PFKP Activation Ameliorates Foot Process Fusion in Podocytes in Diabetic Kidney Disease

足细胞 下调和上调 糖酵解 蛋白尿 细胞生物学 生物 化学 内分泌学 生物化学 新陈代谢 基因 蛋白尿
作者
Zongwei Zhang,Wei Liang,Qiang Luo,Hongtu Hu,Keju Yang,Jijia Hu,Zhaowei Chen,Jili Zhu,Jun Feng,Zijing Zhu,Qingjia Chi,Guohua Ding
出处
期刊:Frontiers in Endocrinology [Frontiers Media]
卷期号:12 被引量:16
标识
DOI:10.3389/fendo.2021.797025
摘要

Background Glycolysis dysfunction is an important pathogenesis of podocyte injury in diabetic kidney disease (DKD). Foot process fusion of podocytes and increased albuminuria are markers of early DKD. Moreover, cytoskeletal remodeling has been found to be involved in the foot process fusion of podocytes. However, the connections between cytoskeletal remodeling and alterations of glycolysis in podocytes in DKD have not been clarified. Methods mRNA sequencing of glomeruli obtained from db/db and db/m mice with albuminuria was performed to analyze the expression profiling of genes in glucose metabolism. Expressions of phosphofructokinase platelet type (PFKP) in the glomeruli of DKD patients were detected. Clotrimazole (CTZ) was used to explore the renal effects of PFKP inhibition in diabetic mice. Using Pfkp siRNA or recombinant plasmid to manipulate PFKP expression, the effects of PFKP on high glucose (HG) induced podocyte damage were assessed in vitro . The levels of fructose-1,6-bisphosphate (FBP) were measured. Targeted metabolomics was performed to observe the alterations of the metabolites in glucose metabolism after HG stimulation. Furthermore, aldolase type b (Aldob) siRNA or recombinant plasmid were applied to evaluate the influence of FBP level alteration on podocytes. FBP was directly added to podocyte culture media. Db/db mice were treated with FBP to investigate its effects on their kidney. Results mRNA sequencing showed that glycolysis enzyme genes were altered, characterized by upregulation of upstream genes ( Hk1, and Pfkp ) and down-regulation of downstream genes of glycolysis ( Pkm, and Ldha ). Moreover, the expression of PFKP was increased in glomeruli of DKD patients. The CTZ group presented more severe renal damage. In vitro , the Pfkp siRNA group and ALDOB overexpression group showed much more induced cytoskeletal remodeling in podocytes, while overexpression of PFKP and suppression of ALDOB in vitro rescued podocytes from cytoskeletal remodeling through regulation of FBP levels and inhibition of the RhoA/ROCK1 pathway. Furthermore, targeted metabolomics showed FBP level was significantly increased in HG group compared with the control group. Exogenous FBP addition reduced podocyte cytoskeletal remodeling and renal damage of db/db mice. Conclusions These findings provide evidence that PFKP may be a potential target for podocyte injury in DN and provide a rationale for applying podocyte glycolysis enhancing agents in patients with DKD.

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