C-Myc Deregulation is Involved in Melphalan Resistance of Multiple Myeloma: Role of PDGF-BB

Oncogenes are important regulators of cancer growth and progression and their action may be modulated by proteins of the growth factor family, such as angiogenic cytokines, known to be strongly involved in neoplastic evolution. Reciprocal interactions between oncogenes and angiogenic modulators may represent, in haematological neoplasms, including multiple myeloma (MM), a possible mechanism of drug resistance. The aim of this work is to investigate in vitro and in vivo whether or not c-myc deregulation is involved in the melphalan resistance elicited by myeloma patients and consequently to clarify the role of the angiogenic factor PDGF-BB in modulating c-myc protein expression. Fifty-one MM patients on chemotherapy with melphalan were analyzed for structural alterations of the c-myc gene, c-Myc protein expression, as well as for serum PDGF-BB release. For the in vitro study, two M14-derived established cell clones, differing for the c-Myc protein expression (c-Myc low -expressing or constitutively expressing clones) were used. Our results show that PDGF-BB is able to up-regulate Myc expression and reduce melphalan sensitivity of tumor cell clones, constitutively expressing c-myc gene product. In addition, down-regulation of c-Myc protein induces the expression of PDGF-β receptor molecules and reduces PDGF-BB release. In agreement with these results, in vivo data show that melphalan-resistant MM patients present overexpressed c-Myc protein and higher serum PDGF-β receptor levels compared to minor responding patients.

MYCN gene expression is required for the onset of the differentiation programme in neuroblastoma cells

Neuroblastoma is an embryonic tumour of the sympathetic nervous system and is one of the most common cancers in childhood. A high differentiation stage has been associated with a favourable outcome; however, the mechanisms governing neuroblastoma cell differentiation are not completely understood. The MYCN gene is considered the hallmark of neuroblastoma. Even though it has been reported that MYCN has a role during embryonic development, it is needed its decrease so that differentiation can be completed. We aimed to better define the role of MYCN in the differentiation processes, particularly during the early stages. Considering the ability of MYCN to regulate non-coding RNAs, our hypothesis was that N-Myc protein might be necessary to activate differentiation (mimicking embryonic development events) by regulating miRNAs critical for this process. We show that MYCN expression increased in embryonic cortical neural precursor cells at an early stage after differentiation induction. To investigate our hypothesis, we used human neuroblastoma cell lines. In LAN-5 neuroblastoma cells, MYCN was upregulated after 2 days of differentiation induction before its expected downregulation. Positive modulation of various differentiation markers was associated with the increased MYCN expression. Similarly, MYCN silencing inhibited such differentiation, leading to negative modulation of various differentiation markers. Furthermore, MYCN gene overexpression in the poorly differentiating neuroblastoma cell line SK-N-AS restored the ability of such cells to differentiate. We identified three key miRNAs, which could regulate the onset of differentiation programme in the neuroblastoma cells in which we modulated MYCN. Interestingly, these effects were accompanied by changes in the apoptotic compartment evaluated both as expression of apoptosis-related genes and as fraction of apoptotic cells. Therefore, our idea is that MYCN is necessary during the activation of neuroblastoma differentiation to induce apoptosis in cells that are not committed to differentiate.

c-MYC deregulation is involved in melphalan resistance of multiple myeloma: role of PDGF-BB

Oncogenes are important regulators of cancer growth and progression and their action may be modulated by proteins of the growth factor family, such as angiogenic cytokines, known to be strongly involved in neoplastic evolution. Reciprocal interactions between oncogenes and angiogenic modulators may represent, in haematological neoplasms, including multiple myeloma (MM), a possible mechanism of drug resistance. The aim of this work is to investigate in vitro and in vivo whether or not c-myc deregulation is involved in the melphalan resistance elicited by myeloma patients and consequently to clarify the role of the angiogenic factor PDGF-BB in modulating c-myc protein expression. Fifty-one MM patients on chemotherapy with melphalan were analyzed for structural alterations of the c-myc gene, c-Myc protein expression, as well as for serum PDGF-BB release. For the in vitro study, two M14-derived established cell clones, differing for the c-Myc protein expression (c-Myc low -expressing or constitutively expressing clones) were used. Our results show that PDGF-BB is able to up-regulate Myc expression and reduce melphalan sensitivity of tumor cell clones, constitutively expressing c-myc gene product. In addition, down-regulation of c-Myc protein induces the expression of PDGF-beta receptor molecules and reduces PDGF-BB release. In agreement with these results, in vivo data show that melphalan-resistant MM patients present overexpressed c-Myc protein and higher serum PDGF-BB receptor levels compared to minor responding patients.

p53 nuclear accumulation and multiploidy are adverse prognostic factors in surgically resected stage II colorectal cancers independent of fluorouracil-based adjuvant therapy

To identify the prognostically highest risk patients, DNA content and p53 nuclear or cytoplasmic accumulation, evaluated by monoclonal antibody DO7 and polyclonal antibody CM1, were determined in 94 surgically resected stage II (Dukes B2) colorectal cancers, treated or not with adjuvant 5-fluorouracil-based chemotherapy. Sixty-one (65%) of the tumors were aneuploid, 16 (17%) of which had a multiploid DNA content; 50 (53%) displayed DO7 nuclear p53 accumulation, and 44 (47%) showed cytoplasmic CM1 positivity. In multivariate analysis, only multiploidy and p53 nuclear positivity emerged as independent prognostic indicators of a poorer outcome. Positivity for p53 was associated with shorter survival in 5-fluorouracil-treated and untreated patients. Therefore, in patients with Dukes B2 colorectal cancer, a biologic profile based on the combined evaluation of DNA multiploidy and p53 status can provide valuable prognostic information, identifying patients to be enrolled in alternative, more aggressive therapeutic trials.

Biological indicators of aggressiveness in T1 ductal invasive breast cancer

BACKGROUND

Apoptosis plays an important role in the maintenance of tissue homeostasis. When defective, this process could contribute to the pathogenesis and the progression of tumors. On this basis, we investigated the combined effect of Bcl-2 and Bax expression, known regulators of apoptotic processes, in the activation of apoptosis in breast cancer. Their relationship with DNA content and proliferative activity was also studied in order to more accurately define breast cancer patients' prognosis and treatment.

MATERIALS AND METHODS

In this study we investigated 76 T1 ductal invasive breast cancers and 76 normal epithelium samples for Bcl-2 and Bax expression by immunohistochemistry, for apoptosis by tunel assay and for DNA content and proliferative activity by flow cytometry.

RESULTS

High levels of Bcl-2 were associated with prevention of apoptosis. Conversely high Bax expression was found to be related to apoptosis. DNA ploidy was strictly related to the proliferative activity. In addition most of the tumors showing high Bcl-2 expression were aneuploid.

CONCLUSION

This report suggests that Bax over-expression could accelerate apoptotic cell death by counteracting the ability of Bcl-2 to inhibit apoptosis. These data also suggest that the ratio Bcl-2/Bax and their relationship with the activation of apoptosis could be used as predictive indicators of breast cancer patients' prognosis and response to conventional therapy.

Myc down-regulation induces apoptosis in M14 melanoma cells by increasing p27(kip1) levels

In recent years, increasing evidence indicated the importance of a deregulated c-myc gene in the melanoma pathogenesis. We have previously demonstrated that treatment of melanoma cells with c-myc antisense oligodeoxynucleotides can inhibit cell proliferation and activate apoptosis. To gain insight into the mechanisms activated by Myc down-regulation, we have now developed an experimental model that allows modulating Myc protein expression in melanoma cells. This was achieved by originating stable melanoma cell clones expressing ecdysone-inducible c-myc antisense RNA. We show that the induction of c-myc antisense RNA in M14 melanoma cells leads to an inhibition of cell proliferation characterized by accumulation of cells in the G(1) phase of the cell cycle (up to 80%) and activation of apoptosis (50%). These data are associated with an increase of p27(kip1) levels and a significant reduction of the cdk2-associated kinase activity. In addition, we show that an ectopic overexpression of p27(kip1) in this experimental model can enhance the apoptotic rate. Our results indicate that down-regulation of Myc protein induces a G(1) arrest and activates apoptosis by increasing p27(kip1) content in melanoma cells, that are known to be defective for the p16-cyclinD/cdk4-pRb G(1) checkpoint. This is particularly relevant for identifying new therapeutic strategies based on the re-establishment of the apoptotic pathways in cancer cells.

Arrest of G(1)-S progression by the p53-inducible gene PC3 is Rb dependent and relies on the inhibition of cyclin D1 transcription

The p53-inducible gene PC3 (TIS21, BTG2) is endowed with antiproliferative activity. Here we report that expression of PC3 in cycling cells induced accumulation of hypophosphorylated, growth-inhibitory forms of pRb and led to G(1) arrest. This latter was not observed in cells with genetic disruption of the Rb gene, indicating that the PC3-mediated G(1) arrest was Rb dependent. Furthermore, (i) the arrest of G(1)-S transition exerted by PC3 was completely rescued by coexpression of cyclin D1 but not by that of cyclin A or E; (ii) expression of PC3 caused a significant down-regulation of cyclin D1 protein levels, also in Rb-defective cells, accompanied by inhibition of CDK4 activity in vivo; and (iii) the removal from the PC3 molecule of residues 50 to 68, a conserved domain of the PC3/BTG/Tob gene family, which we term GR, led to a loss of the inhibition of proliferation as well as of the down-regulation of cyclin D1 levels. These data point to cyclin D1 down-regulation as the main factor responsible for the growth inhibition by PC3. Such an effect was associated with a decrease of cyclin D1 transcript and of cyclin D1 promoter activity, whereas no effect of PC3 was observed on cyclin D1 protein stability. Taken together, these findings indicate that PC3 impairs G(1)-S transition by inhibiting pRb function in consequence of a reduction of cyclin D1 levels and that PC3 acts, either directly or indirectly, as a transcriptional regulator of cyclin D1.

Evaluation of multiple bio-pathological factors in colorectal adenocarcinomas: independent prognostic role of p53 and bcl-2

About 40% of patients with colorectal carcinoma will develop local or distant tumour recurrences. Integrated analyses of bio-pathological markers, predictive of tumour aggressiveness, may offer a more rational approach to planning adjuvant therapy. To this end, we analysed the correlation between p53 accumulation, Bcl-2 expression, DNA ploidy, cell proliferation and conventional clinico-pathological parameters by testing the prognostic significance of these variables in a series of 171 colorectal carcinoma patients with long-term follow-up. The relationships among the various bio-pathological parameters, analysed by multiple correspondence analysis, showed 2 different clinico-biological profiles. The first, characterised by p53 negativity, Bcl-2 positivity, diploidy, low percentage of cells in S-phase (%S-phase), a low Ki-67 score, is associated with Dukes' A-B stage, well differentiated tumours and lack of relapse. The second, defined by p53 positivity, Bcl-2 negativity, aneuploidy, high %S-phase and elevated Ki-67 score, correlates with Dukes' C-D stage, poorly differentiated tumours and presence of relapse. When these parameters were examined according to Kaplan-Meier's method, significantly shorter disease-free (DFS) and overall survival (OS) were also observed in patients bearing p53 positive and Bcl-2 negative tumours, in Dukes' B stage. In multivariate analysis, p53 accumulation and Bcl-2 expression emerged as independent predictors of a worse and better clinical outcome, respectively. Our results indicate that, in colorectal adenocarcinomas, a biological profile, based on the combined evaluation of p53 and Bcl-2, may be useful for identifying high risk patients to be enrolled in an adjuvant setting, mainly in an early stage of the disease. Int. J. Cancer (Pred. Oncol.) 84:545-552, 1999.

The role of multiploidy as unfavorable prognostic variable in colorectal cancer

OBJECTIVE

To analyze the prognostic value of DNA multiploidy in a prospective study on frozen surgical tissue samples from primary colorectal cancer.

SUMMARY BACKGROUND DATA

Survival data from eleven prospective studies collectively comprising about thirteen hundred patients showed that aneuploidy correlated with a 5-year disease-free survival (DFS) significantly poorer than diploidy, and showed the limited prognostic value of results from retrospective studies employing paraffin-embedded material.

METHODS

Multiple tumor samples of fresh/frozen surgical tissues from 120 colorectal cancer patients who had undergone radical surgery were taken for flow cytometric analysis of DNA content, and proliferative activity, shown as percentage of cells in S-phase (%S). The minimum follow-up of this series was 30 months. Univariate and multivariate analyses determined the independent significance of both clinical and biological variable on DFS.

RESULTS

Values of %S equal to or higher than 17.3 correlated with a 5-year DFS poorer than values lower than 17.3 (44.5% vs 85.2% respectively; p = .03), even if only in patients younger than 64. The subgroup with multiploid tumors showed a significantly poorer 5-year DFS (44.5% vs. 62.6% in the non multiploid patients; p = .02). Subgrouping the Dukes'B stage alone by multiploidy, the difference in DFS was much more evident (31.2% vs. 68% respectively; p = .0004) and multivariate analysis showed multiploidy as the only significant variable. Above all, adjuvant therapy did not absolutely modify the unfavorable outcome of the multiploid Dukes'B patients.

CONCLUSIONS

The prospective evaluation of ploidy allowed us to identify a very high-risk subgroup of patients with multiploid tumors. This biological characterization was easy to demonstrate and, above all in node-negative patients, reliable and very effective in terms of prognosis. The presence of multiploidy should result in a more aggressive therapeutic approach in the adjuvant setting.

c-myc antisense oligodeoxynucleotides enhance the efficacy of cisplatin in melanoma chemotherapy in vitro and in nude mice

This study was designed to assess the efficacy of a new antimelanoma therapeutic strategy that relies on the use of a c-myc antisense 15-mer phosphorothioate oligodeoxynucleotide ([S]ODN), in combination with cisplatin (cis-diamminedichloroplatinum; DDP), which is currently used in the clinical management of melanoma patients. Proliferation and colony formation of melanoma cells were both inhibited by the DDP/c-myc antisense [S]ODN combination to a greater extent than that observed with either agent alone. Inhibition was most effective when DDP was followed by c-myc antisense [S]ODNs. Cell cycle flow cytometric analysis of cells exposed to the two agents either alone or in combination demonstrated that (a) c-myc antisense [S]ODNs induced an accumulation of cells in S phase and apoptosis in a fraction of the cells, detectable at day 5 after the beginning of treatment; (b) DDP induced a block in G2-M phase detectable at day 1, which was partially recovered, and apoptosis similar in extent to that induced by c-myc antisense [S]ODNs; and (c) DDP and c-myc antisense [S]ODNs together induced arrest in G2-M phase, which was maximum at day 3, i.e., delayed as compared to the block induced by DDP. The combination induced a higher percentage of apoptosis, evident at day 3 from the start of treatment, that correlated with a marked reduction in Bcl-2 expression. Mice bearing human melanoma xenografts and treated sequentially with DDP and c-myc antisense [S]ODNs showed a higher inhibition of tumor growth, reduction in the number of lung metastases, and increase in life span compared with those treated with either agent alone. Together, these data lend support to the development of anticancer therapies involving oncogene-targeted antisense ODNs and conventional antineoplastic drugs.

Effects of poly(ADP-ribose) polymerase inhibition on cell death and chromosome damage induced by VP16 and bleomycin

Poly(ADP-ribose) polymerase (PARP) is a DNA-binding protein involved in cellular response to various genotoxic agents. To understand the role of PARP in the mechanisms which lead from specific DNA damage to cell death, we studied the effects of PARP inhibition in human lymphoblasts damaged with bleomycin (BLM) and VP16. These agents can induce DNA breakage but through different mechanisms, enabling the study of the different effects of PARP in inducing apoptosis in damaged cells. We demonstrate that in lymphoblasts VP16 treatment induces apoptosis to a greater extent than BLM treatment, and that PARP inhibition reduces VP16-induced apoptosis whereas it has no effect on BLM-induced apoptosis. After VP16 treatment with PARP inhibition, a reduction in the depletion of the proliferative compartment and a G2/M phase arrest are observed. Therefore, the increase in cell viability and the reduction in chromosome damage may both be the result of a prolonged DNA repair time. Hence, PARP appears to play a significant role in VP16-induced apoptosis and not in BLM-induced apoptosis. Since apoptosis is important in tumor treatment these findings might be useful when considering the combined employment of PARP inhibition with antineoplastic drugs.

DNA ploidy, proliferative index and EGF-R status in 130 cases of resected gastric cancer--a multivariate analysis

BACKGROUND/AIMS

The purpose of this study was to define the prognostic role of DNA ploidy, proliferative index and EGF-R status in resected gastric cancer.

MATERIALS AND METHODS

Ten clinico-pathological parameters and three biological factors obtained from flow cytometry and immunohisto-chemistry were evaluated in a series of 130 gastric cancer patients who received surgical treatment, including 28 stage IV cases (21.6%), using paraffin-embedded and fresh specimens in 77.7% and 22.3% of the cases, respectively. These variables were first analyzed and tested for correlation within the whole series and then weighted against survival in 117 applicable cases through univariate and multivariate analyses.

RESULTS

Aneuploidy was significantly related to higher proliferative activity, EGF-R expression and deeper stomach wall infiltration. Higher proliferative activity was significantly related to deeper stomach wall infiltration and larger tumor diameter. The latter showed a significant relationship to EGF-R expression. Univariate analysis showed the significant variables for survival to be DNA ploidy, pT, pN, M, stage, histological type according to Lauren and tumor diameter. Multivariate analysis calculated on these significant variables using the Cox multiple stepwise regression model detected three factors which independently influence survival: pathological stage (p < 0.00001), histological type according to Lauren (p < 0.002) and DNA ploidy (p < 0.03).

CONCLUSIONS

DNA ploidy was shown to be a significant prognostic parameter in resected gastric cancer after pathological stage and histological type according to Lauren. The prognostic roles of proliferative activity and EGF-R status require further investigation.

EGF-R expression in ductal breast cancer: proliferation and prognostic implications

We studied epidermal growth factor receptor (EGF-R) expression in relation to steroid receptor status, flow cytometric DNA content and S-phase fraction (%S) in a selected case series of 129 ductal primary operable breast cancer to determine the possible role of EGF-R in prognosis assessment. EGF-R expression was positively related with proliferation activity, suggesting that EGF-R could be involved in the regulation of breast cancer cell growth. We found about 80% of highly proliferating DNA aneuploid tumors in the EGF-R positive category, while the EGF-R negative tumors showed a lower frequency of highly proliferating DNA aneuploid tumors (57%), confirming the important role of EGF-R in breast cancer aggressiveness and progression. No relationship between EGF-R expression and steroid receptor status was observed. To better understand how EGF-R and estrogen receptor (ER) operate together to stimulate breast cancer cell growth, we analyzed the %S in the two groups of ER negative (ER-) and ER positive (ER+) tumors, stratifying the patients on the basis of EGF-R tumor positivity. Here breast tumor proliferation activity seems mainly to be induced by the stimulus of EGF-R, the %S values of the EGF-R negative tumors in the ER- and ER+ groups being 6.1 and 6.9%, respectively. Instead, the median %S of EGF-R positive tumors was 10% in the ER- class and 14% in the ER+ group. The analysis of the percentages of 5-year patient disease free survival were 84% for patients with EGF-R negative tumors and 61% for patients with EGF-R positive lesions, respectively. The data reported here further show the crucial role of EGF-R in breast cancer cell growth and that the EGF-R overexpression is indicative of a poor prognosis.

nm23 influences proliferation and differentiation of PC12 cells in response to nerve growth factor

The nm23 genes codify nucleoside diphosphate kinases, which have been shown to be involved in the regulation of microtubule dynamics. We have demonstrated previously that the association between the Nm23-M1 protein and cytoskeletal beta-tubulin correlates with cell differentiation. It is known that microtubules and microtubule-associated proteins are fundamental elements regulating neuronal differentiation. In the present study, we have investigated the ability of nm23 to influence nerve growth factor-induced PC12 cell differentiation. To this end, we have altered PC12 intracellular levels of nm23-M1 by means of sense and antisense transfections. In the presence of nerve growth factor, overexpression of nm23 delays cell cycle transition, rapidly induces neurite outgrowth, and increases the expression of neurofilament and microtubule proteins. On the contrary, down-regulation of nm23 enhances cell proliferation and inhibits neuronal differentiation. These findings indicate that neuronal cell proliferation and differentiation can be modulated by nm23 expression levels.

Effect of cisplatin and c-myb antisense phosphorothioate oligodeoxynucleotides combination on a human colon carcinoma cell line in vitro and in vivo

We investigated the effect of c-myb antisense phosphorothioate oligodeoxynucleotides [(S)ODNs] and cisplatin (CDDP) combination on the human colon carcinoma cell line LoVo Dx both in vitro and in nude mice bearing LoVo Dx solid tumour. We show that antisense (S)ODN treatment decreases c-myb mRNA and protein expression, induces growth arrest in the G1 phase of the cell cycle, and inhibits cell proliferation. In vivo treatment with c-myb antisense (S)ODNs results in a reduction in tumour growth. A greater inhibition of cell proliferation in vitro and a higher increase of tumour growth inhibition and growth delay in vivo were obtained with the combination of (S)ODNs and CDDP than when the two agents were administered separately. This comparative study, using the same tumour cell line in vitro and in vivo, suggests that c-myb antisense (S)ODNs might be useful in the therapy of colon cancer in combination with antineoplastic drugs.

Antitumor effect of c-myc antisense phosphorothioate oligodeoxynucleotides on human melanoma cells in vitro and and in mice

BACKGROUND

Phosphorothioate oligodeoxynucleotides ([S]ODNs) contain a modified internucleoside phosphate backbone. Antisense [S]ODNs targeted to specific oncogenes have been used with some therapeutic success in animal models human leukemia; however, the potential for antisense [S]ODN treatment of solid tumors has only recently been explored.

PURPOSE

We evaluated the effects of antisense [S]ODNs targeted to the c-myc oncogene on the proliferation of human melanoma cells in vitro and on the growth of human melanoma xenografts in CD-1 nude (nu/nu) mice,

METHODS

The effects of 15-mer [S]ODNs containing c-myc sense, c-myc antisense, and two different scrambled sequences on the proliferation and viability of cultures of three established human melanoma cell lines (M14, JR8, and PLF2) were determined by measuring cell numbers and use of the trypan blue exclusion test. The induction of apoptosis in these cells following treatment with [S]ODNs was evaluated by fluorescence-activated cell sorter (FACS) analysis. FACS analysis was also used to determine the effects of [S]ODN treatment on the proliferation of primary cultures of a human melanoma explant (NG cells). The expression of c-Myc protein in cultured NG cells after treatment with [S]ODNs was examined by western blot analysis. The antitumor activity and the toxic effects of several [S]ODN treatment regimens were monitored by measuring differences in tumor weight (percent tumor weight inhibition), tumor growth rate (tumor growth inhibition), animal lifespan (percent increase in lifespan), the number of toxic deaths and the median number of long metastases in treated and control mice bearing NG xenografts. c-Myc protein expression in NG tumor cells following [S]ODN treatment was evaluated by FACS analysis, and the extent of apoptosis in these cells was determined by FACS analysis and morphologic examination.

RESULTS

Treatment with antisense [S]ODNs, but not the others, inhibited the growth of all tested melanoma cultures in vitro; FACS analysis revealed that growth inhibition was associated with the induction of apoptosis. Antisense [S]ODN treatment also led to reduced celluLar levels of c-Myc protein. In vivo, [S]ODN antitumor activity and toxicity were dose and schedule dependent; however, only antisense [S]ODNs exhibited antitumor activity. Mice bearing NG xenografts treated with antisense [S]ODNs showed a marked inhibition of tumor growth, a reduction in the number of long metastases, and an increase in life span. Reduced levels of c-Myc protein and increased levels of apoptosis were also observed in NG tumor cells following antisense [S]ODN treatment.

CONCLUSIONS

treatment of human melanoma cells and solid tumors with antisense [S]ODNs targeted to c-Myc inhibits their growth and is associated with the induction of apoptosis.

Adriamycin resistance modulation induced by lonidamine in human breast cancer cells

The effect of Lonidamine (LND), an energolytic chemosensitizing agent, on the MDR (multidrug resistant) phenotype of a human breast cancer cell line (MCF-7) has been studied. The intracellular adriamycin (ADR) accumulation and distribution, the plasma membrane potential and the P170 glycoprotein phosphorylation, have been analysed after LND treatment. The analysis of the subcellular localisation of ADR in both wild type and resistant MCF-7 cells treated with ADR or ADR + LND revealed that LND induced an ADR intracellular redistribution in both cell lines. MCF-7 ADR resistant cells exposed to LND (50 micrograms/ml) showed a change in the electrical charges distribution across the plasma membrane and a time-dependent reduction of P170 phosphorylation (70% at 24 hr). These effects were associated with a marked increase in intracellular ADR accumulation in resistant cells.

DNA ploidy, proliferative index, and epidermal growth factor receptor: expression and prognosis in patients with gastric cancers

BACKGROUND

The 5-year survival rate of patients with stomach cancer is usually around 20%. The clinico-pathological features that are presently used to assess patient prognosis are not sufficient to define gastric tumor behavior. Therefore, an accurate analysis of different biological characteristics of gastric cancer cells could allow the course of disease to be predicted and may help to improve treatment strategies.

EXPERIMENTAL DESIGN

The prognostic values of DNA ploidy, proliferative activity and epidermal growth factor receptor (EGF-R) expression were studied in gastric tumors from a series of 63 patients. DNA ploidy and proliferative activity, evaluated in terms of DNA index (DI) and proliferative index (PI), respectively, were determined by flow cytometry on paraffin-embedded tumor tissues. EGF-R expression was detected by immunohistochemistry on paraffin-embedded tumor sections of the same specimens. The clinico-pathological and the biological parameters were then correlated, and the patients overall survival was calculated using a chi-square test and the Kaplan-Meier method.

RESULTS

DNA ploidy abnormal cell clones were found in 44% of cases (median DI = 1.4, range 1.04-2.5). Aneuploid tumors showed high PI more frequently than diploids (71% versus 36%, p = 0.01). The analysis of the expression of EGF-R revealed that 88% of aneuploid tumors were positive for receptor expression. On the contrary, diploid tumors showed the presence of EGF-R only in 56% of cases (p = 0.01). DI, PI, and EGF-R expression were not related to histological grade. Conversely, the three biological parameters were significantly correlated to clinical stage and tumor invasion. The Kaplan-Meier survival curves showed a 73% 5-year survival rate in patients with diploid tumors whereas only 33% of patients with aneuploid lesions had a good prognosis (p = 0.001).

CONCLUSIONS

We demonstrate that DNA ploidy, PI, and EGF-R expression are closely related to some pathological and clinical characteristics in gastric cancer. The close relationship between aneuploidy, EGF-R positive expression, node involvement, and tumor invasion suggests that these parameters may be indicators of high malignancy. Finally, the results also show that aneuploidy and EGF-R-positive expression are indicative of a worse prognosis in gastric cancer patients. The study of these parameters might allow a more accurate stratification of patients, so that a targeted therapeutic protocol may be defined.

Gastric cancer cell DNA content correlates with early and late results after gastrectomy

The DNA content of 59 adenocarcinomas of the stomach in patients who had undergone subtotal or total gastrectomy more than 5 years before was measured. The DNA measurements were done by flow cytometry performed on Propidium Iodide--stained cells disaggregated from paraffin-embedded tissues. Fifty-nine evaluable good quality histograms of DNA ploidy patterns were obtained. The Proliferative Index (PI) was determined in 35 cases. The remaining 24 cases didn't show a reliable reading histograms. Of the 59 tumors, 33 (56%) were diploid and 26 (44%) were aneuploid; 19 showed a high PI (> or = 3.8%) and 16 a lower one. A statistically significant difference was found between the two groups (diploid/aneuploid and low/high PI) compared to the prognostic values known as T, N and Stage. 65% of the T3-T4 cancers, 54% of the N1-N2 lesions and 58% of the stage III and IV were found to be aneuploid. 73.7% of the 19 tumors presenting high PI, showed an aneuploid pattern. A high PI was found in 71.4% of the T3-T4 tumors. 77.4% of patients of the diploid group (any stage) survived at 5 years against 36% of those presenting aneuploid patterns. Patients with PI > or = 3.8% showed a 42.1% 5-year survival rate. A 94.4% 5-year survival rate of diploid and early stage cancers was documented against a 33.5% of aneuploid and advanced stage cancers.

N-methylformamide as a potential therapeutic approach in colon cancer

PURPOSE

The effect of N-methylformamide, used in combination with the antineoplastic drugs adriamycin and cisplatin, on the cell survival of a colon carcinoma cell line (HT-29) was investigated. To better understand the mechanism involved in N-methylformamide-mediated chemosensitization, we evaluated the N-methylformamide effect on cell volume and surface expression of some integrins molecules (VLA2, VLA5, and VLA6) of the HT-29 cell line.

METHODS

The cell survival was evaluated by clonogenic assay; integrins surface expression was analyzed by means of flow cytometry; cell volumes were determined using a Coulter Channalyzer.

RESULTS

A Noncytotoxic dose of N-methylformamide (170 mM) sensitizes the HT-29 cell line to the lethal activity of both adriamycin and cisplatin. The analysis of cell volume showed that N-methylformamide exposure induces an increase in cell volume. Flow cytometric analysis of VLA2, VLA5, and VLA6 receptors showed that N-methylformamide increases the expression of the three integrins by 30 to 40 percent.

CONCLUSION

The plasma membrane could constitute one of the N-methylformamide targets and might be involved in the differentiation and chemosensitizing effects caused by this agent. Moreover, N-methylformamide could improve colon cancer treatment when used in combination with antineoplastic drugs.

Biologic and clinical correlations among ploidy, cell kinetics, and the tumor-associated glycoprotein-72 tissue expression in colorectal cancer. Preliminary findings

PURPOSE

The aim of this study was to evaluate the possibility of identifying biologically aggressive subgroups of patients, combining several biologic parameters such as the tumor and normal mucosa values from the ploidy, the S-phase cell percentage, and tumor-associated glycoprotein-72 (TAG-72) expression.

METHODS

One hundred five colorectal cancer patients were studied to analyze the possible prognostic role of ploidy and cell kinetics in multiple fresh specimens from the tumor and normal mucosa. Since the presence of TAG-72 in the colonic mucosa has been correlated to neoplastic transformation, the correlations between these parameters and the quantitative tissue expression of the TAG-72 were analyzed in a subgroup of 53 cases.

RESULTS

A significantly lower five-year disease-free survival rate (21.4 percent) was observed in patients with multiploid tumors, when compared with that observed in patients with diploid or single aneuploid tumors (67.5 percent) (P = 0.03). The quantitative tissue TAG-72 expression contributed in identifying a particular patient subgroup (20 percent), characterized by S-phase percentage and TAG-72 values from the normal mucosa that were unexpectedly higher than 12.1 percent and 7.5 U/mg of proteins, respectively. In particular, when the 25 Dukes B patients were analyzed, similar results were observed. In fact, 14 (56 percent) cases showed high tumor cell proliferation and, surprisingly, a high tissue TAG-72 content in the normal mucosa was found in 4 (28.6 percent) of these patients.

CONCLUSIONS

Other than multiploidy, the biologic aggressiveness of colorectal cancer might be successfully assessed introducing the evaluation of new biologic parameters, such as the TAG-72 content and S-phase percentage values of the normal mucosa, suggesting the possibility of further stratifying this patient population.

Expression of beta 1, beta 3, beta 4, and beta 5 integrins by human lung carcinoma cells of different histotypes

Structural and functional analyses of several integrin heterodimers were performed in non-small-cell lung cancer (NSCLC) and small cell lung cancer (SCLC) cell lines. The expression of beta 1, beta 3, beta 4, and beta 5 heterodimers was evaluated at protein and mRNA levels. By flow cytometry and immunoprecipitation experiments we demonstrate that NSCLC cells (A549 adenocarcinoma and DG 3 large cell carcinoma) coexpress integrin heterodimers composed of beta 1, beta 3, beta 4, and beta 5 subunits, whereas SCLC cells (AE2 and H69) express only beta 1 integrin heterodimers. Northern blot experiments confirmed immunochemical analysis: SCLC cells in contrast to NSCLC cells express only the mRNA coding for the beta 1 subunit. These data indicate that in lung carcinoma cells the diversity in the integrin repertoire depends upon differential gene expression. The functionality of integrin receptors has been studied using antibody blocking experiments. Data reported demonstrate that the alpha 6 beta 1 integrin is a laminin receptor in either SCLC or NSCLC cells. An antibody to the beta 4 subunit partially inhibits the adhesion of adenocarcinoma cells to lamin but does not block lamin adhesion of large cell carcinoma cells, even though alpha 6 beta 4 complexes are expressed on both cell types. Two antisera to vitronectin receptors inhibit the adhesion of NSCLC cels to both vitronectin and fibronectin. The same antisera inhibit the adhesion of SCLC cells only to laminin, indicating that the alpha v beta 1 integrin might function in these cells as laminin receptor.

Methylation state of the human HLA-DRA gene in T-lymphocytes and B-lymphocytes of transgenic mice. Lack of methylation at one 5'-GCGC site is not required for gene expression

A consistent lack of DNA methylation at one or both of two GCGC (Hha I) restriction sites in the 5' region of the HLA-DRA gene has been previously documented by the use of methyl-sensitive restriction enzymes in human cells and tissues, irrespectively of their expression of DR alpha products. Evidence presently available, however, does not exclude that a lack of methylation in this region, although not sufficient, might be necessary for gene expression. In this report, we show that only one of the 5'-GCGC sites is protected, although less efficiently than in man, from CG-->mCG modifications in tissues and cells of transgenic mice carrying an expressed single copy of the HLA-DRA gene/diploid genome. We demonstrate that the two 5' GCGC sites of the HLA-DRA transgene are fully methylated in DR alpha- splenocytes (more than 80% T-lymphocytes), while one of them (the most 5' site) is not methylated in a fraction of DR alpha+ splenocytes (more than 95% B-lymphocytes). These results provide evidence that absence of DNA methylation in the 5' region is not necessary for, but might be associated with and possibly secondary to the expression of the DRA gene.

Flow cytometric analysis of ploidy in colorectal cancer: a multicentric experience

Ploidy and cell proliferation determined by flow cytometry were assessed on colorectal cancers from patients admitted to two Italian cancer research centres. A total of 181 patients were followed prospectively for 4 years at the Istituto Regina Elena (IRE) of Rome and at the Istituto Nazionale Tumori (INT) of Milan. Fresh (at the IRE) or frozen (at the INT) tumour material and similar procedures were used for subsequent sample preparation. Similar frequencies of aneuploid tumours (63% vs 66%) and superimposable median DNA indices (1.6) were observed for the two case series. In both series, DNA ploidy was generally unrelated to clinico-pathological factors, except for a higher frequency of aneuploid tumours in Dukes' D (88%) than in Dukes' A stage (33%) in the IRE experience. DNA ploidy was a weak prognostic indicator at 3 years but not at 4 years in the IRE case series, and it never exhibited a clinical relevance in the INT experience. Conversely, multiploidy was an indicator of worse relapse-free and overall survival at 4 years in the IRE and INT case series.

Flow cytometric analysis of DNA content and cell kinetics in colorectal carcinoma

DNA ploidy and cell proliferation were studied by means of flow cytometry in 98 patients with primary colorectal adenocarcinoma. Multiple samples of tumour burden were pooled and freshly dissociated immediately after surgery for FACS analysis. The relationships between ploidy, proliferative activity, evaluated in terms of S-phase percentages (%S), and some clinico-pathological variables were analyzed. 87 of the 98 tumors yielded evaluable DNA histograms: 32 were diploid (37%) and 55 were aneuploid (63%; median DNA index = 1.6). Multiple aneuploid cell populations were found in 15 tumors (17%). The % S was estimated by means of a mathematical model. Aneuploid tumors showed % S values significantly higher than diploid ones (p < 0.0001). Differences in the distribution of DNA aneuploidy were observed in relation to Dukes' stage and tumor site, left colon, rectum and stage D tumors being more frequently aneuploid. No significant differences in proliferative activity were observed in relation to most of the clinical variables, except for higher % S values observed in tumors of right colon compared to those of left colon and rectum.

Recombinant tumor necrosis factor for superficial bladder tumors

Twenty patients with histologically documented superficial bladder cancer (Ta, T1, Tis) were treated with intravesical administration of TNF 400-1800 micrograms. Of 18 patients with a marker lesion, 2 obtained a complete response for 8+ and 18 months. Two had a partial response and were given other intravesical therapies after 5 and 7 months. No or minimal systemic absorption of TNF was observed and documented in 4 of 20 patients by pharmacokinetic studies, and no patients developed antibodies to intravesically administered TNF. TNF was well tolerated in doses up to 1800 micrograms. No systemic or local side effects were observed. Modest activity was attained with intravesical TNF, even in pretreated patients.

Inhibition of leukemia cell proliferation by receptor-mediated uptake of c-myb antisense oligodeoxynucleotides

Exposure of human leukemia HL-60 cells to an oligodeoxynucleotide complementary to an 18-base sequence (codons 2-7) of c-myb-encoded mRNA has previously been shown to result in inhibition of cell proliferation. Because HL-60 cells express high levels of transferrin receptor we adapted a DNA delivery system based on receptor-mediated endocytosis to introduce myb oligomers complexed with a transferrin-polylysine conjugate into those cells. A DNA.RNA duplex resistant to S1 nuclease digestion was detected as early as 12 hr after culture of HL-60 cells in the presence of the myb antisense/transferrin-polylysine complex. Exposure of HL-60 cells to the myb antisense/transferrin-polylysine complex resulted in rapid and profound inhibition of proliferation and loss of cell viability much more pronounced than that occurring in cells exposed to free myb antisense oligodeoxynucleotides. The transferrin-polylysine/myb sense complex or the transferrin-polylysine conjugate alone had no effect on HL-60 cell proliferation and viability. These findings indicate that myb synthetic oligodeoxynucleotides enter efficiently into HL-60 by transferrin receptor-mediated endocytosis and exert a profound biological effect. Such a delivery system could exploit other ligand-receptor interactions for the selective delivery of oncogene-targeted antisense oligodeoxynucleotides.

N-methylformamide effects on cell proliferation and antigenic pattern in HT-29 colon carcinoma cell line

The effects of the differentiating agent N-methylformamide (NMF) on cell proliferation and antigenic pattern of HT-29 colon carcinoma cells have been investigated. The cell line was cultured in the presence, or absence, of 1% NMF and tested for the above mentioned characteristics, both in vitro and after injection into nude mice. The percentage of cells in the various cell cycle compartments was estimated by flow cytometry. The presentation on the cell surface of molecules such as tumour associated antigens (TAAs), HLA class I molecules and epidermal growth factor receptor (EGF-R) was analysed by ELISA, flow cytometry and immunohistochemistry. Results demonstrate that NMF impairs HT-29 cell proliferation with a remarkable accumulation in the G0/G1 phases, as well as inducing a modification of the membrane antigenic pattern. The presence of NMF in the culture medium decreases the TAAs and EGF-R whereas HLA antigen maintains the same level of positivity in the two cell lines. These alterations are consistent with a different behaviour in vivo of the tumours originated from NMF treated and untreated cells. Tumours derived from NMF treated cells show a delay in the appearance and low levels of immunodetectable carcinoembryonic antigen (CEA) molecules.

Antigenic expression changes occurring in adriamycin resistant MCF-7 mammary carcinoma cells

The antigenic phenotypic repertoire of MCF-7 human breast carcinoma cell line variants that display different sensitivity to adriamycin (Adr) was analyzed using monoclonal antibodies (MoAbs) recognizing five different tumor associated antigens (TAAs) and the external domain of the epidermal growth factor receptor (EGF-R). ELISA and cytofluorimetry determinations were used and results indicate a diminished expression of one antigenic determinant of the carcinoembryonic antigen (CEA) molecule, the disappearance of all the other TAAs and the de novo expression of the EGF-R in the MCF-7 AdrR (IC50/Adr:10 uM). Treatment with recombinant alfa-Interferon (alfa-IFN) did not enhance antigenic expression in MCF-7 AdrR cells.

Importance of cell cycle perturbations on the effectiveness of N-methylformamide and anti-neoplastic drugs in combination

The effect of N-methylformamide (NMF) in combination with Adriamycin (ADM) and cis-diamminedichloroplatinum (DDP) on the cell survival and cell cycle kinetics of two human tumour lines was assessed: HT29 colon carcinoma and M14 melanoma cells were exposed to ADM and DDP alone or in combination with a non-cytotoxic dose of NMF, according to different schedules. The results demonstrate that NMF exposure sensitized both tumour cell lines to the lethal activity of ADM and DDP; however, reverse sequences had to be applied to reach an increase in the lethal activity of the two different drugs. The ADM-NMF combination determined a powerful decrease in the surviving fraction of the two cell lines when ADM was given as the first agent (ADM----NMF), while the reverse sequence did not increase the ADM cytotoxic effect. With respect to the DDP-NMF association, the sequence which accounted for a greater sensitizing effect was NMF administration followed by DDP treatment (NMF----DDP). This work demonstrates the importance of timing in combined treatments which involve NMF. A delay in cell proliferation elicited by NMF exposure could be responsible for the effectiveness of the combined treatment.

Effect of recombinant human leukocyte, fibroblast, and immune interferons on expression of class I and II major histocompatibility complex and invariant chain in early passage human melanoma cells

Twenty-five early-passage (less than or equal to 8) melanoma cell lines, isolated from ten patients with metastatic melanoma, were analyzed by a combination of serological, immunochemical, and molecular methods for mRNA levels, synthesis, and surface expression of MHC class I and class II antigens prior to and following exposure to recombinant human leukocyte (IFN-alpha A), fibroblast (IFN-beta), and immune (IFN-gamma) interferon. All the cell lines expressed variable levels of HLA class I gene products that were up-regulated to different extents upon exposure to specific interferons (IFNs). HLA class II antigens were expressed in 22 of the 25 melanoma lines and IFN-gamma increased the levels of class II mRNA, protein synthesis, and surface expression in all cultures displaying baseline expression. A significant up-regulation of class II antigen expression by IFN-alpha or -beta, associated with higher levels of class II transcripts and enhanced synthesis, was found only in two early-passage human melanoma cell lines. In three lesions from the same patient which did not constitutively express class II antigens, no expression of these glycoproteins could be induced with any of the IFNs. These results indicate that IFN-gamma does not act as a de novo inducer of class II antigen expression in early-passage human melanoma cell lines. This hypothesis is further supported by analysis of class II-associated invariant chain (Ii) expression, which is expressed and induced by IFNs in a manner similar to that of class II antigens. The present study also indicates that early-passage metastatic melanoma lesions from the same patient are heterogeneous in their de novo expression of major histocompatibility antigens and in their modulation by IFNs.

Study of propidium iodide binding to DNA in intact cells by flow cytometry

We studied the in situ binding of propidium iodide to DNA in fixed human lymphocytes, using flow cytometry. Experimental data of fluorescence emission vs dye concentration and vs cell concentration were obtained. Data were interpreted by means of two different mathematical models specific for the staining reaction, and the binding parameters were obtained by "best-fitting" of the data. A model based on two classes of binding sites with different affinity constants gave the most satisfactory fitting. The accessibility of the in situ chromatin turned out to be reduced with respect to the non in situ accessibility for ethidium bromide as reported in the literature. The present study shows the usefulness of the flow-cytometric technique for probing DNA structure in intact cells.

Human glioma lines as experimental model for biological and chemosensitivity studies

The use of rodent tumor lines is no longer satisfactory for either biological and chemosensitivity studies because of their well demonstrated difference in behaviour when compared to human tumors. With the employment of human tumor cell lines, both in vitro and in vivo, in nude mice, it is now possible to utilize an extremely more reliable model system able to specifically evaluate many biological features of human tumors as well as their chemosensitivity. Particularly, glioma-derived human tumor lines which grow both in vitro and in nude mice, allowed to assess several parameters able to indicate new therapeutic strategies.