Jiang-min Wan scite author profile

BackgroundHyperlipidemia-induced apoptosis mediated by fatty acid translocase CD36 is associated with increased uptake of ox-LDL or fatty acid in macrophages, hepatocytes and proximal tubular epithelial cells, leading to atherosclerosis, liver damage and fibrosis in obese patients, and diabetic nephropathy (DN), respectively. However, the specific role of CD36 in podocyte apoptosis in DN with hyperlipidemia remains poorly investigated.MethodsThe expression of CD36 was measured in paraffin-embedded kidney tissue samples (Ctr = 18, DN = 20) by immunohistochemistry and immunofluorescence staining. We cultured conditionally immortalized mouse podocytes (MPC5) and treated cells with palmitic acid, and measured CD36 expression by real-time PCR, Western blot analysis and immunofluorescence; lipid uptake by Oil red O staining and BODIPY staining; apoptosis by flow cytometry assay, TUNEL assay and Western blot analysis; and ROS production by DCFH-DA fluorescence staining. All statistical analyses were performed using SPSS 21.0 statistical software.ResultsCD36 expression was increased in kidney tissue from DN patients with hyperlipidemia. Palmitic acid upregulated CD36 expression and promoted its translocation from cytoplasm to plasma membrane in podocytes. Furthermore, palmitic acid increased lipid uptake, ROS production and apoptosis in podocytes, Sulfo-N-succinimidyloleate (SSO), the specific inhibitor of the fatty acid binding site on CD36, decreased palmitic acid-induced fatty acid accumulation, ROS production, and apoptosis in podocytes. Antioxidant 4-hydroxy-2,2,6,6- tetramethylpiperidine -1-oxyl (tempol) inhibited the overproduction of ROS and apoptosis in podocytes induced by palmitic acid.ConclusionsCD36 mediated fatty acid-induced podocyte apoptosis via oxidative stress might participate in the process of DN.

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Autophagy Protects against Palmitic Acid-Induced Apoptosis in Podocytes in vitro

Jiang

Wan

Gui

et al. 2017

Sci Rep

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Autophagy is a highly conserved degradation process that is involved in the clearance of proteins and damaged organelles to maintain intracellular homeostasis and cell integrity. Type 2 diabetes is often accompanied by dyslipidemia with elevated levels of free fatty acids (FFAs). Podocytes, as an important component of the filtration barrier, are susceptible to lipid disorders. The loss of podocytes causes proteinuria, which is involved in the pathogenesis of diabetic nephropathy. In the present study, we demonstrated that palmitic acid (PA) promoted autophagy in podocytes. We further found that PA increased the production of reactive oxygen species (ROS) in podocytes and that NAC (N-acetyl-cysteine), a potent antioxidant, significantly eliminated the excessive ROS and suppressed autophagy, indicating that the increased generation of ROS was associated with the palmitic acid-induced autophagy in podocytes. Moreover, we also found that PA stimulation decreased the mitochondrial membrane potential in podocytes and induced podocyte apoptosis, while the inhibition of autophagy by chloroquine (CQ) enhanced palmitic acid-induced apoptosis accompanied by increased ROS generation, and the stimulation of autophagy by rapamycin (Rap) remarkably suppressed palmitic acid-induced ROS generation and apoptosis. Taken together, these in vitro findings suggest that PA-induced autophagy in podocytes is mediated by ROS production and that autophagy plays a protective role against PA-induced podocyte apoptosis.

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PINK1/Parkin mediated mitophagy ameliorates palmitic acid-induced apoptosis through reducing mitochondrial ROS production in podocytes

Jiang

Chen

Hua

et al. 2020

Biochemical and Biophysical Research Communications

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CD36-mediated podocyte lipotoxicity promotes foot process effacement

Hua

Peng

Jiang

et al. 2023

Preprint

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Background Lipid metabolism disorders lead to lipotoxicity. The kidney is one of the most vulnerable organs in hyperlipidemia. The hyperlipidemia-induced early stage of renal injury mainly manifests as podocyte damage. CD36 mediates fatty acid uptake and the subsequent accumulation of toxic lipid metabolites, resulting in podocyte lipotoxicity. Methods Male Sprague-Dawley (SD) rats (20 rats) were divided into 2 groups: the normal control group (NC) and the high-fat diet group (HFD). Kidney tissue samples were collected for electron microscopy and Western blot analysis. Podocytes were cultured and treated with palmitic acid (PA) and sulfo-N-succinimidyl oleate (SSO). CD36 protein expression was measured by immunofluorescence and Western blot analysis. BODIPY (Boron-dipyrromethene) staining and Oil Red O staining was used to analyze fatty acid accumulation. Foot process damage was assessed by F-actin staining and electron microscopy. Results Podocyte foot process effacement and marked proteinuria occurred in the HFD group but not the NC group. CD36 protein expression was upregulated in the HFD group and in PA-treated podocytes (P < 0.05). PA-treated podocytes showed increased fatty acid accumulation, reactive oxygen species (ROS) production, and actin cytoskeleton rearrangement. However, pretreatment with the CD36 inhibitor SSO decreased lipid accumulation and ROS production and alleviated actin cytoskeleton rearrangement and foot process effacement in podocytes. Furthermore, the antioxidant N-acetylcysteine suppressed PA-induced podocyte foot process effacement and ROS generation. Conclusions CD36 participated in fatty acid–induced foot process effacement in podocytes via oxidative stress, and CD36 inhibitors may be helpful for early treatment of kidney injury.

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Jiang-min Wan

CD36 Mediated Fatty Acid-Induced Podocyte Apoptosis via Oxidative Stress

Autophagy Protects against Palmitic Acid-Induced Apoptosis in Podocytes in vitro

PINK1/Parkin mediated mitophagy ameliorates palmitic acid-induced apoptosis through reducing mitochondrial ROS production in podocytes

CD36-mediated podocyte lipotoxicity promotes foot process effacement

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