Methylmercury (MeHg) penetrates the placental barrier to affect developing fetuses in the uterus. However, the mechanism of placental MeHg transport is not well defined. To clarify the MeHg transport system that functions in the placenta, pregnant rats were intravenously administered MeHg on day 18 of gestation. The fetal blood was collected from the umbilical cord at 30 and 60 min after the administration, and its mercury concentration was measured. MeHg was found to be rapidly transported to the fetal blood in a time- and dose-dependent manner, and predominantly distributed in the blood cells there. MeHg transport was effectively suppressed by the co-injection of neutral amino acids, i.e., L-methionine and L-phenylalanine, suggesting that MeHg is actively transported as its cysteine conjugate via the neutral amino acid carrier system. The suppression by methionine was not so marked as by phenylalanine. Since methionine administration caused a rapid increase of the cysteine, which functioned as a predominant carrier in MeHg transport, in the maternal plasma, newly synthesized cysteine seemed to accelerate the mercury uptake. Accordingly, the acceleration by the extra cysteine would compensate partly the competitive effect of methionine as a neutral amino acid.
ArticlesWe examined the effects of cadmium on the bcl-2 family of proteins-bcl-2, bax, bad, and bcl-xS/L-in cadmium-induced cytotoxicity. Addition of 10 µM cadmium to cultured porcine kidney LLC-PK 1 cells caused apoptosis. Western blot analyses revealed that cadmium markedly increased endogenous bcl-2 protein (to 3-4 times the level in wild-type cells) earlier than metallothionein induction, but that the metal did not enhance the induction of bax, bad, or bcl-xS proteins. Cadmium also induced the transcript of bcl-2, with the amount of bcl-2 reaching a maximum at 1-2 hr of exposure; this increase occurred earlier than cadmium-induced increase in the protooncogene such as c-myc. A cadmium-induced increase in endogenous bcl-2 protein was also seen in rat primary thymocytes. Overexpression of the bcl-2 protein by gene transfection prevented cadmium-induced apoptosis. Following the detection of apoptosis, lactate dehydrogenase release in the culture medium (a marker of necrosis) was observed, and this release was also inhibited by overexpression of bcl-2. Electron microscopic observations also supported the fact that cadmium induced apoptotic chromatin condensation at an early stage of exposure, followed by necrotic features of the cells, both of which were also inhibited by overexpression of bcl-2 proteins. Thus, our data demonstrated that both apoptotic and necrotic actions of cadmium were attenuated by bcl-2.
Cells prepared from the cerebral hemisphere of embryonic Day 18 rats were maintained for 2 days in serum-free modified Bottenstein-Sato (mBS) medium containing thyroid hormone (TH), with or without leukemia inhibitory factor (LIF) or bone morphogenetic protein (BMP)-2, and these influences on the differentiation and development of glial cells were investigated using the cells maintained in mBS medium containing TH as controls. The levels of glial fibrillary acidic protein (GFAP) expression and the number of GFAP-positive astrocytes increased markedly with the addition of LIF or BMP-2, and were enhanced further with the addition of both LIF and BMP-2. The number of O1-positive oligodendrocytes increased with the addition of LIF, whereas it decreased with the addition of BMP-2. The number did not change with the addition of both cytokines. Using antibody against platelet-derived growth factor (PDGF), we then excluded indirect effects of these cytokines through PDGF, which would increase by accelerated astrocyte development. When PDGF was neutralized, the number of oligodendrocytes increased under all conditions examined. As a result of the neutralization, the effect of BMP-2 on oligodendrocyte differentiation was eliminated, although LIF remained effective. These results suggest that the differentiation of oligodendrocytes was delayed partially by PDGF even in control cultures. It is also suggested that LIF and BMP-2, each of which accelerates the differentiation and development of astrocytes, would seem to have different effects on oligodendrocyte differentiation, i.e., LIF would directly affect oligodendrocyte differentiation, whereas BMP-2 would affect it mainly through PDGF.
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