Yeyan Zhu scite author profile

ELABELA (ELA), a 32-residue hormone peptide abundantly expressed in adult kidneys, has been identified as a novel endogenous ligand for APJ/Apelin receptor. The aim of this study was to investigate the role of ELA in deoxycorticosterone acetate (DOCA)/salt-induced hypertension and further explore the underlying mechanism. In DOCA/salt-treated rats, the mRNA level of ELA greatly decreased in the renal medulla. Next, overexpression of ELA in the kidney was found to attenuate DOCA/salt-induced hypertension and renal injury, including lower blood pressure, reversed glomerular morphological damage, decreased blood urea nitrogen (BUN), and blocked the accumulation of fibrotic markers. Mechanistically, ELA overexpression inhibited renal nicotinamide adenine dinucleotide phosphate (NADPH) oxidase activity and subsequent reactive oxygen species (ROS) production, thus resulted in the blockade of formation and activation of Nod-like receptor protein 3 (NLRP3) inflammasome. The inhibitory effects of ELA on Aldosterone-stimulated NADPH oxidase/ROS/NLRP3 inflammasome pathway were confirmed in the human renal tubular cells. Furthermore, our in vivo and in vitro results showed that the deficiency of the apelin receptor APJ did not influence the antihypertensive effect and blockage to NADPH oxidase/ROS/NLRP3 pathway of ELA. Moreover, in heterozygous ELA knockout mice (ELA+/−), the ELA deficiency remarkably accelerated the onset of DOCA/salt-induced hypertension. Our data demonstrate that ELA prevents DOCA/salt-induced hypertension by inhibiting NADPH oxidase/ROS/NLRP3 pathway in the kidney, which is APJ independent. Pharmacological targeting of ELA may serve as a novel therapeutic strategy for the treatment of hypertensive kidney disease.

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Enterococcus faecalis contributes to hypertension and renal injury in Sprague-Dawley rats by disturbing lipid metabolism

Zhu

Liu

et al. 2021

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Increasing studies have demonstrated that gut microbiota play vital roles in the development of hypertension. However, the underlying mechanism is not fully understood. Methods:The relative abundance of Enterococcus faecalis was determined in the faecal samples of angiotensin II or deoxycorticosterone acetate/salt-induced hypertensive rats. Then, E. faecalis culture was administered orally to rats for 6 weeks. Blood pressure (BP) was measured, renal injury was estimated and a serum metabolomic analysis was performed.Results: Compared with control, E. faecalis was markedly enriched in the faecal samples of hypertensive rats. The rats receiving live E. faecalis but not dead bacteria exhibited higher BP and enhanced renal injury. The serum metabolomic data showed that the E. faecalis treatment resulted in 35 variable metabolites including 16 (46%) lipid/lipid-like molecules, suggesting significant disturbance of lipid metabolism. Furthermore, the mRNA levels of 18 lipid metabolic enzymes in the renal medulla and cortex presented distinct and dynamic changes in response to 3 or 6-week E. faecalis treatment. Consistently, the protein levels of lysophospholipases A1 (LYPLA1) and phospholipase A2 group 4 A (PLA2G4) were enhanced only by live E. faecalis, which thus may have decreased the nitric oxide production in the renal medulla and elevated BP. Conclusion:Our results suggest that E. faecalis in the gut contributes to hypertension and renal injury in rats by disturbing the lipid metabolism. The information provided here could shed new light on the pathologic mechanisms and potential intervention targets for the treatment of gut dysbiosis-induced hypertension.

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Moderation of gut microbiota and bile acid metabolism by chlorogenic acid improves high-fructose-induced salt-sensitive hypertension in mice

Zhu

Liu

et al. 2022

Food Funct.

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Sodium butyrate ameliorates deoxycorticosterone acetate/salt-induced hypertension and renal damage by inhibiting the MR/SGK1 pathway

Zhang

Zhu

et al. 2020

Hypertens Res

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Yeyan Zhu

Gut dysbiosis contributes to high fructose–induced salt-sensitive hypertension in Sprague-Dawley rats

ELABELA attenuates deoxycorticosterone acetate/salt-induced hypertension and renal injury by inhibition of NADPH oxidase/ROS/NLRP3 inflammasome pathway

Enterococcus faecalis contributes to hypertension and renal injury in Sprague-Dawley rats by disturbing lipid metabolism

Moderation of gut microbiota and bile acid metabolism by chlorogenic acid improves high-fructose-induced salt-sensitive hypertension in mice

Sodium butyrate ameliorates deoxycorticosterone acetate/salt-induced hypertension and renal damage by inhibiting the MR/SGK1 pathway

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