Hillary D. White

PROBLEM: The tissues of the human female reproductive tract (Fallopian tube, uterus, cervix, and vagina) may play different roles in the provision of mucosal immunity. The purpose of this study was to develop a uniform method suitable for quantitative comparison of the leukocytes from all these tissues. METHOD OF STUDY: Tissues, typically 0.5-1.0 g, were dispersed by enzyme treatment. A flow cytometric gating procedure based on CD45-positivity and low far-red autofluorescence permitted unfractionated, freshly dispersed cells to be phenotyped with respect to T lymphocytes, B lymphocytes, macrophages, and granulocytes. RESULTS: Reproductive tract tissues contain leukocytes that represent approximately 6-20% of the total number of cells, with the Fallopian tubes and uterus containing a higher proportion of leukocytes than the cervix and vagina. The uterine endometrium from post-menopausal women has fewer leukocytes than does uterine endometrium from pre-menopausal women. T lymphocytes are a major constituent (30-60%) of leukocytes from all tissues. The Fallopian tube contains granulocytes as another major constituent; granulocytes are significantly less numerous in the other tissues. All tissues contain B lymphocytes and macrophages as clearly detectable but minor components. CONCLUSIONS: Three-color flow cytometry is an appropriate method for quantitative comparison of leukocytes from the different tissues of the female reproductive tract, during all phases of the menstrual cycle and within post-menopausal samples. Results indicate that the tissues differ from each other, particularly with respect to the large number of granulocytes in the Fallopian tubes.

The human female reproductive tract (RT) has been analyzed by others with respect to NK cell cytolytic activity, but not CD3+ T cell (CTL) cytolytic activity. Here, we describe the cytolytic capacity of mucosal CD3+ T cells both longitudinally within the RT (Fallopian tube, uterine endometrium, endocervix, ectocervix, and vaginal mucosa) and temporally throughout the menstrual cycle, using a redirected lysis assay system. Cytolysis by CD3+ CD8+ T cells is found throughout the RT and appears to be hormonally regulated, since in the uterine endometrium, the capacity for CD3+ T cell cytolytic activity is present during the proliferative phase of the menstrual cycle and absent during the subsequent secretory (postovulatory) phase. In contrast, in postmenopausal women the entire RT, including the uterus, retains the capacity for strong CD3+ T cell cytolytic activity. These findings suggest that the high levels of estradiol and progesterone present during days 14 to 28 of the menstrual cycle down-regulate CTL activity in the uterus. As a consequence, the absence of this activity may allow implantation of a semiallogeneic embryo that would otherwise be rejected. Further, these studies indicate that CTL activity is regulated differentially in different regions of the RT, persisting in the cervix and vagina throughout the menstrual cycle.

Using confocal scanning laser microscopy of viable tissue sections, we have demonstrated organized lymphoid aggregates (LA), that have a unique structure, in the stratum basalis of uterine endometrium. These LA consist of a core of B cells surrounded by more numerous T cells and an outer halo of monocytes/ macrophages. The T cells in the LA were almost exclusively CD8+CD4-. These CD8+ LA, in terms of both their T cell and B cell components, were either small or absent during the early proliferative stage of the menstrual cycle, significantly larger in size at mid-cycle and during the secretory phase, and absent in post-menopausal women, suggesting that their development is hormonally influenced. This new finding of a menstrual cycle-dependent, phenotypically unique, organized immune cell structure may lead to new insights into the mechanisms by which the endometrium accepts a semiallogeneic graft while providing resistance to infectious organisms.