We previously suggested that cadmium (Cd), an environmental toxicant and constituent of tobacco smoke, inhibits progesterone secretion in cultured human placental trophoblasts by inhibiting low-density lipoprotein receptor mRNA expression. In the current study, we investigated whether Cd also disrupts progesterone synthesis via P450 cholesterol side-chain cleavage (P450(scc)) and 3beta-hydroxysteroid dehydrogenase (3beta-HSD), enzymes that play important roles in placental steroidogenesis. Human cytotrophoblasts were purified by density gradient centrifugation and incubated in Dulbecco modified Eagle medium + 10% fetal bovine serum with 0, 5, 10, or 20 microM CdCl(2) for 96 h. Cells progressed to syncytiotrophoblastic maturity regardless of treatment. No differences (P > 0.05) in cell protein and lactate dehydrogenase activity were observed between untreated trophoblasts and those treated with CdCl(2). However, P450(scc) and 3beta-HSD mRNA transcript levels declined in a dose-dependent manner (P <0.05) in trophoblasts cocultured with 5, 10, or 20 microM CdCl(2). P450(scc) activity was similarly inhibited (P < 0.05) by CdCl(2) treatment, although 3beta-HSD activity was not significantly affected. Coculture with 8-bromo-cAMP enhanced progesterone secretion in untreated cultures but did not reverse the decline in progesterone secretion induced by CdCl(2) treatment. CdCl(2) failed to influence cAMP content in cultured cells. Collectively, results suggest that P450(scc) enzyme is another site at which Cd interferes with placental progesterone production. However, it is unlikely that an inhibition of cAMP is involved with the inhibition of progesterone biosynthesis by Cd in human trophoblasts.
In rodents, placental lactogen (PL)-I is considered to be the first trigger to enhance pancreatic islet B-cell function, and after its secretion is diminished at mid-pregnancy, PL-II takes over this role. However, little information is available on the regulation of islet B-cell function and proliferation by lactogenic hormones during the last third of pregnancy. This was the focus of the present study using rats in which pregnancy was forcibly prolonged. This rat possesses unique characteristics in that PL-I is re-secreted during the prolonged period of pregnancy and the peak concentrations in maternal circulation are comparable with those observed during mid-pregnancy in normal-pregnancy rats. Pregnancy was prolonged by successive administration of pregnant mare's serum gonadotropin (30 IU/rat, s.c. on day 12) and human chorionic gonadotropin (10 IU/rat, i.v. on day 14). When the insulin secretory responses to 10 mmol/l glucose in islets obtained from normal-pregnancy and prolonged-pregnancy rats were tested, each insulin secretory response correlated well with the values of plasma lactogenic activity throughout the period of pregnancy and lactation. Examination of B-cell proliferation in normal-pregnancy rats showed that 5-bromo-2 0 -deoxyuridine (BrdU) incorporation into dividing B-cells reached a maximum on day 15 and then decreased markedly towards term. No increase in B-cell proliferation was observed on day 19 when plasma lactogenic activity reached the maximum. In prolonged-pregnancy rats, BrdU incorporation also continued to decrease as observed in normal-pregnancy rats after day 15, and then no enhancement in B-cell proliferation was observed even when the plasma lactogenic activity, including re-secreted PL-I, reached maximum. These results suggest that, in the last third of pregnancy, B-cell proliferation is no longer stimulated by lactogenic hormones in contrast to the insulin secretory response which is sustained.
The present study investigated the effect of rat placental lactogen-II (rPL-II) on insulin secretion and B-cell proliferation of the maternal islets during the last half of pregnancy in rats using a homologous system. Pancreatic islets were isolated from nonpregnant rats and rats at day 13 of pregnancy and cultured for 8 days in medium containing trophoblast culture medium or purified hormones. The medium was changed daily and insulin concentrations were determined by measuring immunoreactivity. The number of proliferating B cells were determined by double staining for both insulin and 5\m=' \-bromo-2\m=' \-deoxyuridine (BrdU) incorporated into replicating DNA during the last 24 h of incubation. rPL-II-enriched medium, in which trophoblasts of placentae from rats at day 13 of pregnancy were incubated for 8 days, was added to the islet culture system. Insulin concentration in the medium of non-pregnant rat islets was significantly increased and doubled on incubation in 100% trophoblast culture medium. Addition of purified rPL-II to the culture medium of pregnant rat islets stimulated insulin secretion at the concentrations of 50\p=n-\500 ng ml \m=-\1in a dose-dependent manner. The stimulatory effect of rPL-II on insulin secretion was found to be more than double that with rat prolactin (rPRL) and rat growth hormone (rGH) at 100 ng ml\m=-\1. For determination of B-cell proliferation, non-pregnant rat islets were incubated with rPL-II, rPRL or rGH at 1000 ng ml \ m=-\ 1 for 8 days and then 10 mmol BrdU l \ m=-\ 1 was added during the last 24 h of incubation. rPL-II (5.30 \ m=+-\ 0.36%), rPRL (3.79 \ m=+-\ 0.34%) and rGH (2.87 \ m=+-\ 0.29%) significantly increased the rate of incorporation of BrdU into the B cells compared with that of the control (1.34 \ m=+-\ 0.18%). These results indicate that rPL-II directly regulates insulin secretion and B-cell proliferation of maternal islets during the last half of pregnancy in rats.
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