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Aim To build the model of the gene FKBP38(FK506 binding protein 38)conditional knock out in uterus and then investigate the effect on endometrial precancerous lesions and the underlying mechanism.Methods Transgenic mice whose FKBP38 gene was flanked with loxP were constructed by embryo microinjection. The conditional knockout of FKBP38 was obtained by breeding mice harboring two loxP sites in FKBP38(FKBP38
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Aim To investigate the role of FKBP38 in inhibiting apoptosis in a rotenone-induced Parkinson's disease(PD)cell model. Methods In vivo experiments:MPTP-induced PD in vivo models were constructed,and the expressions of α-synuclein,TH and FKBP38 in brains of PD mice were detected. In vitro experiments:Dopaminergic neuron MN9D cells were stimulated with rotenone to construct an in vitro model of PD; Western blot was used to detect the expression levels of α-synuclein,TH,Tom20 and FKBP38 in PD in vitro model; FKBP38 lentivirus was transferred into MN9D cells to construct stable overexpression and FKBP38 knockdown cell lines; CCK-8 assay was used to detect the cell viability of FKBP38 overexpression and knockdown cells stimulated by rotenone; Western blot was used to detect anti-apoptotic protein Bcl-2 and apoptosis protein in PD cell model expression levels of Bax. Results The expression level of FKBP38 was significantly down-regulated in both in vitro and in vivo models of PD(P<0.01). Knockdown of FKBP38 aggravated the decline of dopaminergic neuron cell viability caused by rotenone(P<0.05),while overexpression of FKBP38 significantly ameliorated the decline of dopaminergic neuron cell viability caused by rotenone(P<0.05). Western blot results showed that overexpression of FKBP38 could significantly up-regulate the expression level of anti-apoptotic protein Bcl-2 and increase the ratio of Bcl-2/Bax in PD dopaminergic neurons(P<0.05). Conclusion In the PD cell model regulation of FKBP38 can improve the apoptosis of dopaminergic neurons.
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Aim To investigate the effects of FKBP38 gene on nonalcoholic fatty liver disease ( NAFLD ) model induced by methionine and choline deficiency j J diet (MCD) in mice.Methods The mutant model of hepatocellular specific deletion of FKBP38 gene was successfully established.The mice were divided into wild-type group ( WT) and homologous knockout group (L-FKBP38 ).Mice were fed with MCD for four weeks to construct NAFLD model.Liver injury was e- valuated by the contents of alanine transaminase (ALT), aspartate transaminase (AST) in the serum samples.We also performed HE staining, examined lipid accumulation by triglyceride (TG) and total cholesterol (CHO) and oil red staining, as well as macrophage infiltration by F4/80 immunohistochemical stai-ning of the liver sections.Fatty acid metabolism-relat ed genes were quantifier] by Quantitative Real-time PCR assays.Results Comparer] with WT group, the levels of ALT, AST, TG and CHO in serum signifi- eantly inereased ( P < 0.05 ) ; liver damage , lipid ac- eumulation, and maerophage infiltration were markedly more severe, and the expressions of fatty aeirl oxidation related genes PPARa, ACOX-1 , CPT-la and SIRT3 markedly rleereaserl ( P < 0.05) in the liver samples of L-FKBP38 group.Conclusions Hepatocellular speeifie deletion of FKBP38 intensifies lipid accumula- tion by inhibiting fatty aeid oxidation in the liver, thus exaeerbating nonaleoholie fatty liver disease.
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The mammalian target of rapamycin (mTOR)-sterol regulatory element-binding proteins (SREBPs) signaling promotes lipogenesis. However, mTOR inhibitors also displayed a significant side effect of hyperlipidemia. Thus, it is essential to develop mTOR-specific inhibitors to inhibit lipogenesis. Here, we screened the endogenous inhibitors of mTOR, and identified that FKBP38 as a vital regulator of lipid metabolism. FKBP38 decreased the lipid content
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Objective:To build the model of the gene FKBP38 (FK506 binding protein 38) conditional knock out in liver.Methods:Transgenic mouse whose FKBP38 gene was flanked with loxP was constructed by embryo microinjection.The FKBP38 gene was deleted by breeding mice harboring two loxP sites in FKBP38 (FKBP38fl/fl) with the mice bearing the expression ofCre recombinase mice driven by an album promoter.Afterward,the genotype of FKBP38 conditional knockout mice was analyzed.Results:①Relative hepatic FKBP38 mRNA levels showed significant difference between FKBP38 conditional knockout mice (FKBP38-/-) and wild type(P< 0.001).②Relative hepatic FKBP38 protein expression levels of FKBP38 conditional knockout mice (FKBP38-/-) were significantly different with wild type(P<0.001).③Relative phosphorylation of hepatic p70 S6K and 4E-BP-1 protein of FKBP38 conditional knockout mice (FKBP38-/-) showed no significant difference,with slight decrease in phosphorylation of 4E-BP-1,compared with wild type.④No significant difference in expression of hepatic Bcl-2 between FKBP38-/-and wild type.Conclusions:The mouse model of the gene FKBP38 (FK506 binding protein 38) conditional knock out in liver is successfully built.
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Here, we report that B-cell lymphoma 2 (Bcl-2) is a novel target molecule of aspirin in breast cancer cells. Aspirin influenced the formation of a complex by Bcl-2 and FKBP38 and induced the nuclear translocation of Bcl-2 and its phosphorylation. These events inhibited cancer cell proliferation and subsequently enhanced MCF-7 breast cancer cell apoptosis. Bcl-2 knockdown using small interfering RNA (siRNA) delayed apoptotic cell death, which correlated with increased proliferation following aspirin exposure. In contrast, Bcl-2 overexpression enhanced the onset of aspirin-induced apoptosis, which was also associated with a significant increase in Bcl-2 phosphorylation in the nucleus. Therefore, this study may provide novel insight into the molecular mechanism of aspirin, particularly its anticancer effects in Bcl-2- and estrogen receptor-positive breast cancer cells.