The December 2023 issue of the Military Medical Research brings out an astounding discover y by Xu et al.[1]demonstrating a key role of the mysterious enzyme ADPdependent glucokinase(ADPGK)in the cellular metabolism o...The December 2023 issue of the Military Medical Research brings out an astounding discover y by Xu et al.[1]demonstrating a key role of the mysterious enzyme ADPdependent glucokinase(ADPGK)in the cellular metabolism of prostate cancer(PCa).The ADPGKs are enzymes typically found in thermophilic archaea where they mediate the indispensable,first step of glucose metabolism,i.e.phosphorylation of glucose to glucose-6-phosphate.Strikingly,ADPGKs utilize ADP as a phosphate donor instead of ATP typically used to initiate glycolysis by four“classical”eukaryotic hexokinases(HKⅠ–Ⅲand glucokinase).Thus,the discovery made by Ronimus and Morgan[2]of the functional form of ADPGK in mice,opened an intriguing question of the specific role of this enzyme in the metabolism of eukaryotic cell.展开更多
The prevalence of obesity and related conditions like non-alcoholic fatty liver disease(NAFLD) is increasing worldwide and therapeutic options are limited.Alternative treatment options are therefore intensively sought...The prevalence of obesity and related conditions like non-alcoholic fatty liver disease(NAFLD) is increasing worldwide and therapeutic options are limited.Alternative treatment options are therefore intensively sought after.An interesting candidate is the natural polyphenol resveratrol(RSV) that activates adenosinmonophosphate-activated protein kinase(AMPK) and silent information regulation-2 homolog 1(SIRT1).In addition,RSV has known anti-oxidant and anti-inflammatory effects.Here,we review the current evidence for RSVmediated effects on NAFLD and address the different aspects of NAFLD and non-alcoholic steatohepatitis(NASH) pathogenesis with respect to free fatty acid(FFA) flux from adipose tissue,hepatic de novo lipogenesis,inadequate FFA β-oxidation and additional intra- and extrahepatic inflammatory and oxidant hits.We review the in vivo evidence from animal studies and clinical trials.The abundance of animal studies reports a decrease in hepatic triglyceride accumulation,liver weight and a general improvement in histological fatty liver changes,along with a reduction in circulating insulin,glucose and lipid levels.Some studies document AMPK or SIRT1 activation,and modulation of relevant markers of hepatic lipogenesis,inflammation and oxidation status.However,AMPK/SIRT1-independent actions are also likely.Clinical trials are scarce and have primarily been performed with a focus on overweight/obese participants without a focus on NAFLD/NASH and histological liver changes.Future clinical studies with appropriate design are needed to clarify the true impact of RSV treatment in NAFLD/NASH patients.展开更多
Clq/TNF-related protein 1(CTRP1),a conserved protein of the Clq family,plays a key role in cardiovascular and metabolic diseases.However,the role of CTRP1 in renal injury is unclear.The purpose of this study is to exp...Clq/TNF-related protein 1(CTRP1),a conserved protein of the Clq family,plays a key role in cardiovascular and metabolic diseases.However,the role of CTRP1 in renal injury is unclear.The purpose of this study is to explore the role of CTRP1 in unilateral ureteral obstruction(UUO)-induced renal fibrosis and to elucidate the underlying mechanism.Using gene delivery system,CTRP1 was overexpressed in the kidney,then the mice were operated to induce UUO model after adenovirus transfection.It was found that the expression of CTRP1 in the renal tissue was decreased in mice after UUO.CTRP1 overexpression decreased the kidney function and kidney weight index.Moreover,CTRP1 reduced oxidative stress and renal collagen deposition in vivo.As expected,we found that CTRP1 activated AMP-activated kinase(AMPK)and decreased NOX4 expression,while silencing AMPKal abolished the protective effects of CTRP1 overexpression in mice after UUO.In conclusion,CTRP1 may protect against UUO-induced renal injury via AMPK/NOX4 signaling.Our results indicate that CTRP1 exhibits potential effects to treat renal fibrosis caused by UUO.展开更多
文摘The December 2023 issue of the Military Medical Research brings out an astounding discover y by Xu et al.[1]demonstrating a key role of the mysterious enzyme ADPdependent glucokinase(ADPGK)in the cellular metabolism of prostate cancer(PCa).The ADPGKs are enzymes typically found in thermophilic archaea where they mediate the indispensable,first step of glucose metabolism,i.e.phosphorylation of glucose to glucose-6-phosphate.Strikingly,ADPGKs utilize ADP as a phosphate donor instead of ATP typically used to initiate glycolysis by four“classical”eukaryotic hexokinases(HKⅠ–Ⅲand glucokinase).Thus,the discovery made by Ronimus and Morgan[2]of the functional form of ADPGK in mice,opened an intriguing question of the specific role of this enzyme in the metabolism of eukaryotic cell.
基金Supported by Aarhus University and the Danish Council for Independent Research,Medical Sciences,No.11-107912The Danish Strategic Research Council has supported the LIRMOI study on RSV effects in NAFLD and metabolic diseases,No.10-093499+5 种基金The NOVO Nordisk Foundation has supported Grnbk H by a research grantsupported by the Robert WStorr Bequest to the Sydney MedicalFoundation,University of Sydneya National Health and Medical Research Council of Australia (NHMRC) Program Grant No.1053206Project grants 632630 and 1049857
文摘The prevalence of obesity and related conditions like non-alcoholic fatty liver disease(NAFLD) is increasing worldwide and therapeutic options are limited.Alternative treatment options are therefore intensively sought after.An interesting candidate is the natural polyphenol resveratrol(RSV) that activates adenosinmonophosphate-activated protein kinase(AMPK) and silent information regulation-2 homolog 1(SIRT1).In addition,RSV has known anti-oxidant and anti-inflammatory effects.Here,we review the current evidence for RSVmediated effects on NAFLD and address the different aspects of NAFLD and non-alcoholic steatohepatitis(NASH) pathogenesis with respect to free fatty acid(FFA) flux from adipose tissue,hepatic de novo lipogenesis,inadequate FFA β-oxidation and additional intra- and extrahepatic inflammatory and oxidant hits.We review the in vivo evidence from animal studies and clinical trials.The abundance of animal studies reports a decrease in hepatic triglyceride accumulation,liver weight and a general improvement in histological fatty liver changes,along with a reduction in circulating insulin,glucose and lipid levels.Some studies document AMPK or SIRT1 activation,and modulation of relevant markers of hepatic lipogenesis,inflammation and oxidation status.However,AMPK/SIRT1-independent actions are also likely.Clinical trials are scarce and have primarily been performed with a focus on overweight/obese participants without a focus on NAFLD/NASH and histological liver changes.Future clinical studies with appropriate design are needed to clarify the true impact of RSV treatment in NAFLD/NASH patients.
文摘Clq/TNF-related protein 1(CTRP1),a conserved protein of the Clq family,plays a key role in cardiovascular and metabolic diseases.However,the role of CTRP1 in renal injury is unclear.The purpose of this study is to explore the role of CTRP1 in unilateral ureteral obstruction(UUO)-induced renal fibrosis and to elucidate the underlying mechanism.Using gene delivery system,CTRP1 was overexpressed in the kidney,then the mice were operated to induce UUO model after adenovirus transfection.It was found that the expression of CTRP1 in the renal tissue was decreased in mice after UUO.CTRP1 overexpression decreased the kidney function and kidney weight index.Moreover,CTRP1 reduced oxidative stress and renal collagen deposition in vivo.As expected,we found that CTRP1 activated AMP-activated kinase(AMPK)and decreased NOX4 expression,while silencing AMPKal abolished the protective effects of CTRP1 overexpression in mice after UUO.In conclusion,CTRP1 may protect against UUO-induced renal injury via AMPK/NOX4 signaling.Our results indicate that CTRP1 exhibits potential effects to treat renal fibrosis caused by UUO.
