The aim of this study was to identify new protein markers of the intestinal and diffuse type gastric adenocarcinoma and to determine their relation to local relapses and distant metastasis. Using two-dimensional gel electrophoresis, we searched for proteins that are overexpressed in the intestinal and/or diffuse type gastric adenocarcinoma, as compared to matched normal mucosa samples with further change confirmation by Western blot. Expression of the selected proteins was further assessed by immunohistocemistry in a large panel of gastric adenocarcinoma with various clinicopathological features. Expression level of cyclophilin A measured with western blot appeared to be increased on average ten times in 63 % of gastric adenocarcinoma vs. paired samples of normal mucosa. The frequency of immunihistochemistry detected cyclophilin A protein expression was found to be equal in tumor of both histotypes, but staining intensity was higher in intestinal versus diffuse types of gastric adenocarcinoma. cyclophilin A protein expression appeared to be lower in deeply invading glandular and cribriform structures of intestinal tumors, as well as in discretely placed groups of the intestinal tumor cells. Local relapses as well as distant metastases registered within 3 year follow up were observed to occur much less frequently in patients with positive cyclophilin A immunostaining in gastric tumors. Analysis of cyclophilin A expression has a potential value for prognosis of gastric adenocarcinoma recurrence and distant metastasis.
Transmembrane prostate androgen-induced protein 1 (TMEPAI) is a single-span membrane protein, functionally involved in transforming growth factor beta signaling pathway. The particular protein presented in cells in three isoforms, which differs in the length of the soluble N-terminal extracellular domain, making it challenging for the immunochemical recognition. By using quantitative real-time polymerase chain reaction, we identified significant upregulation of PMEPA1 gene expression in malignant tissues of patients with gastric adenocarcinoma. The main part of commercially available anti-TMEPAI antibodies are having polyclonal nature or not suitable for immunocytochemical localization of target protein in tissue specimens. Hence, we decide to generate a set of novel rat monoclonal antibodies (mAb) directed against conservative C-terminal cytoplasmic epitope. Immunoblotting analysis showed that monoclonal antibodies, 2E1, 6C6, and 10A7 were able to recognize specifically target protein in transiently transfected HEK293T and CHO-K1 cells. Especially established mAb, named 10A7, showed the excellent binding ability to target protein in immunohistochemistry. By using developed antibodies, we observed pronounced expression of TMEPAI in normal gastric epithelial cells while tumor cells from gastric adenomas, and adenocarcinoma samples were mostly negative for target protein expression. Also, we found that gastric epithelium cells lose the TMEPAI expression concurrently with severe dysplasia progression, which probably caused by a mechanism involving specific microRNA.
Circulating tumor cells and hybrid cells formed by the fusion of tumor cells with normal cells are leading players in metastasis andhave prognostic relevance. This study applies single-cell RNA sequencing to profile CD45-negative and CD45-positive circulating epithelial cells (CECs) in nonmetastatic breast cancer patients. CECs are represented by transcriptionally-distinct populations that include both aneuploid and diploid cells. CD45 − CECs are predominantly aneuploid, but one population contained more diploid than aneuploid cells. CD45 + CECs mostly diploid: only two populations have aneuploid cells. Diploid CD45 + CECs annotated as different immune cells, surprisingly harbored many copy number aberrations, and positively correlated to tumor grade. It is noteworthy that cancer-associated signaling pathways areabundant only in one aneuploid CD45 − CEC population, which may represent an aggressive subset of circulating tumor cells. Thus, CD45 − and CD45 + CECs are highly heterogeneous in breast cancer patients and include aneuploid cells, which are most likely circulating tumor and hybrid cells, respectively, and diploid cells. DNA ploidy analysis can be an effective instrument for identifying tumor and hybrid cells among CECs. Further follow-up study is needed to determine which subsets of circulating tumor and hybrid cells contribute to breast cancer metastasis.
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