Abstract

Marker expression was studied in rat lymphocyte populations isolated from parotid, submandibular and sublingual salivary glands. Comparative data were also obtained for lacrimal gland and spleen populations. Increased percentages of Thy-1+ cells were found in salivary gland populations when compared to spleen with the highest percentage noted for parotid gland. Thy-1 percentages in parotid gland were comparable to those obtained with lacrimal gland. Salivary gland sIg, CD5 and CD8 cell percentages were lower than those obtained for lacrimal gland and splenic populations. The percentages of CD4-bearing cells in submandibular and sublingual gland were lower than those found in parotid gland, lacrimal gland and spleen, and the CD4:CD8 ratios in parotid gland most closely approximated those in spleen. Increased percentages of Thy-1+ lymphocytes coexpressing sIg and CD5 were obtained for all salivary gland cell populations when compared to spleen; however, percentages of salivary gland cells bearing these 3 markers were lower than noted for lacrimal gland, which contained the highest percentage. With respect to adhesion molecules, lymph node homing receptor (LNHR) and Peyer's patch homing receptor (PPHR) bearing cells were found in all glandular populations with the percentages of LNHR+ exceeding PPHR+ lymphocytes. Homing receptor bearing populations were highest in spleen and were present in equal proportions. LFA-1 was expressed by all salivary gland cell populations in greater percentages than lacrimal gland, but lower than those in spleen. VLA-4 and CD44 expression was higher in parotid gland and spleen than in submandibular and lacrimal gland. These data show that the phenotypes of resident lymphocytes in salivary gland tissues differ from lacrimal gland and spleen, as well as each other, and indicate that Thy-1+ cells in glandular tissues bear both B and T cell markers. The adhesion molecule expression data suggest that these molecules may be utilized differently in various glandular tissues, potentially contributing to the variation in phenotypic profiles of resident glandular lymphocytes.

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