Effects of menopause and estrogen on cervical epithelial permeability.

The objective of the study was to characterize the effect and explore the mechanisms by which menopause affects paracellular permeability of cultured human cervical epithelium. The experimental system was cultures of human ectocervical epithelial (hECE) cells on filters. Assays included flux measurements of cell-impermeable molecules and determinations of transepithelial electrical conductance. hECE cells of postmenopausal women formed epithelia with lower paracellular permeability than hECE cells of premenopausal women. Treatment with estrogen increased paracellular permeability, but levels remained lower compared to cultures from premenopausal women. Lowering extracellular calcium or treatment with cytochalasin-D, conditions that decrease the tight junctional resistance (R(TJ)), increased the permeability, and the relative effects were greater in cells of premenopausal women than in postmenopausal women. Treatment of cells with sn-1,2-dioctanoyl diglyceride, an agent that increases the R(TJ), decreased the permeability, and the relative effect was greater in cells of postmenopausal women than in cells of premenopausal women. Estrogen had no significant effect on the responses to low calcium, cytochalasin-D, or sn-1,2-dioctanoyl diglyceride. Hydrostatic and hypertonic gradients in the subluminal to luminal direction, conditions that decrease the resistance of the lateral intercellular space increased the permeability to a similar degree in cultures of cells from premenopausal and from postmenopausal women. Pretreatment with estrogen augmented the increases in permeability in response to hydrostatic and hypertonic gradients. In cells exposed to low extracellular calcium, hydrostatic gradients had an additive increase in permeability. By extrapolation it was determined that in cultures of postmenopausal women R(TJ) contributes 97% to the total paracellular resistance, whereas in hECE cultures of premenopausal women the R(TJ) contributes only 84%. These results indicate that after menopause the transcervical paracellular permeability decreases significantly; this can explain the decrease in lubrication of the cervix and vagina in postmenopausal women. Part of the effect is due to lack of estrogen, and it can be reversed by treatment with the hormone. However, most of the effect is unrelated to estrogen and is caused by an increase in R(TJ).