Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0024312 (lymphopenia)
 4,859 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Different types of lymphocytes have different roles in tumor suppression. Thus, their expression of apoptosis-related proteins (ARP - Fas and Fas ligand, bcl-2, p53) in lymphocytes and their apoptosis were analyzed immunohistochemically in ovarian tumors of different grades. Ovaries without oncologic disorders had few lymphocytes, mainly T cells, and no ARP. Benign cysts presented features of weak immune reaction: small lymphoid infiltration and few lymphocytes. The ARP were present in 13.7% to 23.5% of the lymphocytes, and apoptosis was rare. In borderline tumors, expansion of lymphoid infiltrates and increased density of lymphocytes resulted in a tenfold rise in total lymphocytes, reflecting intensification of the immune response. Most lymphocytes were T cells (92%) predominated by CD8+ cells that were in direct contact with tumor epithelial cells. ARP species were found in 47% to 65% of the lymphocytes, and apoptosis in 2.2%. In carcinomas with ligh lymphoid infiltration, lymphocytes were 2.5 times more abundant, and the apoptotic index as well as the number of CD20+ and CD25+ lymphocytes rose sharply, whereas bcl-2 positive lymphocytes decreased to 8% of their number in borderline tumors. In carcinomas with low lymphoid infiltration, the total lymphocyte count decreased eightfold compared to carcinomas with high lymphoid infiltration, reflecting the deep subcompensation of the lymphoid system. Few p53-positive lymphocytes were found in the carcinomas. In conclusion, we found a positive correlation between apoptosis and the numbers of CD4+ or CD8+ lymphocytes in epithelial ovarian tumors. This correlation could reflect the antitumor activity of T cells. However, the high expression of ARP studied by immune cells at the vicinity of the tumor ARP reveals the lymphoid vulnerability to apoptosis, resulting in devastation of the lymphoid tissue, and consequently in tumor progression.
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PMID:Apoptosis and apoptosis-related proteins (Fas, Fas ligand, Blc-2, p53) in lymphoid elements of human ovarian tumors. 1072 19

The aim of this study was to evaluate the possible role of apoptosis-related proteins (ARP: Fas and Fas ligand, bcl-2, p53) in the progress of tumorigenesis in breast cancer. Epithelial tumor cells and lymphocytes were analyzed immunohistochemically for the rate of lymphoid infiltration and presence of ARP in 50 human breast tumors of different types. The tumors included: i) fibrocystic disease (n=12); ii) benign fibroadenoma (n=11); iii) carcinoma in situ (n=8); iv) invasive ductal carcinoma with high lymphoid infiltration (n=12); and v) invasive ductal carcinoma with lymphoid depletion (n=7). Both fibrocystic disease and fibroadenomas had low amounts of lymphocytes and very little lymphoid infiltration. In cancer in situ, expansion of lymphoid infiltrates and increased density of lymphocytes resulted in a rise in the total number of lymphocytes, reflecting intensification of the immune response. In carcinomas with high lymphoid infiltration, a significant increase in the number of Fas and FasL and p53-positive cells was found. The number of bcl-2-positive tumor cells in these tumors was not changed, whereas the number of bcl-2-positive lymphocytes decreased. In carcinomas with lymphoid depletion, the opposite picture was found as a result of deep subcompensation of the lymph system. ARP are present in a significantly higher number of lymphocytes than of the epithelial tumor cells. This indicates that the cells initiating apoptosis in tumors are themselves damaged by the process. The intense apoptosis in lymphocytes in malignant tumors may be one of the reasons for the progress of breast tumors.
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PMID:Apoptosis-related proteins (Fas, Fas ligand, bcl-2 and p53) in different types of human breast tumors. 1216 58