The nuclear receptor hepatocyte nuclear factor 4alpha(HNF4α)plays a critical role in the regulation of metabolic homeostasis,including glucose homeostasis.Sulfotransferases(SULTs)catalyze the transfer of a sulfate gr...The nuclear receptor hepatocyte nuclear factor 4alpha(HNF4α)plays a critical role in the regulation of metabolic homeostasis,including glucose homeostasis.Sulfotransferases(SULTs)catalyze the transfer of a sulfate group from 3-phosphoadenosine 5-phosphosulfate(PAPS)to an acceptor molecule.Sulfonation plays an essential role in regulating the chemical and functional homeostasis of endogenous and exogenous molecules.Among SULTs,the cholesterol sulfotransferase 2B1b(SULT2B1b)preferentially catalyzes the sulfoconjugation of cholesterol and oxysterols to form cholesterol sulfate and oxysterol sulfates.Hepatic gluconeogenesis represents a critical component of energy metabolism.Although there have been reviews on the regulation of glucose homeostasis by HNF4a,the interplay between HNF4a and SULT2B1b in hepatic glucose homeostasis remains scattered.In this review,we intend to provide an overview on how HNF4a functionally cross-talks with SULT2B1b to regulate hepatic glucose homeostasis and whether the HNF4a-SULT2B1b axis represents a novel therapeutic target for the management of metabolic liver disease and metabolic syndrome.展开更多
Background:Clear cell renal cell carcinoma(ccRCC)is an aggressive malignancy associated with limited treatment options and poor prognosis.Emerging studies suggest that the actin-regulating protein actin-related protei...Background:Clear cell renal cell carcinoma(ccRCC)is an aggressive malignancy associated with limited treatment options and poor prognosis.Emerging studies suggest that the actin-regulating protein actin-related protein 2/3 complex subunit 1B(ARPC1B),a key regulatory protein within the actin cytoskeleton,could play a pivotal role in ccRCC progression.The current study aimed to uncover the biological functions of ARPC1B and the molecular mechanisms driving its effects in ccRCC.Methods:ARPC1B expression and prognostic implications were analyzed using data sourced from the Gene Expression Profiling Interactive Analysis(GEPIA)platform,immunohistochemical(IHC)staining on 150 tumor samples along with 30 corresponding normal tissues,and Western blotting(WB)analyses across multiple ccRCC-derived cell lines.Functional assays assessing cell proliferation,colony formation capability,migration,invasion,and in vivo tumorigenicity were conducted following either ARPC1B suppression or upregulation.Additionally,WB analysis was utilized to evaluate proteins linked to epithelial-to-mesenchymal transition(EMT)and the Wnt/β-catenin pathway.Results:The findings revealed a substantial elevation of ARPC1B in ccRCC tissues and cell lines,significantly associated with advanced TNM stages,higher Fuhrman grades,and reduced overall survival(OS)(p<0.001).Multivariate statistical analysis identified ARPC1B as a standalone prognostic factor.Silencing ARPC1B notably impaired ccRCC cellular activities,and tumorigenesis in animalmodels,whereas augmented ARPC1B expression enhanced these malignant phenotypes.Mechanistically,downregulation of ARPC1B suppressed Wnt/β-catenin signaling and disrupted EMT,indicated by reducedβ-catenin,c-Myc,cyclin D1,and ZEB-1 levels,and concurrently increased E-cadherin expression.Additionally,reactivation of theWnt/β-catenin pathway partly reversed the inhibitory effects of ARPC1B depletion on tumor growth and invasiveness.Conclusions:ARPC1B emerges as an essential oncogenic factor in ccRCC by stimulating EMT and activating the Wnt/β-catenin pathway,ultimately enhancing tumor aggressiveness and metastatic potential.Thus,targeting ARPC1B represents a promising therapeutic strategy,warranting further exploration in ccRCC management.展开更多
基金supported in part by the USA National Institutes of Health(NIH)grants DK099232,ES023438 and ES030429 to W.Xie.W.Xie was supported in part by the Joseph Koslow Endowed Professorship from the University of Pittsburgh School of Pharmacy.
文摘The nuclear receptor hepatocyte nuclear factor 4alpha(HNF4α)plays a critical role in the regulation of metabolic homeostasis,including glucose homeostasis.Sulfotransferases(SULTs)catalyze the transfer of a sulfate group from 3-phosphoadenosine 5-phosphosulfate(PAPS)to an acceptor molecule.Sulfonation plays an essential role in regulating the chemical and functional homeostasis of endogenous and exogenous molecules.Among SULTs,the cholesterol sulfotransferase 2B1b(SULT2B1b)preferentially catalyzes the sulfoconjugation of cholesterol and oxysterols to form cholesterol sulfate and oxysterol sulfates.Hepatic gluconeogenesis represents a critical component of energy metabolism.Although there have been reviews on the regulation of glucose homeostasis by HNF4a,the interplay between HNF4a and SULT2B1b in hepatic glucose homeostasis remains scattered.In this review,we intend to provide an overview on how HNF4a functionally cross-talks with SULT2B1b to regulate hepatic glucose homeostasis and whether the HNF4a-SULT2B1b axis represents a novel therapeutic target for the management of metabolic liver disease and metabolic syndrome.
文摘Background:Clear cell renal cell carcinoma(ccRCC)is an aggressive malignancy associated with limited treatment options and poor prognosis.Emerging studies suggest that the actin-regulating protein actin-related protein 2/3 complex subunit 1B(ARPC1B),a key regulatory protein within the actin cytoskeleton,could play a pivotal role in ccRCC progression.The current study aimed to uncover the biological functions of ARPC1B and the molecular mechanisms driving its effects in ccRCC.Methods:ARPC1B expression and prognostic implications were analyzed using data sourced from the Gene Expression Profiling Interactive Analysis(GEPIA)platform,immunohistochemical(IHC)staining on 150 tumor samples along with 30 corresponding normal tissues,and Western blotting(WB)analyses across multiple ccRCC-derived cell lines.Functional assays assessing cell proliferation,colony formation capability,migration,invasion,and in vivo tumorigenicity were conducted following either ARPC1B suppression or upregulation.Additionally,WB analysis was utilized to evaluate proteins linked to epithelial-to-mesenchymal transition(EMT)and the Wnt/β-catenin pathway.Results:The findings revealed a substantial elevation of ARPC1B in ccRCC tissues and cell lines,significantly associated with advanced TNM stages,higher Fuhrman grades,and reduced overall survival(OS)(p<0.001).Multivariate statistical analysis identified ARPC1B as a standalone prognostic factor.Silencing ARPC1B notably impaired ccRCC cellular activities,and tumorigenesis in animalmodels,whereas augmented ARPC1B expression enhanced these malignant phenotypes.Mechanistically,downregulation of ARPC1B suppressed Wnt/β-catenin signaling and disrupted EMT,indicated by reducedβ-catenin,c-Myc,cyclin D1,and ZEB-1 levels,and concurrently increased E-cadherin expression.Additionally,reactivation of theWnt/β-catenin pathway partly reversed the inhibitory effects of ARPC1B depletion on tumor growth and invasiveness.Conclusions:ARPC1B emerges as an essential oncogenic factor in ccRCC by stimulating EMT and activating the Wnt/β-catenin pathway,ultimately enhancing tumor aggressiveness and metastatic potential.Thus,targeting ARPC1B represents a promising therapeutic strategy,warranting further exploration in ccRCC management.
