PURPOSE: Immunologic characterization of IgA-committed B-1 and B-2 cells, and unique subsets of T cells isolated from the murine lacrimal gland (LG), the primary exocrine tissue for the ocular surface, which is considered to be a part of the mucosal immune system. METHODS: Single cells were obtained from LGs of C57BL/6 mice by the enzyme dissociation method using collagenase type IV. Samples underwent flow cytometric analysis to characterize the unique subsets of T and B cells. To test the effectiveness of ocular vaccination, mice were immunized ocularly or nasally with cholera toxin (CT; 10 microg/mouse) suspended in phosphate-buffered saline. Antigen-specific immune responses were determined by isotype and CT-specific enzyme-linked immunosorbent assay (ELISA) and enzyme-linked immunospot (ELISPOT) assay. RESULTS: When mononuclear cells (MC) isolated from LG samples were examined by flow cytometry, approximately 28% of cells were characterized as B220+ B cells. Because surface IgA+ (sIgA+) B cells develop from B-1 and B-2 lineages, it was important to examine which subset of B cells gives rise to LG sIgA+ B cells. Examination of the MC isolated from LG samples showed that approximately 4% of cells were sIgA+ B cells. Furthermore, nearly all these sIgA+ B cells (97.5%) belonged to the B-1 lineage, especially the B-1a cell line (B220low, CD5+). Of the isolated CD3+ T cells, 75% were alpha(beta) and 25% were gamma(delta)T-cell receptor positive. The proportion of NK1.1+ alpha(beta) T cells was higher (3%) in LG samples than in submandibular gland samples (0.5%). Ocular immunization with CT-induced antigen-specific mucosal (e.g., found in tear-wash and saliva samples) and systemic (e.g., serum) immune responses. The magnitude of antigen-specific antibody responses was comparable to those induced by nasal immunization. CONCLUSIONS: These results show that LG contains unique subsets of B (e.g., sIgA+ B-1 cells) and T (e.g., NK1.1+ alpha(beta)T cells) cells. Furthermore, as a part of the mucosal immune barrier, the LG is an important immunologic tissue for the ocular surface.
PURPOSE: Immunologic characterization of IgA-committed B-1 and B-2 cells, and unique subsets of T cells isolated from the murine lacrimal gland (LG), the primary exocrine tissue for the ocular surface, which is considered to be a part of the mucosal immune system. METHODS: Single cells were obtained from LGs of C57BL/6 mice by the enzyme dissociation method using collagenase type IV. Samples underwent flow cytometric analysis to characterize the unique subsets of T and B cells. To test the effectiveness of ocular vaccination, mice were immunized ocularly or nasally with cholera toxin (CT; 10 microg/mouse) suspended in phosphate-buffered saline. Antigen-specific immune responses were determined by isotype and CT-specific enzyme-linked immunosorbent assay (ELISA) and enzyme-linked immunospot (ELISPOT) assay. RESULTS: When mononuclear cells (MC) isolated from LG samples were examined by flow cytometry, approximately 28% of cells were characterized as B220+ B cells. Because surface IgA+ (sIgA+) B cells develop from B-1 and B-2 lineages, it was important to examine which subset of B cells gives rise to LG sIgA+ B cells. Examination of the MC isolated from LG samples showed that approximately 4% of cells were sIgA+ B cells. Furthermore, nearly all these sIgA+ B cells (97.5%) belonged to the B-1 lineage, especially the B-1a cell line (B220low, CD5+). Of the isolated CD3+ T cells, 75% were alpha(beta) and 25% were gamma(delta)T-cell receptor positive. The proportion of NK1.1+ alpha(beta) T cells was higher (3%) in LG samples than in submandibular gland samples (0.5%). Ocular immunization with CT-induced antigen-specific mucosal (e.g., found in tear-wash and saliva samples) and systemic (e.g., serum) immune responses. The magnitude of antigen-specific antibody responses was comparable to those induced by nasal immunization. CONCLUSIONS: These results show that LG contains unique subsets of B (e.g., sIgA+ B-1 cells) and T (e.g., NK1.1+ alpha(beta)T cells) cells. Furthermore, as a part of the mucosal immune barrier, the LG is an important immunologic tissue for the ocular surface.
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