The human HSPA2 gene, which belongs to the HSP70 family of heat shock genes, is a counterpart of rodent testis-specific HspA2 gene. Rodent genes are expressed mainly in pachytene spermatocytes, while transcripts of human HSPA2 gene have been detected in various normal somatic tissues, albeit translation of the messenger RNA into corresponding protein has not been yet unambiguously demonstrated, except for several cancer cell lines. The aim of our work, a first step in search for HspA2 function in cancer cells, was to establish its intracellular localization at physiological temperature and during heat shock. First, we used qRT-PCR and a highly specific antibody to select cell lines with the highest expression of the HspA2 protein, which turned out to be A549 and NCI-H1299 lines originating from non-small cell lung carcinoma (NSCLC). Significant expression of the HspA2 was also detected by immunohistochemistry in primary NSCLC specimens. Intracellular localization of the HspA2 was studied using both the specific anti-HspA2 polyclonal antibody and transfection of cells with fusion proteins HspA2-EGFP and mRFP-HspA2. We found that, at physiological temperature, the HspA2 was localized primarily in cytoplasm whereas, during heat shock, localization shifted to nucleus and nucleoli. Moreover, we demonstrate that in heat-shocked cells HspA2 accumulated in centrosomes. Our results suggest that the HspA2, like Hsp70 protein, can be involved in protecting nucleoli and centrosomes integrity in cancer cells subjected to heat shock and, possibly, other cellular stressors.
Background: Discovery of the significant impact of filaggrin (FLG) mutations on the genetic predisposition to atopic dermatitis (AD) focused attention on the 1q21 locus, where not only FLG but also other epidermal genes are located. In the present study, we compared 1q21 gene expression in lesional versus nonlesional AD skin. Methods: A real-time quantitative PCR analysis of 10 1q21 genes, selected on the basis of a previous microarray study, was performed in skin biopsies from 33 individuals with AD. Three alternative pathway keratins were also evaluated. Results: In chronic AD skin lesions, we observed an increase in RNA encoding involucrin, S100 calcium-binding proteins A2 and A7–A9 and small proline-rich region (SPRR) proteins 1A and 2C, with fold changes ranging from 2.0 for S100A2 to 15.4 for S100A8 (p < 0.001, Bonferroni corrected), in parallel to the overexpression of the alternative pathway keratins 6A, 6B and 16. The loricrin (LOR) expression level was significantly decreased in lesional AD skin (fold change 0.5; p < 0.01). The expression of the majority of 1q21 genes and alternative keratins was closely correlated; however, for SPRR1A (and SPRR2C) in lesional skin, the correlation with other genes was lost. Conclusions: We hypothesize that the deregulated increase in SPRR1A expression in chronic atopic skin lesions reflects an insufficient rise in SPRR transcripts, unable to compensate for the lack of LOR and thus contributing to the persistence of chronic AD skin lesions. Turning off the stress response in the skin may be regarded as a goal in the treatment of AD skin lesions, and SPRR genes might be targets for such an approach.
Our results stress the importance of complex gene interactions in the multigene predisposition to GD. The interactions between two predisposing loci, DRB1 and CTLA-4, are exerted rather by DRB1*07 than DRB1*03 allele: CTLA-4 acts via switching off the protective DRB1*07 influence, whereas the effect of DRB1*03 is independent.
e14159 Background: Chemotherapy is the mainstay of treatment patients with metastatic colorectal cancer. The choice of first-line treatment is difficult, especially when cost-effectiveness is the primary constraint. Thus, the optimal use of the clinical and biological factors influencing prognosis would be beneficial. The aim of our study was to identify factors affecting the time to progression (TTP) after first-line FOLFOX chemotherapy in palliative setting. Methods: The study is a retrospective analysis of the series of consecutive patients from large cancer center in south of Poland. The analysis was carried out in the group of 180 patients (37.2% of women), treated between 2007-2010 by FOLFOX-4 regimen and followed-up with the median time of observation 16.3 month. Patients received chemotherapy with median time of 5.0 months, median 10 cycles. Progression was defined as PD by RECIST criteria, death due to disease or sympomatic deterioration. 94 paraffin blocks were available for KRAS testing and gene expression analysis by real-time PCR. Results: The median TTP (counted from beginning of chemotherapy) was 8.6 month, the median TTP from the end of treatment was 3.4 month. We tested the wide range of clinical variables associated with both disease and and patient status by multivariate Cox regression analysis. Two most potent independent negative predictors were identified: the presence of massive lymph node involvement as assessed in CT scan before palliative treatment (>10 nodes enlarged) – hazard ratio 2.82, p<0.001; and tumor grade in histopathological assessment (grade 3 vs. grade 1-2) – hazard ratio 2.76, p=0.003. KRAS status was not prognostic for the TTP; Ki67 gene expression measurement by quantitative RT-PCR did not predict better that the routine assessment of grade. Patients with either grade 3 or lymph node involvement showed significantly shorter TTP (median 5.7 months vs 9.7 months in patients with none of these factors). Conclusions: High tumor grade and the massive involvement of lymph nodes worsen prognosis and shorten time to progression in patients treated with first line palliative FOLFOX chemotherapy.
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