T J Yang1, I A Ayoub, M J Rewinski. 1. Department of Pathobiology, University of Connecticut, Storrs 06269-3089, USA.
Abstract
PROBLEM: Determination of lactation stage-dependent changes in levels of lymphocyte subpopulations in milk. METHOD: Flow cytometric assay was used to identify and assay lymphocyte subpopulations in bovine milk at different stages of lactation. RESULTS: Lymphocyte subpopulations in mammary secretions of dairy cows change during the lactation cycle. In involuting glands (dry gland), approximately 80-90% of lymphocytes were CD2+ T cells. The proportion of CD2+ T cells, however, decreased to approximately 50% at the colostral stage an fluctuated between 50 to 60% in normal (mature) milk. Throughout the lactation stages, less than 5% were B cells as identified by the monoclonal antibodies against CD21 and MHC class II antigens. Subset analysis showed, however, that the proportion of CD5+ T cells decreased from 90% in involuting gland secretions to 75% in colostrum (peripartum stage), and to approximately 40-50% in the normal (mature) milk, CD4+ T cells constituted between 45 to 55% of lymphocytes in the dry gland secretion but decreased drastically at parturition and maintained at the level below 20% throughout normal lactation. In contrast, the proportion of CD8+ T cells in the dry gland secretion was low, between 30 to 40%, but increased steadily, in an inversely-related manner with that of CD4+ T cells, to approximately 40-50% at parturition and maintained at approximately 30-40% during the normal lactation stage thereafter. Two-color immunofluorescence study revealed further that practically all of the CD8+ cells in dry gland secretions were CD2+, and approximately 40% of them were CD5-. Throughout the lactation cycle, WC1+ gamma delta T cells comprised only 2 to 5% of lymphocytes in mammary secretions. CONCLUSIONS: T lymphocyte subpopulations change dynamically during stages of the lactation cycle. The selective migration of T lymphocyte subpopulations to and from the mammary gland, and their functional roles in the immune competence and regulation of the dam and sucklings remain to be elucidated.
PROBLEM: Determination of lactation stage-dependent changes in levels of lymphocyte subpopulations in milk. METHOD: Flow cytometric assay was used to identify and assay lymphocyte subpopulations in bovine milk at different stages of lactation. RESULTS: Lymphocyte subpopulations in mammary secretions of dairy cows change during the lactation cycle. In involuting glands (dry gland), approximately 80-90% of lymphocytes were CD2+ T cells. The proportion of CD2+ T cells, however, decreased to approximately 50% at the colostral stage an fluctuated between 50 to 60% in normal (mature) milk. Throughout the lactation stages, less than 5% were B cells as identified by the monoclonal antibodies against CD21 and MHC class II antigens. Subset analysis showed, however, that the proportion of CD5+ T cells decreased from 90% in involuting gland secretions to 75% in colostrum (peripartum stage), and to approximately 40-50% in the normal (mature) milk, CD4+ T cells constituted between 45 to 55% of lymphocytes in the dry gland secretion but decreased drastically at parturition and maintained at the level below 20% throughout normal lactation. In contrast, the proportion of CD8+ T cells in the dry gland secretion was low, between 30 to 40%, but increased steadily, in an inversely-related manner with that of CD4+ T cells, to approximately 40-50% at parturition and maintained at approximately 30-40% during the normal lactation stage thereafter. Two-color immunofluorescence study revealed further that practically all of the CD8+ cells in dry gland secretions were CD2+, and approximately 40% of them were CD5-. Throughout the lactation cycle, WC1+ gamma delta T cells comprised only 2 to 5% of lymphocytes in mammary secretions. CONCLUSIONS: T lymphocyte subpopulations change dynamically during stages of the lactation cycle. The selective migration of T lymphocyte subpopulations to and from the mammary gland, and their functional roles in the immune competence and regulation of the dam and sucklings remain to be elucidated.
Authors: Ian A Myles; Ming Zhao; Glenn Nardone; Lisa R Olano; Jensen D Reckhow; Danial Saleem; Timothy J Break; Michail S Lionakis; Timothy G Myers; Paul J Gardina; Charles H Kirkpatrick; Steven M Holland; Sandip K Datta Journal: J Leukoc Biol Date: 2016-08-11 Impact factor: 4.962
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