Objective To explore the model of decreased ovarian reserve(DOR)induced by experimental autoimmune thyroiditis(EAT)in mice and investigate the protective mechanism of Jiexu Zichong Granules(ZCWS).Methods Ninety-six Kunming female mice were randomly divided into the J control group,BIW control group,J model group,and BIW model group.The mice were immunized with antigen(0.1 mg,once or twice per week)combined with high iodine water(0.64 g/L)for 7-19 weeks to validate the model.Subsequently,30 mice were randomly divided into the ZCWS group,model group,and control group.The DOR model was established by immunization with the antigen(0.2 mg per week)combined with high iodine water feeding for 13 weeks.The ZCWS group received oral administration of traditional Chinese medicine suspension(0.64 g/mL),while the remaining groups received an equivalent volume of physiological saline for 7 weeks.Thyroid and ovarian tissue morphology and related indicators were detected using HE staining,ELISA,IHC,and Western blot.Results Antigen immunization for 13 weeks(0.1-0.2 mg per week)combined with high iodine water feeding stably constructed the EAT DOR model.ZCWS reduced thyroid lymphocyte infiltration,follicular structure destruction,and serum TPOAb and TGAb levels(P<0.01).It inhibited MDA activity(P<0.01),increased GSH-Px and SOD activities(P<0.05),increased primordial,primary,and secondary follicles(P<0.05),and reduced atretic follicles(P<0.01).ZCWS upregulated AMH and downregulated FSH(P<0.01),regulated the expression of Bcl-2,Bax,and Caspase-3 proteins in ovarian tissue,downregulated Keap1 protein(P<0.01),and upregulated Nrf2(P<0.01),HO-1,and LONP1 proteins(P<0.05).It upregulated Bcl-2 protein(P<0.05),downregulated Bax(P<0.01),and Caspase-3(P<0.05)proteins,downregulated Keap1 protein(P<0.01),and upregulated Nrf2(P<0.01),HO-1,and LONP1 proteins(P<0.05)in ovarian tissue.Conclusion ZCWS improves ovarian reserve function in EAT mice by activating the Nrf2 pathway,inhibiting oxidative stress,and reducing follicular atresia.

Objective To explore the model of decreased ovarian reserve(DOR)induced by experimental autoimmune thyroiditis(EAT)in mice and investigate the protective mechanism of Jiexu Zichong Granules(ZCWS).Methods Ninety-six Kunming female mice were randomly divided into the J control group,BIW control group,J model group,and BIW model group.The mice were immunized with antigen(0.1 mg,once or twice per week)combined with high iodine water(0.64 g/L)for 7-19 weeks to validate the model.Subsequently,30 mice were randomly divided into the ZCWS group,model group,and control group.The DOR model was established by immunization with the antigen(0.2 mg per week)combined with high iodine water feeding for 13 weeks.The ZCWS group received oral administration of traditional Chinese medicine suspension(0.64 g/mL),while the remaining groups received an equivalent volume of physiological saline for 7 weeks.Thyroid and ovarian tissue morphology and related indicators were detected using HE staining,ELISA,IHC,and Western blot.Results Antigen immunization for 13 weeks(0.1-0.2 mg per week)combined with high iodine water feeding stably constructed the EAT DOR model.ZCWS reduced thyroid lymphocyte infiltration,follicular structure destruction,and serum TPOAb and TGAb levels(P<0.01).It inhibited MDA activity(P<0.01),increased GSH-Px and SOD activities(P<0.05),increased primordial,primary,and secondary follicles(P<0.05),and reduced atretic follicles(P<0.01).ZCWS upregulated AMH and downregulated FSH(P<0.01),regulated the expression of Bcl-2,Bax,and Caspase-3 proteins in ovarian tissue,downregulated Keap1 protein(P<0.01),and upregulated Nrf2(P<0.01),HO-1,and LONP1 proteins(P<0.05).It upregulated Bcl-2 protein(P<0.05),downregulated Bax(P<0.01),and Caspase-3(P<0.05)proteins,downregulated Keap1 protein(P<0.01),and upregulated Nrf2(P<0.01),HO-1,and LONP1 proteins(P<0.05)in ovarian tissue.Conclusion ZCWS improves ovarian reserve function in EAT mice by activating the Nrf2 pathway,inhibiting oxidative stress,and reducing follicular atresia.

FRMD6, a member of the 4.1 ezrin-radixin-moesin domain-containing protein family, has been reported to inhibit tumor progression in multiple cancers. Here, we demonstrate the involvement of FRMD6 in lung cancer progression. We find that FRMD6 is overexpressed in lung cancer tissues relative to in normal lung tissues. In addition, the enhanced expression of FRMD6 is associated with poor outcomes in patients with lung squamous cell carcinoma (n = 75, P = 0.0054) and lung adenocarcinoma (n = 94, P = 0.0330). Cell migration and proliferation in vitro and tumor formation in vivo are promoted by FRMD6 but are suppressed by the depletion of FRMD6. Mechanistically, FRMD6 interacts and colocalizes with mTOR and S6K, which are the key molecules of the mTOR signaling pathway. FRMD6 markedly enhances the interaction between mTOR and S6K, subsequently increasing the levels of endogenous pS6K and downstream pS6 in lung cancer cells. Furthermore, knocking out FRMD6 inhibits the activation of the mTOR signaling pathway in Frmd6^-/- gene KO MEFs and mice. Altogether, our results show that FRMD6 contributes to lung cancer progression by activating the mTOR signaling pathway.