The potential for the exposure of humans and wildlife to environmental endocrine-disrupting chemicals (EDCs) has been increasing. Risk assessment for such EDCs is primarily based on detecting the main endpoints related to the endocrine and reproductive systems, while the effects on glucose and fat metabolism have only received limited attention. In this study, pubertal male C57BL/6J mice were orally administered 10 mg/kg body weight cypermethrin (CYP), 100 mg/kg body weight atrazine (ATZ), and 0.1 mg/kg body weight 17α-ethynyestradiol (EE2) for 4 weeks and then switched to a high-energy diet (HD) for 8 weeks. The body weight gain in the EDC-treated groups was lower than that in the control group during exposure and then tended to show values similar to the HD group. The epididymal fat weight, cell size and serum triacylglycerol (TG) and total cholesterol (TCH) levels in the EDC-HD groups were lower than those in the HD group. The transcription of genes related to glycolytic and gluconeogenic processes in the liver was affected by EDC exposure. Furthermore, the expression levels of transcriptional factors including PPARα, PPARγ, and SREBP1C and their target genes related to fatty acid synthesis and oxidation in the liver were also influenced by early life EDC administration. The results showed that early-life-stage exposure to high doses of various environmental EDCs affected the homeostasis of glucose and fatty acid metabolism in the livers of adult male mice.
Aberrant activation of the MET/hepatocyte growth factor (HGF) receptor participates in the malignant behavior of cancer cells, such as invasion‐metastasis and resistance to molecular targeted drugs. Many mutations in the MET extracellular region have been reported, but their significance is largely unknown. Here, we report the dysregulation of mutant MET originally found in a lung cancer patient with Val370 to Asp370 (V370D) replacement located in the extracellular SEMA domain. MET‐knockout cells were prepared and reconstituted with WT‐MET or V370D‐MET. HGF stimulation induced MET dimerization and biological responses in cells reconstituted with WT‐MET, but HGF did not induce MET dimerization and failed to induce biological responses in V370D‐MET cells. The V370D mutation abrogated HGF‐dependent drug resistance of lung cancer cells to epidermal growth factor receptor‐tyrosine kinase inhibitors (EGFR‐TKI). Compared with WT‐MET cells, V370D‐MET cells showed different activation patterns in receptor tyrosine kinases upon exposure to survival/growth‐stressed conditions. Surface plasmon resonance analysis indicated that affinity between the extracellular region of V370D‐MET and HGF was reduced compared with that for WT‐MET. Further analysis of the association between V370D‐MET and the separate domains of HGF indicated that the SP domain of HGF was unchanged, but its association with the NK4 domain of HGF was mostly lost in V370D‐MET. These results indicate that the V370D mutation in the MET receptor impairs the functional association with HGF and is therefore a loss‐of‐function mutation. This mutation may change the dependence of cancer cell growth/survival on signaling molecules, which may promote cancer cell characteristics under certain conditions.
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