Characterization of Lymphocyte Subpopulations and T Cell Activation In Endometriosis
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Abstract
PROBLEM: Numerous studies have characterized the lymphocyte subpopulations in normal eutopic endometrium and suggested a role for the cytokine secretory products of these lymphocytes in regulating endometrial cell proliferation and differentiation. Recent studies have shown that ectopic endometrium contains a greater concentration of scattered stromal lymphocytes than does eutopic endometrium. However, the lymphocyte subpopulations and their activation status have not been characterized in ectopic endometrium. METHODS: We performed immunohistochemical studies on serial sections of proliferative and secretory phase eutopic endometrium and ectopic endometrium obtained during the proliferative phase using monoclonal antibodies to CD4 (T helper-inducer cells), CD8 (T cytolytic-suppressor cells), CD22 (B-cells), CD56 (natural killer cells), and VLA-1 (T-cell activation marker). RESULTS: Ectopic endometrium contained significantly more scattered stromal CD4, CD8, and activated T cells than did proliferative and secretory eutopic endometrium. There were more activated T-cells in proliferative than in secretory eutopic endometrium. Ectopic endometrium contained significantly fewer NK cells than proliferative and secretory endometrium. CONCLUSIONS: These results demonstrate that (1) the increased lymphocyte population in ectopic endometrium is due to increased numbers of CD4 and CD8 cells, and (2) a greater number of activated T cells are present in ectopic endometrium as compared to eutopic endometrium. Increased concentration of stromal T cells and enhanced VLA-1 expression in ectopic endometrium suggest that cytokine products of the activated T-cells may be involved in regulating cellular processes of endometriosis tissue.
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References (23)
- Enhanced Expression of Resident Leukocyte Interferon γ mRNA in Endometriosis via openalex
- Uterus and endometrium: Inhibition of human endometrial stromal cell proliferation by interleukin 6 via openalex
- W141728048 via openalex
- W143665051 via openalex
- W319991354 via openalex
- W1534544965 via openalex
- W1578720218 via openalex
- W1983060912 via openalex
- W1994731573 via openalex
- W2001875963 via openalex
- W2069065297 via openalex
- W2079816176 via openalex
- W2079991063 via openalex
- W2093047683 via openalex
- W2132995754 via openalex
- W2135121318 via openalex
- W2170161832 via openalex
- W2308174658 via openalex
- W2346080566 via openalex
- W2409202770 via openalex
- W72148895 via openalex
- W2417327597 via openalex
- W104614849 via openalex
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