[Prediction of a non-small cell lung cancer sensitivity to cisplatin and paclitaxel based on the marker genes expression].

The goal of the present study was to define gene expression signatures that predict a chemosensitivity of non-small cell lung cancer (NSCLC) to cisplatin and paclitaxel. To generate set of candidate genes likely to be predictive a current knowledge of the pathways involved in resistance and sensitivity to individual drugs was used. Forty four genes coding proteins belonging to following categories: ATP-dependent transport proteins, detoxification system proteins, reparation system proteins, tubulin and proteins responsible for its synthesis, cell cycle and apoptosis proteins were considered. Eight NSCLC cell lines (A549, Calul, H1299, H322, H358, H460, H292, and H23) were used in our study. For each NSCLC cell line a cisplatin and paclitaxel chemosensitivity as well as an expression level of 44 candidate genes were evaluated. To develop a chemosensitivity prediction model based on selected genes expression level a multiple regression analysis was performed. The model based on the expression level of 11 genes (TUBB3, TXR1, MRP5, MSH2, ERCC1, STMN, SMAC, FOLR1, PTPN14, HSPA2, GSTP1) allowed us to predict the paclitaxel cytotoxic concentration with high level of correlation (r = 0.91, p < 0.01). However, none model developed was able to reliably predict a sensitivity of the NSCLC cells to cisplatin.

[Cloning cDNA for the ha-SDGF gene from a Syrian hamster cell line with increased metastatic potential using subtractive hybridization]. / Klonirovanie s pomoshch'iu vychitaiushchei gibridizatsii kDNK gena ha-SDGF iz linii kletok siriiskogo khomiachka s povyshennym potentsialom metastazirovaniia.

Using subtractive hybridization, a cDNA library containing over 50% of clones specific for a highly metastatic cell line was obtained from two hamster embryo fibroblast lines with different metastatic potentials. Most of the clones (83%) contained new sequences. One clone contained the ha-SDGF gene cDNA homologous to SDGF cDNA from rodents. The level of ha-SDGF mRNA expression was considerably higher in the highly metastatic cell line.

Modulation of pp60v-src and pp60c-src expression in Rous sarcoma virus-transformed hamster fibroblasts transfected with activated N-ras.

Three phenotypically different hamster cell lines transformed with Rous sarcoma virus (RSV) were transfected with plasmid DNA containing an activated N-ras oncogene, and nine clones expressing various levels of p21N-ras were characterized. We examined the effects of p21N-ras on expression and kinase activity of resident src proteins by using a variety of assays that allowed us to discriminate between viral and cellular src proteins. In eight clones with a 10- to 20-fold increase in p21N-ras levels relative to the endogenous protein, we observed a marked reduction in the synthesis and kinase activity of p60v-src. This decrease correlated with transcriptional downregulation of RSV genomic and v-src subgenomic mRNAs. In the same cells, we found a concomitant accumulation of p60c-src and, accordingly, an increase in its protein kinase activity without an apparent increase in c-src mRNA levels. Therefore, modulation of viral and cellular src proteins in cells overexpressing p21N-ras appeared to result from two distinct effects: a downregulation of long terminal repeat-driven transcription and a more complex interaction with cellular effectors that control the stability of p60c-src. Such modulation also seemed to depend on the levels of p21N-ras and, possibly, on host-cell factors, since it was not observed in the third cell line, in which the relative increase in p21N-ras was only 2.5-fold to fivefold.