Chromatin remodeler INO80 mediates trophectoderm permeability barrier to modulate morula-to-blastocyst transition

Inositol requiring mutant 80(INO80)is a chromatin remodeler that regulates pluripotency maintenance of embryonic stem cells and reprogramming of somatic cells into pluripotent stem cells.However,the roles and mechanisms of INO80 in porcine preimplantation embryonic development remain largely unknown.Here,we show that INO80 modulates trophectoderm epithelium permeability to promote porcine blastocyst development.The INO80 protein is highly expressed in the nuclei during morula-toblastocyst transition.Functional studies revealed that RNA interference(RNAi)-mediated knockdown of INO80 severely blocks blastocyst formation and disrupts lineage allocation between the inner cell mass and trophectoderm.Mechanistically,singleembryo RNA sequencing revealed that INO80 regulates multiple genes,which are important for lineage specification,tight junction assembly,and fluid accumulation.Consistent with the altered expression of key genes required for tight junction assembly,a permeability assay showed that paracellular sealing is defective in the trophectoderm epithelium of INO80 knockdown blastocysts.Importantly,aggregation of 8-cell embryos from the control and INO80 knockdown groups restores blastocyst development and lineage allocation via direct complementation of the defective trophectoderm epithelium.Taken together,these results demonstrate that INO80 promotes blastocyst development by regulating the expression of key genes required for lineage specification,tight junction assembly,and fluid accumulation.

Neuroprotection of quercetin on central neurons against chronic high glucose through enhancement of Nrf2/Glo-1 mediated by phosphorylation regulation

OBJECTIVE To investigate the neuroprotective effects of quercetin on central neurons against chronic high glucose in central neurons,in relation to Nrf2/ARE/Glo-1 activation.METHODS SH-SY5Y cells were cultured with high glucose(HG,70 mmol·L^(-1)),4-fold of the normal glucose(17.5 mmol·L^(-1)).Quercetin was set three concentrations(5,10,20μmol·L^(-1)),with Nrf2 activator sulforaphane(SFN)as a positive group(2.5μmol·L^(-1)).After 72 h,cells were collected for glyoxalase 1(Glo-1)activity and GSH level were by spectrophotometry;advanced glycation end-products(AGEs)as well as nuclear Nrf2 and p-Nrf2 levels by immunofluorescence;Glo-1,γ-glutamycysteine synthase(γ-GCS),Nrf2 and p-Nrf2 protein levels by Western blotting,and Glo-1 andγ-GCS m RNA levels by real-time qP CR.RESULTS Quercetin increased the cell viability of SH-SY5Y cells,and upregulated the levels of Glo-1 activity,protein,and m RNA in SH-SY5Y cells cultured with HG,accompanied by the elevated levels of glutathione,a cofactor of Glo-1 activity,and the reduced levels of AGEs.Meanwhile,quercetin could increase p-Nrf2 and Nrf2 levels in nucleus as well as p-Nrf2 levels in cytosol of SH-SY5Y cells exposed to chronic HG,accompanied by the elevated protein expression and m RNA levels ofγ-GCS,a known target gene of Nrf2/ARE signaling.Moreover,a PKC activator or a p38MAPK inhibitor pretreatment could significantly increase the protein expression ofγ-GCS in HG condition,but an alkylating agent for sulfydryl of cysteine in Keap 1,a negative regulator of Nrf2,pretreatment only showed an increased tendency ofγ-GCS protein,compared with without pretreatment;however,after pretreatment with those tool drugs,co-treatment with quercetin and HG had similar results to those of single tool drug pretreatment followed by HG exposure.CONCLUSION Firstly,quercetin can enhance Glo-1 function in central neurons,which is mediated by activation of Nrf2/ARE pathway,then exerts the neuroprotection against HG induced damage;moreover,PKC and p38 MAPK pathways may be involved in Nrf2 inactivation in chronic HG condition.

Epididymis cell atlas in a patient with a sex development disorder and a novel NR5A1 gene mutation

This study aims to characterize the cell atlas of the epididymis derived from a 46,XY disorders of sex development(DSD)patient with a novel heterozygous mutation of the nuclear receptor subfamily 5 group A member 1(NR5A1)gene.Next-generation sequencing found a heterozygous c.124C>G mutation in NR5A1 that resulted in a p.Q42E missense mutation in the conserved DNA-binding domain of NR5A1.The patient demonstrated feminization of external genitalia and Tanner stage 1 breast development.The surgical procedure revealed a morphologically normal epididymis and vas deferens but a dysplastic testis.Microfluidic-based single-cell RNA sequencing(scRNA-seq)analysis found that the fibroblast cells were significantly increased(approximately 46.5%),whereas the number of main epididymal epithelial cells(approximately 9.2%),such as principal cells and basal cells,was dramatically decreased.Bioinformatics analysis of cell–cell communications and gene regulatory networks at the single-cell level inferred that epididymal epithelial cell loss and fibroblast occupation are associated with the epithelial-to-mesenchymal transition(EMT)process.The present study provides a cell atlas of the epididymis of a patient with 46,XY DSD and serves as an important resource for understanding the pathophysiology of DSD.