Lipopolysaccharides inhibit prolactin and renin release from human decidual cells

Abstract

Human decidual tissue consists of a heterogeneous population of cells, including stromal cells, lymphocytes, and macrophages Lipopolysaccharides (LPS), which bind to specific cell surface receptors on macrophages, have been shown to increase prostaglandin production by the decidua and amnion. To determine whether LPS may also affect decidual hormone production, we have examined the effects of LPS on the synthesis and release of prolactin and renin. Dispersed cells from term decidual tissue exposed to LPS L2880 (Escherichia coli, 1 μg/ml) released significantly less prolactin and renin than control cells after 24 h of exposure. Maximal inhibition of prolactin (31.6%) and renin (62.5%) release was noted at 72 and 96 h of exposure, respectively (p ≤ 0.0002 in each instance). The inhibition of prolactin and renin release was dose-dependent, with half-maximal inhibition at a dose of approximately 10 ng/ml. LPS caused a decrease in prolactin synthesis as well as release. In addition, LPS inhibited the stimulation of prolactin release in response to insulin, a known secretogogue of prolactin release. After 24, 48, and 72 h of exposure, the magnitude of the stimulation of prolactin release by cells exposed to insulin (100 ng/ml) in the presence of LPS (1 μg/ml) was 84.5, 57.5, and 35.2% less, respectively, than that of cells exposed to insulin alone (p = 0.0001 in each instance). LPS L6011 (Salmonella endotoxin) also inhibited prolactin and renin release. LPS had no effect on overall protein or DNA synthesis and did not cause release of alkaline phosphatase and lactate dehydrogenase. Since gram-negative bacteria that cause intrauterine infections release LPS, some of the morbidity associated with intrauterine infections may be due, in part, to inhibition of decidual prolactin and renin expression. This inhibition may be a direct effect of LPS on the decidual cell or may be mediated by cytokines released by macrophages activated by LPS or by activation of the arachidonic acid pathway.