Open AccessJournal Article
Immunosuppression by seminal prostaglandins.
TLDR
Studies with fractions obtained by ion-exchange HPLC of desalted seminal plasma indicated that prostaglandins complexed with seminal proteins, and these too were immunosuppressive.Abstract:
In this paper we report studies undertaken to determine the contribution of seminal prostaglandins to some of the known immunosuppressive properties of human seminal plasma. Initial studies revealed that fractions of seminal plasma enriched in E series prostaglandins, obtained by reverse phase chromatography, had a pronounced inhibitory effect on the PHA-induced proliferation of peripheral blood lymphocytes and on the NK-cell-mediated lysis of K562 target cells. Additional investigations revealed that similar inhibitory effects could be achieved with purified PGE2 (10(-6) to 10(-9) M) and 19-OH PGE1 (10(-6) to 10(-7) M), both of which are present in uniquely high concentrations in human seminal plasma. In contrast, 19-OH PGF1 which is found in lower concentrations in semen was slightly stimulatory in proliferative assays and had no effect on NK-cell-mediated cytotoxicity. Removal of the seminal prostaglandins by absorption chromatography resulted in a dramatic decrease in immune suppressive activity. Further studies with fractions obtained by ion-exchange HPLC of desalted seminal plasma indicated that prostaglandins complexed with seminal proteins, and these too were immunosuppressive. The possible relevance of these results to sexually transmitted disease is discussed.read more
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The innate and early immune response to pathogen challenge in the female genital tract and the pivotal role of epithelial cells.
TL;DR: The evidence on the pivotal role of epithelial cells in the innate and early immune response to pathogen challenge in female genital tract tissues is reviewed, and the evidence that the 'sterile' upper and the 'non-steriles' lowerFemale genital tract may maintain a different immunological surveillance milieu, and may also respond differentially to pathogenic challenge is examined.
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T Lymphocytes and Macrophages, but Not Motile Spermatozoa, Are a Significant Source of Human Immunodeficiency Virus in Semen
TL;DR: Semen leukocytes proliferated in response to mitogenic and antigenic challenge and produced p24 following stimulation with irradiated allogeneic cells, providing evidence that both T cells and macrophages, but not germ cells, are cellular vectors of HIV transmission in semen.
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Extracellular organelles (prostasomes) are immunosuppressive components of human semen.
TL;DR: The prostasomes in semen may play a complementary role to the prostaglandins in neutralizing the immune defences of the female reproductive tract and allow the alloantigenic spermatozoa the best chance of achieving fertilization, but at the same time leave the recipient open to any infection present in the semen.
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TGF-β Mediates Proinflammatory Seminal Fluid Signaling in Human Cervical Epithelial Cells
David J. Sharkey,Anne M. Macpherson,Kelton Tremellen,David G. Mottershead,Robert B. Gilchrist,Sarah A. Robertson +5 more
TL;DR: The findings suggest that TGF-β in the male partner’s seminal fluid may influence cervical immune function after coitus in women, and potentially be a determinant of fertility, as well as defense from infection.
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Immunosuppression by human seminal plasma--extracellular organelles (prostasomes) modulate activity of phagocytic cells.
TL;DR: The aim of this work was to study the effect of prostasomes on human polymorphonuclear cell and monocyte function.
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