Long-term use of Lacticaseibacillus paracasei N1115 from early life alleviates high-fat-diet-induced obesity and dysmetabolism in mice

Obesity has become one of the most serious public health problems worldwide, and an increasing number of studies indicate that the gut microbiota can affect host metabolism. Therefore, the present study was conducted to evaluate whether long-term use of probiotics can alleviate host obesity and metabolism by altering gut microbiota. The high-fat diet (HFD) starting from weaned period led to higher levels of visceral fat and a significantly heavier liver in male mice. Moreover, HFD resulted in disorders of glucose and lipid metabolism, changes in insulin-resistance indices (IR), and an increase in serum insulin and leptin in mice. Of note, 15 weeks use of Lacticaseibacillus paracasei N1115 decreased visceral fat, liver weight, serum levels of insulin and leptin, and IR and alleviated lipid dysmetabolism. HFD resulted in a significant increase in the relative abundance of Bilophila, Lachnoclostridium, and Blautia and may decrease the faecal short-chain fatty acid (SCFA) levels in mice; in turn, treatment with the potential probiotic strain L. paracasei N1115 protected mice from these negative effects. HFD significant impaired the physiology of the host especially in male mice and dramatically changed the composition of host gut microbiota. However, the use of potential probiotic strain, such as L. paracasei N1115, may prevent these impairments due to HFD via effecting the host gut microbiota and SCFA.

Dysbiosis of intestinal microbiota in early life aggravates high-fat diet induced dysmetabolism in adult mice

BACKGROUND

Accumulating evidence have shown that the intestinal microbiota plays an important role in prevention of host obesity and metabolism disorders. Recent studies also demonstrate that early life is the key time for the colonization of intestinal microbes in host. However, there are few studies focusing on possible association between intestinal microbiota in the early life and metabolism in adulthood. Therefore the present study was conducted to examine whether the short term antibiotic and/or probiotic exposure in early life could affect intestinal microbes and their possible long term effects on host metabolism.

RESULTS

A high-fat diet resulted in glucose and lipid metabolism disorders with higher levels of visceral fat rate, insulin-resistance indices, and leptin. Exposure to ceftriaxone in early life aggravated the negative influences of a high-fat diet on mouse physiology. Orally fed TMC3115 protected mice, especially those who had received treatment throughout the whole study, from damage due to a high-fat diet, such as increases in levels of fasting blood glucose and serum levels of insulin, leptin, and IR indices. Exposure to ceftriaxone during the first 2 weeks of life was linked to dysbiosis of the fecal microbiota with a significant decrease in the species richness and diversity. However, the influence of orally fed ceftriaxone on the fecal microbiota was limited to 12 weeks after the termination of treatment. Of note, at week 12 there were still some differences in the composition of intestinal microbiota between mice provided with high fat diet and antibiotic exposure and those only fed a high fat diet.

CONCLUSIONS

These results indicated that exposure to antibiotics, such as ceftriaxone, in early life may aggravate the negative influences of a high-fat diet on the physiology of the host animal. These results also suggest that the crosstalk between the host and their intestinal microbiota in early life may be more important than that in adulthood, even though the same intestinal microbes are present in adulthood.

Abstract 2754: Inhibition of nitric oxide synthase and cyclooxygenase potentiate immune responses that control aggressive mammary tumor in a murine model

Progression of aggressive, triple negative breast cancers (TNBC) is driven by inflammation and the presence of tumor infiltrating lymphocytes (TIL) improves survival. Recent studies show that TNBCs show high levels of TILs but these cells are exhausted as evident from decreased IFNγ, Ki67 and granzyme B. High expression of the inflammation-associated protein, inducible nitric oxide synthase (NOS2) and co-expression with high cyclooxygenase 2 (COX2) means poor prognosis in ER- breast cancer. Interestingly, NOS2 and COX2 are upregulated in different cells in the tumor microenvironment (TME). Thus, we hypothesized that the tandem use of NOS2 and COX2 inhibitors would curtail tumor progression by targeting different cell types within the TME simultaneously. As COX2 has also been reported to regulate tumor infiltration of myeloid cells, this could regulate both the lymphoid and myeloid arms of the immune system for better response. We investigated the effects of NOS2 and COX2 on tumorigenesis and pulmonary metastasis in a murine model of TNBC by injecting 4T1 cells into the fourth mammary fat pad of wild type (WT) and NOS2 knockout (NOS2-/-) BALB/c mice followed by treatment with COX inhibitor, indomethacin. Changes in infiltrating immune cells was analyzed using flow cytometry and confocal microscopy. We measured the levels of serum cytokines using bead-based, LegendPlex assay. We found that NOS2-/- mice developed fewer pulmonary metastatic lesions than WT mice while indomethacin directly reduced primary tumor growth in both WT and NOS2-/- mice. Indomethacin treated NOS2-/- mice showed better median survival (60 days compared 51 in WT mice). Two NOS2-/-, indomethacin treated mice showed complete remission and long term (5-months) tumor growth delay after 4T1 re-challenge, indicating immune activation in mice lacking NOS2 and COX2 function. Flow cytometry of primary tumors showed higher infiltration of activated CD4, CD8 cells, macrophages and reduction of Tregs in treated mice. Microscopy revealed a physical ‘walling -off' of TILs by CD11b+ cells in untreated tumors that was abrogated upon indomethacin treatment. As many TNBC patients succumb to pulmonary metastasis and because we found reduced metastasis in NOS2-/- mice, we studied the immune cells in metastatic lungs. Lung niche of NOS2-/- mice had more activated T-cells, bone marrow-derived macrophages and neutrophils that are not conducive to establishment of metastasis. Serum of NOS2-/- mice had elevated IL-6 that drove increased IL17A subsequently contributing to reduced metastasis and this effect was improved upon indomethacin treatment. IL6 is also a potential inhibitor of Tregs thus further improving immune surveillance. COX inhibition can treat aggressive TNBC directly by reducing cancer cell proliferation and indirectly by immune activation. Tandem NOS2 inhibition can render the pulmonary microenvironment unfavorable for metastatic spread and induce a favorable systemic cytokine storm that further improves outcome.

Citation Format: Veena Somasundaram, Debashree Basudhar, Christopher McGinity, Robert Y. Cheng, Lisa A. Ridnour, Stephen J. Lockett, David A. Wink. Inhibition of nitric oxide synthase and cyclooxygenase potentiate immune responses that control aggressive mammary tumor in a murine model [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 2754.

Abstract 6198: Regulation of cycloxygenase-2 in the tumor micro-environment improves radiation and immunotherapy

In breast cancer (BC), the presence of tumor infiltrating lymphocytes is associated with improved survival. A recent study showed that increased CD8 cells and Th17 cells are specifically associated with triple negative breast cancer (TNBC) patients, a highly aggressive subclass of breast cancer. However, they undergo functional reprogramming in the tumor micro-environment(TME) evident from decreased IFN-γ;; and granzyme B. These immune escape mechanisms contribute to inability of the immune system to control tumor progression. Thus modulation of TME is necessary to effectively target the tumor. Radiation therapy (RT) is commonly used in more than 60% of cancer patients including BC. Focal radiation limits systemic side effects commonly associated with chemotherapy and acts as immune modulator. Eventually the tumor comes out of the growth delay and tends to show more aggressive phenotype. We found that RT induced inflammation associated biomarkers nitric oxide synthase2 (NOS2) and cycloxygenase2 (COX2) in the TME, specifically in the tumor cells.We previously showed that co-expression of pro-inflammatory enzymes NOS2 and COX2is a powerful prognostic indicator of poor outcome (HR=21) among ER-patients which in turn drive major oncogenic pathways. Immunotherapy, on the other hand, is being used as a standard of care in lung cancer. However, currently there is no approved immunotherapy available for BC patients, early data from several ongoing clinical trials show activity in various subclasses of BC including TNBC. It is reported that PD-L1 is high in 20% of TNBCs and COX2 may be involved in its regulation in tumor-infiltrating myeloid cells. This led us to hypothesize that modulation of inflammation associated biomarkers in the TME would increase the efficacy of RT and immunotherapy by amplifying anti-tumor immunity. We investigated the effect of NOS2 or COX2 inhibition using commercially available inhibitor on radiation and αPD-L1 induced tumor growth delay and lung metastases in murine model of TNBC using 4T1 cell line implanted in flank of Balbc mice. Change in immune cell populations in the TME was investigated using confocal microscopy, CO-Detection by indEXing (CODEX) technology and flow-cytometry. We also measured the levels of inflammation associated cytokines in serum. We demonstrated that co-treatment with COX2 inhibitor led to tumor growth delay and reduced metastases compared to conventional therapy by changing the TME to support tumor clearance.

Citation Format: Debashree Basudhar, Veena Somasundaram, David A. Scheiblin, Noemi Kedei, Robert Y. Cheng, Lisa A. Ridnour, Daniel W. McVicar, Stephen Lockett, David A. Wink. Regulation of cycloxygenase-2 in the tumor micro-environment improves radiation and immunotherapy [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 6198.

Abstract 1186: Regulation of inducible nitric oxide synthase at the single cell level modulates the inflammatory microenvironment

The anti-cancer versus pro-tumor behavior of cancer tissues is dependent largely on tumor cell-macrophage interactions in the tumor/inflammatory microenvironment and is regulated by Nitric Oxide (NO). High inducible nitric oxide synthase (Nos2) is associated with poor prognosis in breast cancer. Previously, we found that murine macrophages can be activated by different inflammatory cytokines/LPS to produce distinct NO fluxes (entirely Nos2-derived), suggesting flux-specific biological ramifications of NO. However, the effects of these NO fluxes on M1 phenotype have not been delineated. LC/MS analysis of M1 stimulated, wild type (wt) and Nos2-/- macrophages showed that Nos2 was the only source of citrulline. Metabolic analyses and microscopy showed that flattened cell phenotype characteristic of M1 macrophages and mitochondrial respiration are Nos2 dependent and regulated in a NO flux-dependent manner, while proinflammatory cytokine profile and aerobic glycolysis are Nos2 independent. We show for the first time that induction of Nos2 expression occurs only in specific stimulated cells that also harbor depolarized mitochondria. NO production has been linked to decreased oxygen consumption in hypoxic environments. We utilized a novel, in vitro chamber system that forms cell-generated hypoxic and metabolic gradients in two-dimensions by restricting the diffusive exchange of oxygen and metabolites to a monolayer of cells in a small volume- analogous to diffusion between a capillary and nearby tissue. We investigated interactions between Nos2 in M1-stimulated macrophages and hypoxia and demonstrated that treatment with IFNγ+LPS increases Nos2 expression and alters the magnitude and spatial extent of hypoxic gradients. A modified scratch assay revealed that low doses (1-50μM) of NO increased and high doses (1000μM) inhibited the migratory capacity of 4T1 tumor cells. However, in vivo, Nos2-/- mice did not show difference in primary tumor or metastatic burden compared to wt mice but bone marrow derived macrophages (BMDMs) from wt tumor bearing mice produced significantly lower levels of NO compared to BMDMs from tumor bearing- Nos2-/- mice. In summary, we find that the right flux NO is required to tune the inflammatory microenvironment. Nos2 and citrulline are robust intracellular readouts of extracellular NO flux. Nos2 dependent and independent events cooperate to regulate inflammatory macrophages. Autocrine, single cell effects on metabolism build up to cause paracrine effects including alleviation of hypoxia. 4T1 primary tumor and lung metastasis were not Nos2-regulated but host Nos2 hampered the ability of BMDMs to respond to proinflammatory stimuli hinting at possible systemic effects of Nos2. Hence, to make a reliable prognostic prediction, it is important to know the exact NO flux, which cells within the tumor express Nos2 and what other cells associate with Nos2hi cells.

Citation Format: Veena Somasundaram, Caroline Gilmore, Erika M. Palmieri, Debashree Basudhar, Will Heinz, Robert Y. Cheng, Lisa A. Ridnour, Stephen J. Lockett, Daniel W. McVicar, David A. Wink. Regulation of inducible nitric oxide synthase at the single cell level modulates the inflammatory microenvironment [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 1186.

Abstract 1197: Role of NOS2-COX2 inhibition in radiation-induced tumor growth delay and immuno-modulation in the tumor micro-environment

Triple negative breast cancer (TNBC) is associated with lack of expression of human epidermal growth factor receptor 2 (HER2), estrogen receptor (ER) and progesterone receptor (PR), and do not respond to hormonal therapy. It is one of the most aggressive breast cancer phenotypes and remains a major health hazard among women with drug resistance being a limiting factor in treatment. Inflammation is a key driver of poor survival among TNBC patients through increase in metastasis and chemo-resistance. We recently demonstrated that co-expression of pro-inflammatory enzymes nitric oxide synthase2 (NOS2) and cycloxygenase2 (COX2) is a powerful prognostic marker of poor outcome (HR=21) among ER(-) patients where we showed that inflammatory loops involving these proteins globally drive major oncogenic pathways [1].

Apart from intramural signaling, the crosstalk of tumor cells with immune cells is a key driver of immuno-suppression. Tumor progression is associated with tumor infiltrating M2 macrophages and Th2 cells leading to immuno-suppression, aberrant activation of cytokines, chemokines and growth factors thus creating a conducive environment for tumor growth and metastasis. Our goal is to modulate the tumor micro-environment (TME) to increase efficacy of current radiation- and immunotherapy.

Radiation therapy is a commonly used treatment option in different types of cancer including breast cancer. Focal radiation limits systemic side effects commonly associated with chemotherapy. It also activates the immune system. A key component of the immune system mediated tumor clearance is cytotoxic CD8 T cells. More recently a study found that increased CD8 cells and Th17 cells are specifically associated with TNBC patients [2]. However, they undergo functional reprogramming in the TME evident from decreased cytotoxic (IFN-γ) and proliferation marker (granzyme B).

We used confocal microscopy and flow-cytometry techniques to investigate the role of NOS2 and COX2 in radiation induced tumor growth delay and metastasis. We also examined the ability of NOS2 and COX2 in regulation of the immune profile of the TME, thus emphasizing their importance in tumor growth and immune-surveillance. Lastly, we evaluated the role of COX2 and NOS2 inhibition using commercially available inhibitors on radiation induced tumor growth delay in murine models of ER- breast cancer.

[1] Basudhar, D. et al, Proceedings of the National Academy of Sciences of the United States of America 2017, 114 (49), 13030-13035.

[2] Gil Del Alcazar, et al., Cancer discovery 2017, 7 (10), 1098-1115.

Note: This abstract was not presented at the meeting.

Citation Format: Debashree Basudhar, Veena Somasundaram, David A. Scheiblin, Robert Y. Cheng, Stephen J. Lockett, David Wink, Lisa A. Ridnour. Role of NOS2-COX2 inhibition in radiation-induced tumor growth delay and immuno-modulation in the tumor micro-environment [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 1197.

Abstract 3789: Role of NOS2-COX2 crosstalk in tumor microenvironment of estrogen receptor-negative breast cancer and its therapeutic implications

Tumor is often described as a wound that never heals. This leads to a chronic inflammatory tumor microenvironment characterized by infiltration of M2 macrophages and Th2 cells causing dysregulated release of multiple cytokines, chemokines and growth factors, thus creating a conducive environment for tumor growth and metastasis. In spite of significant progress in breast cancer treatment, metastatic breast cancer still remains a major health hazard with a high mortality rate among women. Moreover, there is cellular heterogeneity within and among different breast tumors, which poses a significant challenge in developing effective therapeutics, thus making it important to understand subtype-specific mechanisms. Our laboratory and other groups have previously shown that inducible nitric oxide synthase (NOS2), an enzyme involved in production and regulation of endogenous nitric oxide (NO), is a predictor of poor survival among highly metastatic ER-negative (ER-) breast cancer patients. Another proinflammatory enzyme, cyclooxygenase-2 (COX2,) responsible for conversion of arachidonic acid to prostaglandin E2 (PGE2), is also highly expressed in breast cancer and is detectable in ductal carcinoma in situ, invasive breast carcinoma, and metastatic lesions. We investigated the role of inflammation associated enzymes, NOS2 and COX2, and established that their simultaneous elevated expression significantly reduced patient survival (33%) when compared to greater than 95% survival of ER- patients with low NOS2/COX2 tumor expression. We further investigated their tumor subtype specific novel signaling mechanism in vitro and showed TNFα and/or endoplasmic reticulum stress as key players. Proinflammatory cytokines present in tumor microenvironment play a key role in regulation of this pathway and effectiveness of chemotherapeutics. Moreover, the ability of NOS2 and COX2 to regulate different cytokines in the tumor microenvironment further emphasizes the importance of their crosstalk in tumor progression, metastasis and ability of cancer cells to escape immune surveillance. Last, we demonstrated that simultaneous inhibition of COX2 and NOS2 using commercially available inhibitors significantly reduced tumor growth in murine models of ER- breast cancer, thus suggesting the beneficial effects of dual NOS2/COX2 therapy.

Citation Format: Debashree Basudhar, Sharon Glynn, Madison Greer, Veena Somasundaram, Jae H. No, David A. Scheiblin, Pablo Garrido, William F. Heinz, Aideen E. Ryan, Jonathan M. Weiss, Robert Y. Cheng, Lisa A. Ridnour, Stephen J. Lockett, Daniel W. McVicar, Stefan Ambs, David A. Wink. Role of NOS2-COX2 crosstalk in tumor microenvironment of estrogen receptor-negative breast cancer and its therapeutic implications [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 3789.

Oral administration of Bifidobacterium bifidum TMC3115 to neonatal mice may alleviate IgE-mediated allergic risk in adulthood

This study aimed to demonstrate whether exposure to bifidobacteria during early life influences immunity and alleviates the risk of immunoglobulin E (IgE)-mediated allergies in adulthood. BALB/c neonatal mice (n=54) were administered with a lyophilised cell preparation of Bifidobacterium bifidum TMC3115 (TMC3115) for 3 weeks. Following the intervention, the mice were immunised with intraperitoneal ovalbumin (OVA). The morphology and function of the intestinal epithelium were determined using histopathological examinations. Intestinal microbiota was detected using quantitative PCR and characterised using next-generation sequencing of 16S rRNA genes from faecal DNA. Caecal short-chain fatty acids (SCFAs) were measured using gas chromatography-mass spectrometry. Serum levels of tumour necrosis factor (TNF)-α, interleukin (IL)-6, IL-10, and immunoglobulin E (IgE) and the percentage of splenic CD4+ T cells were examined using enzyme-linked immunosorbent assay and flow cytometry, respectively. TMC3115 did not significantly affect body weight, and cause any severe systemic inflammation or other clinical symptoms among the neonatal or adult mice, although the crypt depths and Muc2-positive cells in some intestinal segments of neonatal mice were significantly lower than control. Oral TMC3115 administration significantly increased faecal microbial diversity, relative abundance of Bacteroidetes and caecal SCFAs production in neonatal mice. Following the intervention, neonatal mice treated with TMC3115 exhibited less increase in serum IgE levels induced by OVA in adults and significantly higher TNF-α and IL-10 levels than in control. Our findings indicate that the oral administration of bifidobacteria, particularly certain strains, such as TMC3115, during early life could alleviate the risk of IgE-mediated allergies in adult host animals. Modifications of intestinal microbiota, SCFAs metabolism and anti-inflammatory cytokine IL-10 production by bifidobacteria may at least in part be a key mechanism underlying the effect of bifidobacteria on the IgE-mediated immune sensitivity of hosts to attacks by allergens at both neonatal and adult stages.

Nitric Oxide Synthase-2-Derived Nitric Oxide Drives Multiple Pathways of Breast Cancer Progression

SIGNIFICANCE

Breast cancer is the second leading cause of cancer-related deaths among women in the United States. Development and progression of malignancy are associated with diverse cell signaling pathways that control cell proliferation, survival, motility, invasion, and metastasis. Recent Advances: An increasing number of clinical studies have implicated a strong relationship between elevated tumor nitric oxide synthase-2 (NOS2) expression and poor patient survival.

CRITICAL ISSUES

Herein, we review what we believe to be key mechanisms in the role(s) of NOS2-derived nitric oxide (NO) as a driver of breast cancer disease progression. High NO increases cyclooxygenase-2 activity, hypoxia inducible factor-1 alpha protein stabilization, and activation of important cell signaling pathways, including phosphoinositide 3-kinase/protein kinase B, mitogen-activated protein kinase, epidermal growth factor receptor, and Ras, through post-translational protein modifications. Moreover, dysregulated NO flux within the tumor microenvironment has other important roles, including the promotion of angiogenesis and modulation of matrix metalloproteinase/tissue inhibitor matrix metalloproteinase associated with tumor progression.

FUTURE DIRECTIONS

The elucidation of these and other NO-driven pathways implicates NOS2 as a key driver of breast cancer disease progression and provides a new perspective in the identification of novel targets that may be therapeutically beneficial in the treatment of estrogen receptor-negative disease. Antioxid. Redox Signal. 26, 1044-1058.

Signaling and stress: The redox landscape in NOS2 biology

Nitric oxide (NO) has a highly diverse range of biological functions from physiological signaling and maintenance of homeostasis to serving as an effector molecule in the immune system. However, deleterious as well as beneficial roles of NO have been reported. Many of the dichotomous effects of NO and derivative reactive nitrogen species (RNS) can be explained by invoking precise interactions with different targets as a result of concentration and temporal constraints. Endogenous concentrations of NO span five orders of magnitude, with levels near the high picomolar range typically occurring in short bursts as compared to sustained production of low micromolar levels of NO during immune response. This article provides an overview of the redox landscape as it relates to increasing NO concentrations, which incrementally govern physiological signaling, nitrosative signaling and nitrosative stress-related signaling. Physiological signaling by NO primarily occurs upon interaction with the heme protein soluble guanylyl cyclase. As NO concentrations rise, interactions with nonheme iron complexes as well as indirect modification of thiols can stimulate additional signaling processes. At the highest levels of NO, production of a broader range of RNS, which subsequently interact with more diverse targets, can lead to chemical stress. However, even under such conditions, there is evidence that stress-related signaling mechanisms are triggered to protect cells or even resolve the stress. This review therefore also addresses the fundamental reactions and kinetics that initiate signaling through NO-dependent pathways, including processes that lead to interconversion of RNS and interactions with molecular targets.

Synthesis and chemical and biological comparison of nitroxyl- and nitric oxide-releasing diazeniumdiolate-based aspirin derivatives

Structural modifications of nonsteroidal anti-inflammatory drugs (NSAIDs) have successfully reduced the side effect of gastrointestinal ulceration without affecting anti-inflammatory activity, but they may increase the risk of myocardial infarction with chronic use. The fact that nitroxyl (HNO) reduces platelet aggregation, preconditions against myocardial infarction, and enhances contractility led us to synthesize a diazeniumdiolate-based HNO-releasing aspirin and to compare it to an NO-releasing analogue. Here, the decomposition mechanisms are described for these compounds. In addition to protection against stomach ulceration, these prodrugs exhibited significantly enhanced cytotoxcity compared to either aspirin or the parent diazeniumdiolate toward nonsmall cell lung carcinoma cells (A549), but they were not appreciably toxic toward endothelial cells (HUVECs). The HNO-NSAID prodrug inhibited cylcooxgenase-2 and glyceraldehyde 3-phosphate dehydrogenase activity and triggered significant sarcomere shortening on murine ventricular myocytes compared to control. Together, these anti-inflammatory, antineoplasic, and contractile properties suggest the potential of HNO-NSAIDs in the treatment of inflammation, cancer, or heart failure.

K-ras p21 expression and activity in lung and lung tumors

Although K-ras is mutated in many human and mouse lung adenocarcinomas, the function of K-ras p21 in lung is not known. We sought evidence for the prevalent hypothesis that K-ras p21 activates raf, which in turn passes the signal through the extracellular signal regulated kinases (Erks) to stimulate cell division, and that this pathway is upregulated when K-ras is mutated. Results from both mouse lung tumors and immortalized cultured E10 and C10 lung type II cells failed to substantiate this hypothesis. Lung tumors did not have more total K-ras p21 or K-ras p21 GTP than normal lung tissue, nor were high levels of these proteins found in tumors with mutant K-ras. Activated K-ras p21-GTP levels did not correlate with proliferating cell nuclear antigen. Special features of tumors with mutant K-ras included small size of carcinomas compared with carcinomas lacking this mutation, and correlation of proliferating cell nuclear antigen with raf-1. In nontransformed type II cells in culture, both total and activated K-ras p21 increased markedly at confluence but not after serum stimulation, whereas both Erk1/2 and the protein kinase Akt were rapidly activated by the serum treatment. Reverse transcriptase-polymerase chain reaction (RT-PCR) assays of K-ras mRNA indicated an increase in confluent and especially in postconfluent cells. Together the findings indicate that normal K-ras p21 activity is associated with growth arrest of lung type II cells, and that the exact contribution of mutated K-ras p21 to tumor development remains to be discovered.

Huperzine-A in capsules and tablets for treating patients with Alzheimer disease

AIM

To compare the efficacy and safety between huperzine-A (Hup) in capsules and tablets for treating patients with Alzheimer disease (AD).

METHODS

Using multicenter, prospective, double-blind, double-mimic, parallel, positive controlled and randomized methods, 60 patients meeting with the NINCDS-ARDRA criteria of AD were divided into 2 equal groups. Patients in the capsule group received 4 capsules of Hup (each contains 50 micrograms) and 4 tablets of placebo (lactose and starch inside); while the tablet group received 4 tablets of Hup (each contains 50 micrograms) and 4 capsules of placebo, p.o., twice a day for 60 d. All the patients were evaluated with a lot of related ranting scales, and physiological and laboratory examination.

RESULTS

There were significant differences (P < 0.01) on all the psychological evaluations between 'before' and 'after' the 60-d trial of 2 groups, but there was no significant difference between 2 groups by group t test (P > 0.05). The changes of oxygen free radicals in 2 groups showed marked improvement. No severe side effect besides moderate to mild nausea was found in both groups.

CONCLUSION

There is equal efficacy and safety between Hup in capsule and tablet for treating patients with AD, and Hup can reduce the pathological changes of the oxygen free radicals in the plasma and erythrocytes of patients with AD.

Clinical significance of telomerase activation and telomeric restriction fragment (TRF) in cervical cancer

Telomerase activation was examined in 50 cases of cervical cancer, 27 normal cervix and five cervical cancer cell lines using the sensitive polymerase chain reaction (PCR)-based TRAP (telomeric repeat amplification protocol) assay. Telomeric restriction fragment (TRF) length of these specimens was measured by Southern hybridisation. Telomerase activation was common in cervical cancers and was detected in 46/50 cases (92%). Telomerase activity was weak in normal cervix and was detected only in 2/27 cases (7.4%). Telomerase activity was detected in all stages of cervical cancer suggesting that it is an early event in cancer progression. The clinical significance of telomerase activation was analysed in 47 squamous cell carcinoma of the cervix. High telomerase activity was more frequently detected in advanced diseases (100% in stage III and stage IV cervical cancers combined) compared with early diseases (68.6% in stage I and stage II cancers combined). The difference was statistically significant (P < 0.02). Telomerase activity was not statistically correlated with other clinical parameters examined. This is the first report of telomeric length in human cervical cancer. Both shortening and elongation of TRF length in cervical cancers was observed. Advanced cervical cancers tended to have a wider range of variation of TRF length compared with early disease and normal cervix. There was no obvious relationship between TRF length and the clinical parameters examined including clinical staging, differentiation status of tumour, human papilloma virus (HPV) infection, recurrence rate, tumour size and invasion depth. The clinical significance of TRF length appears to be limited in cervical cancers. Our results indicate that telomerase activity is closely associated with tumour cells and may be useful as a marker for detection of tumour cells in cervical biopsies.

Telomerase activation in human cancers

OBJECTIVE

To review the background of telomerase activation and the methodology involved in its determination, and the clinico-pathological significance of telomerase activation in human cancers.

DATA SOURCES

An English-language literature search using MEDLINE (1966-1997) and bibliographic reviews of textbooks and review articles.

RESULTS

Progressive shortening of telomeres was associated with continuous cell division in normal somatic cells. Telomerase was activated in most cancer cells and immortal germ cells to maintain their telomeric lengths. The occurrence and clinical pathological significance of telomerase activation was evaluated in various types of human cancer.

CONCLUSIONS

Telomerase activation is a common event in human cancers and may be as a useful marker for malignant cells. Telomerase may also be a therapeutic target for cancer treatment.

Telomerase activation in nasopharyngeal carcinomas

Nasopharyngeal carcinomas (NPC) are common in Hong Kong and southern China but rare in Western countries. Telomerase activation is common in human cancers but has not been reported previously in NPC. Telomerase activation in NPC was determined using the sensitive TRAP (telomerase rapid amplification protocol) assay in 45 nasopharyngeal biopsies (36 NPC, nine normal nasopharyngeal mucosae) in four xenografted NPC tumours established in nude mice and in five in vitro NPC cell lines. Telomerase activation is common in NPC and can be detected at high frequencies (85% in primary tumours and 100% in recurrent tumours). The frequency of telomerase activation was lowest in NPC biopsies without lymph node involvement (60%) compared with those with positive lymph node involvement (100%), and the difference is statistically significant (P < 0.05; Fisher exact test). All the xenografted NPC tumours and in vitro NPC cell lines were strongly positive for telomerase activity. Our results suggest that telomerase activation is common in NPC and it may be useful as a diagnostic marker in the detection of tumour cells in nasopharyngeal biopsies. The high frequency of telomerase activation in stage I NPC (80% positive) suggests that it is an early event in tumour progression.

The interaction of the neuromuscular effects between mivacurium and esmolol in rats

BACKGROUND

To study the neuromuscular interaction between mivacurium and esmolol, we compared the neuromuscular actions of the ED90 dose of mivacurium both in the absence and presence of esmolol infusion.

METHODS

Twelve rats were anesthetized with urethane. Train-of-four stimulation was applied every 12 s to the sciatic nerve, and the electromyogram (EMG) response of the anterior tibial muscle was measured.

RESULTS

The ED50 and ED90 of mivacurium in rats were 144 +/- 7.3 micrograms/kg and 197 +/- 7.7 micrograms/kg, respectively. The maximal EMG depression produced by ED50 of mivacurium decreased significantly with esmolol treatment from 88.2 +/- 2.7% to 83.1 +/- 2.6% after esmolol infusion (p < 0.05). The onset time for 75% EMG depression was much shorter for control (44 +/- 6.3 s) than that of esmolol treatment (78.2 +/- 2.4 s; p < 0.05). There was no difference between their duration.

CONCLUSIONS

The results of this study demonstrated that esmolol does not potentiate the neuromuscular effect of mivacurium but antagonize the maximal neuromuscular block and decrease its onset time in rats.

[Incidence of venous air embolism in parturients during cesarean section with regional anesthesia]

The purpose of the study is to probe the situation of venous air embolism (VAE) and the accompanying complications occurring in Chinese parturients in Taiwan during Cesarean section. Sixty ASA physical status class I-II parturients who were subjected to cesarean section under regional anesthesia were evaluated. The sensor of the Doppler device was placed on the anterior chest to detect the rumbles of air when it came to pass, and simultaneously the signs and symptoms following VAE were observed. Our results demonstrated that the usual or normal Doppler heart sound changed in 38 parturients out of 60 (63.3%), and the alteration occurred very often when the uterus was being incised (81.6%), or sutured (97.4%), and concurred strong correlation with such signs and symptoms such as chest tightness or precordial pain (78.9%), shortness of breath (60.5%), and change of heart rate or blood pressure (86.8%). The method of anesthesia (spinal or epidural block) did not have effect on the occurrence of VAE, but different surgical approaches and different positions in which the patients were posed during operation did apparently bring about VAE of variable degree. Besides, supplying of oxygen could mitigate the symptoms produced by VAE. Consequently, the application of Doppler monitor during Cesarean section can detect VAE earlier and more efficiently and thus provides information timely treatment.