide radicals (O(-)(2)) generated from the oxygen-related bactericidal system, immunohistochemistry and electron spin resonance (ESR) spectrometry were used to detect the distribution and activities of superoxide dismutases (SODs) in tonsils of different related systemic diseases. Immunohistochemistry showed that SODs distribute in extrafollicular lymphatic tissue and crypt epithelium. No distribution difference could be found between tonsils of different related systemic diseases. ESR revealed no significant difference between SODs activities in tonsils of different related systemic diseases. However, the mitochondrial SOD activity was found to constitute approximately 50%-60% of the total tonsillar cellular SODs activity. The results suggest: i)tonsils possess the ability to control cytotoxic O(-)(2), ii) crypt epithelium and extrafollicular lymphatic tissue may encounter more O(-)(2) threat, iii) SODs may be important in protecting germinal centers from O(-)(2) injury, and iv) systemic diseases are less related to the local expression of tonsillar SODs.

Purification of recombinant human rhinovirus 14 3C protease expressed in Escherichia coli

A gene encoding the human rhinovirus 14 (HRV14) sequence for expression of the viral polypeptide protein delta 3ABC was inserted into a plasmid driven by the heat-inducible bacteriophage lambda PL promoter. The coding sequence was also inserted into a pET vector for expression in the T7 system to produce 13C, 15N-labeled protein. The expressed HRV14 3C protease (3Cpro) autocatalytically cleaved itself from the polyprotein delta 3ABC, and the mature HRV14 3Cpro partitioned predominantly, in the case of the T7 system, in the insoluble fraction and exclusively, in the case of the PL system, in the insoluble fraction. The insoluble HRV14 3Cpro was solubilized in urea and purified using anion- and cation-exchange chromatography. The protease was refolded/activated and further purified using a size-exclusion column. HRV14 3Cpro was purified to > 90% homogeneity as shown by SDS-PAGE and to 95% by HPLC. A continuous fluorescence assay was developed which utilized an intramolecularly quenched 9-amino-acid substrate. The substrate anthranilic acid (Anc)-Thr-Leu-Phe-Gln-Gly-Pro-Val-(p-NO2)-Phe-Lys mimicked the natural 2C/3A cleavage site (Thr-Leu-Phe-Gln-Gly-Pro-Val-Tyr-Phe) using an N-terminal anthranilic acid donor group on one side of the scissile bond (Gln/Gly) and a p-NO2-Phe acceptor group at the P4 position. Measured by the fluorescence assay, HRV14 3Cpro had a Km of 300 microM for the substrate.