Microsatellite instability is not related to response to cisplatin-based chemotherapy in cervical cancer.

This study investigates whether microsatellite instability (MSI) due to defects of the mismatch repair (MMR) system could be associated with response to cisplatin-based neoadjuvant chemotherapy (NACT) and if cisplatin exposure could select MSI-positive cell clones in cervical cancer. Microsatellite analysis was performed by polymerase chain reactions using six microsatellite markers, while hMLH1 protein expression was investigated by immunohistochemistry. We found that 1 tumor out of 20 (5%) NACT-responding patients and 1 tumor out of 18 (6%) nonresponding patients showed MSI. The analysis of tumor specimens collected after NACT revealed no change in the banding pattern as compared to each corresponding pre-NACT tumor at each locus tested. hMLH1 staining was observed in at least > or =80% of cells in all tumors examined except the two exhibiting MSI. Our data showed that MSI due to defects of the MMR system seems not to play a crucial role in the biology of human cervical cancer cells and that MSI seems not to be related to response to chemotherapy. Moreover, cisplatin exposure did not seem to select for MMR-deficient tumor clones in cervical cancer.

Epidermal growth factor-responsive laryngeal squamous cancer cell line Hep2 is more sensitive than unresponsive CO-K3 one to quercetin and tamoxifen apoptotic effects.

Epidermal growth factor receptor (EGFR) plays a role in laryngeal squamous cell carcinoma (SCC) development and progression. The flavonoid quercetin (Q) and the antiestrogen tamoxifen (TAM) inhibit proliferation of both primary laryngeal SCC and laryngeal carcinoma cell lines, through still uncharacterized mechanisms. We studied Q and TAM inhibitory effect on epidermal growth factor (EGF)-stimulated Hep2 and CO-K3 laryngeal squamous cell lines. Q and TAM (0.1-1.0 microM) induced more apoptosis in EGF growth-stimulated than in unstimulated Hep2 cells. EGF neither stimulated CO-K3 cell growth nor enhanced Q and TAM-induced apoptosis. Mitogen-activated protein kinase (MAPK) analysis revealed that in Hep2 cells, but not in CO-K3 cells, EGF induced a time-dependent phosphorylation of p42, p44, p38, and p46. In Hep2 cells, but not in CO-K3 cells, Q and TAM produced, upon EGF treatment, a twofold increase of p38 and p46 and an enhancement of p42 and p44 dephosphorylation, suggesting a requirement of EGFR. The enhancing effect was due to a p38 and p46 dephosphorylation delayed kinetics. An antiphosphorylated p38 antibody prevented Q and TAM inhibitory effect on p42 and p44 phosphorylations, suggesting that the EGF-dependent increase in Q and TAM apoptotic effect on Hep2 cells could depend on the p38 inhibition of the survival kinases p42 and p44. In SCC, EGFR overexpression is an early event from dysplasia to neoplasia. We conclude that the capacity of Q and TAM to increase apoptosis in EGFR-activated cells makes these compounds possible chemopreventive drugs in subjects at risk of developing laryngeal cancer.

Antitumour activity of the silybin-phosphatidylcholine complex, IdB 1016, against human ovarian cancer.

This study aimed to assess, in an in vivo experimental model, the growth inhibitory effects of IdB 1016 (Silipide, a complex of silybin/phosphatidylcholine) when used as a single agent against human ovarian cancer. We also wanted to investigate the mechanism of the antiangiogenic action by assessing Vascular Endothelial Growth Factor (VEGF) levels and by using macroarray technology to evaluate the regulation of a panel of genes involved in angiogenesis. We also aimed to establish the plasma and tumour bioavailability of silybin after repeated administration of IdB 1016. Female nude mice bearing human ovarian cancer xenografts (A2780) received 450 mg/kg/day IdB 1016 daily by oral gavage until the end of the study. At sacrifice, blood and tumour specimens were collected and subsequently processed for the determination of silybin levels, VEGF levels or a gene expression profile. IdB 1016 was significantly active in inhibiting ovarian tumour growth. Treatment with 450 mg/kg/day for a total of 20 administrations produced a tumour weight inhibition (TWI%) of 78% and a Log10 Cell Kill (LCK) of 1.1. Free silybin levels were found to be 7.0+/-5.3 microg/ml and 183.5+/-85.9 ng/g tissue (mean+/-standard deviation (S.D.)) in the plasma and tumour samples, respectively. No significant differences were found in the concentration of human VEGF in xenografts from control and IdB 1016-treated mice. The array analysis suggested the downregulation of the VEGR receptor 3 and the upregulation of angiopoietin-2 as potential mechanisms for the antiangiogenic activity. In conclusion, these findings suggest IdB 1016 is a good candidate, with a relevant clinical potential, for use in the management of recurrent ovarian cancer. A phase II, non-randomised clinical study is now ongoing in our Institute aimed at evaluating the efficacy of daily administrations of IdB 1016 in the serological recurrence of ovarian cancer.

Microsatellite instability is an independent indicator of recurrence in sporadic stage I-II endometrial adenocarcinoma.

PURPOSE: The aim of this study was to define the prognostic role of microsatellite status in 65 stage I-II primary sporadic endometrioid endometrial adenocarcinoma (EEA) patients. PATIENTS AND METHODS: Familiarity for neoplasia was ascertained in all patients on the basis of a questionnaire. Microsatellite status was assessed by matching normal and tumoral DNA probed for five dinucleotide repeats and one mononucleotide repeat marker. Microsatellite status was analyzed in relation to clinicopathologic characteristics of the patients and length of disease-free survival (DFS). RESULTS: Eleven tumors (17%) of 65 had instability at two or more loci and were considered as unstable or microsatellite instability (MI). Tumors with no instability or instability at one locus were classified as microsatellite stable (MS). The percentage of MI was significantly higher in poorly than in well to moderately differentiated tumors (50% v 9%; P =.003). The 5-year DFS rate of MI patients was 63% (95% confidence interval [CI], 35% to 91%) versus 96% (95% CI, 91% to 101%) of MS patients (P =.0004). In multivariate analysis, only the presence of MI, stage II of disease, and depth of myometrial invasion greater than 50% retained independent prognostic roles. CONCLUSION: The assessment of microsatellite status may provide useful information for preoperative prognostic characterization of stage I-II primary sporadic EEA patients in which more individualized treatment options can be attempted.

Activity of cisplatin and ICI 182,780 on estrogen receptor negative ovarian cancer cells: cell cycle and cell replication rate perturbation, chromatin texture alteration and apoptosis induction.

The activity of cisplatin (CP, range of concentrations 0.25-1 microg/ml), the pure steroidal antiestrogen compound ICI 182,780 (range of concentrations, 0.01-10 microM) and various combinations of, was investigated on an estrogen receptor negative ovarian cancer cell line (A2780 WT) and its CP-resistant derivative subline (A2780 CP3). CP markedly reduced A2780 WT cell growth but marginally affected A2780 CP3, whereas ICI 182,780 was effective on both cell lines. CP but not ICI 182,780 provoked a significant blockade in late S/G(2) phase in both cell lines, particularly in the parental line. Measuring the number of rounds of cell replications showed that CP diminished the cell replication rate of both cell lines, particularly in A2780 WT. Conversely, ICI 182,780 reduced the cell replication rate of A2780 CP3 but not A2780 WT cells. Both drugs provoked apoptosis in A2780 WT cells, as assessed by the appearance of large (50-300 kbp) DNA fragmentation. However, laser scanning cytometry showed that only CP induced a measurable alteration of chromatin texture in A2780 WT but not in A2780 CP3 cells. The combination CP and ICI 182,780 resulted in a synergistic inhibitory activity of cell growth with a CP potentiation up to 4 and 11-fold in A2780 WT and A2780 CP3 cells, respectively. This reflected an enhanced reduction of the cell replication rate and did not involve perturbations of the cell cycle other than those provoked by CP alone. Apoptosis induction and the level of CP-DNA adducts were not influenced by adding ICI 182,780 to CP in both cell lines.

hMSH2 and GTBP expression in advanced stage epithelial ovarian cancer.

Defects in DNA mismatch repair have been associated with both hereditary and sporadic forms of human cancer. Most of the attention has been focused on the incidence and genetics of mismatch repair defects, while little is known about the expression levels of the mismatch repair proteins and their significance in cancer cell biology. In this study, both the expression levels of hMSH2 and GTBP proteins were investigated by Western blotting in 20 untreated epithelial ovarian cancers. For these analyses, a commercial anti-hMSH2 monoclonal antibody and a newly generated mouse monoclonal anti-GTBP antibody were used. hMSH2 and GTBP proteins were detected by Western blotting in 19 out of 20 (95%) samples analysed and were found to be directly correlated (r= +0.51, P = 0.025). hMSH2 expression was significantly higher in ovarian cancer cells originating from solid tumours than from ascites (H = 4.5, P = 0.033), whereas GTBP content did not significantly differ according to the origin of cancer cells. No statistically significant differences were found in the distribution of hMSH2 and GTBP levels according to the age of the patients, grade of differentiation, histotype and extent of surgical debulking. The amount of hMSH2 protein was demonstrated to be significantly lower in stage IV than in stage III patients (H = 7.35, P = 0.007). Moreover, significantly lower hMSH2 levels were observed in non-responding patients compared to patients who achieved complete or partial response to cisplatin-based chemotherapy (H = 4.88, P = 0.027). Conversely, GTBP levels were not distributed differently according to stage of disease and chemotherapy response. Our study suggests a possible involvement of hMSH2 in ovarian cancer cell biology and susceptibility to chemotherapy. The possible biological and/or clinical role of GTBP expression in ovarian cancer patients remains to be elucidated.

Comparative study on the induction of cytostasis and apoptosis by ICI 182,780 and tamoxifen in an estrogen receptor-negative ovarian cancer cell line.

We have compared the effects of a broad range of clinically relevant concentrations (0.1 to 10 microM) of the steroidal pure anti-estrogen ICI 182,780 and the non-steroidal partial anti-estrogen tamoxifen (TAM) on cell proliferation and induction of apoptosis in the estrogen receptor (ER)-negative ovarian carcinoma cell line A2780. Cell proliferation was assessed by evaluating the number of viable cells, changes in cell-cycle distribution and cell replication rate; while apoptosis induction was assessed by examining nuclear morphological changes associated with apoptotic death and DNA cleavage into 300 and 50 kbp units (large DNA fragmentation) and into 180 bp units (internucleosomal DNA fragmentation). We provide evidence that 0.1 to 10 microM ICI 182,780 and TAM significantly inhibit the growth of A2780 cells in a dose-dependent fashion. Cytokinetic analysis revealed that only 10 microM TAM caused a significant blockade in G1 and a diminished replication rate. Conversely, we show that 0.1 to 10 microM ICI 182,780 and TAM induce apoptosis in a dose-dependent fashion. The earliest recognizable apoptotic change induced by treating the cells with these 2 drugs was DNA cleavage into 300 and 50 kbp units. This started to be visible in adherent cells, implying that apoptosis induction by ICI 182,780 and TAM was not determined by the loss of cell-substrate interaction. A further degradation of 300 and 50 kbp DNA fragments occurred in cells that had lost their adhesion to the culture plate. We observed the ladder pattern typical of internucleosomal DNA cleavage by treating A2780 cells with the highest dose (10 microM) of ICI 182,780 and TAM. Lower concentrations of these 2 drugs (0.1 to 1 microM) did not produce such a pattern of DNA fragmentation. Typical features of apoptotic nuclei were detectable after both drug treatments. However, cells undergoing apoptosis induced by ICI 182,780 showed hyper-aggregation of chromatin, whereas TAM-treated cells preferentially exhibited chromatin clumping.

Two pathways for base excision repair in mammalian cells.

Abasic sites (apurinic/apyrimidinic, AP sites) are the most common DNA lesions generated by both spontaneous and induced base loss. In a previous study we have shown that circular plasmid molecules containing multiple AP sites are efficiently repaired by Chinese hamster extracts in an in vitro repair assay. An average patch size of 6.6 nucleotides for a single AP site was calculated. To define the exact repair patch, a circular DNA duplex with a single AP site was constructed. The repair synthesis carried out by hamster and human cell extracts was characterized by restriction endonuclease analysis of the area containing the lesion. The results indicate that, besides the repair events involving the incorporation of a single nucleotide at the lesion site, repair synthesis occurred also 3' to the AP site and involved a repair patch of approximately 7 nucleotides. This alternative repair pathway was completely inhibited by the presence in the repair reaction of a polyclonal antibody raised against human proliferating cell nuclear antigen. These data give the first evidence that mammalian cell extracts repair natural AP sites by two distinct pathways: a single nucleotide gap filling reaction targeted at the AP site and a proliferating cell nuclear antigen-dependent pathway that removes a short oligonucleotide containing the abasic site and 3'-flanking nucleotides.

Analysis of DNA alkylation damage and repair in mammalian cells by the comet assay.

The single cell gel electrophoresis (SCGE) or comet assay, which measures DNA strand breaks in individual cells, was used to analyse DNA damage and repair induced by the SN1-type alkylating carcinogens N-ethyl-N'-nitro-N-nitrosoguanidine and N-ethyl-N-nitrosourea in CHO cells. The comet assay was comparable in sensitivity to the alkaline elution assay. The alkyl-adducts detected as DNA single-strand breaks (ssb) by this technique were completely repaired within 24 h after treatment. These data indicate that long-lived lesions, such as alkylphosphotriesters, are not converted into ssb under the standard SCGE alkaline conditions (pH 13.5). The lesions revealed by the comet assay are mainly apurinic/apyrimidinic (AP) sites and breaks formed as intermediates in the base excision repair process of N-alkylpurines. When SCGE was performed at pH 12.5 instead of pH 13.5 a lower level of ssb was detected and these breaks were completely resealed within 2 h after treatment. These data suggest that different subsets of lesions are detected under different pH conditions. The SCGE combined with inclusion within the cells of endonuclease III revealed that a high portion of AP sites induced by alkylation damage were not converted into ssb by alkali. The level of endonuclease III-sensitive sites decreased as a function of the repair time and by 24 h after treatment no sites were left on the DNA. The use of this modified SCGE assay allows the estimation of the total amount of unrepaired AP sites present on DNA. Alkylation-induced ssb as detected by the comet assay should be regarded as an indicator of repair rate and balance more than a measure of actual DNA damage.