PPDPF preserves integrity of proximal tubule by modulating NMNAT activity in chronic kidney diseases

Xiaoliang Fang; Yi Zhong; Rui Zheng; Qihui Wu; Yu Liu; Dexin Zhang; Yuwei Wang; Wubing Ding; Kaiyuan Wang; Fengbo Zhong; Kai Lin; Xiaohui Yao; Qingxun Hu; Xiaofei Li; Guofeng Xu; Na Liu; Jing Nie; Dali Li; Hongquan Geng; Yuting Guan

doi:10.1126/sciadv.adr8648

PPDPF preserves integrity of proximal tubule by modulating NMNAT activity in chronic kidney diseases

Xiaoliang Fang
, Yi Zhong
, Rui Zheng
, Qihui Wu
, Yu Liu
, Dexin Zhang
, Yuwei Wang
, Wubing Ding
, Kaiyuan Wang
, Fengbo Zhong
, Kai Lin
, Xiaohui Yao
, Qingxun Hu
, Xiaofei Li
, Guofeng Xu
, Na Liu
, Jing Nie
, Dali Li
, Hongquan Geng^*
, Yuting Guan^*

^*此作品的通讯作者

生命科学学院

Children's Hospital of Fudan University
East China Normal University
Tongji University
Shanghai Jiao Tong University
Salk Institute for Biological Studies
Harbin Engineering University
Shanghai University
Karolinska Institutet
Peking University

科研成果: 期刊稿件 › 文章 › 同行评审

3 引用（Scopus）

摘要

Genome-wide association studies (GWAS) have identified loci associated with kidney diseases, but the causal variants, genes, and pathways involved remain elusive. Here, we identified a kidney disease gene called pancreatic progenitor cell differentiation and proliferation factor (PPDPF) through integrating GWAS on kidney function and multiomic analysis. PPDPF was predominantly expressed in healthy proximal tubules of human and mouse kidneys via single-cell analysis. Further investigations revealed that PPDPF functioned as a thiol-disulfide oxidoreductase to maintain cellular NAD⁺ levels. Deficiency in PPDPF disrupted NAD⁺ and mitochondrial homeostasis by impairing the activities of nicotinamide mononucleotide adenylyl transferases (NMNATs), thereby compromising the function of proximal tubules during injuries. Consequently, knockout of PPDPF notably accelerated the progression of chronic kidney disease (CKD) in mouse models induced by aging, chemical exposure, and obstruction. These findings strongly support targeting PPDPF as a potential therapy for kidney fibrosis, offering possibilities for future CKD interventions.

源语言	英语
文章编号	eadr8648
期刊	Science Advances
卷	11
期	12
DOI	https://doi.org/10.1126/sciadv.adr8648
出版状态	已出版 - 21 3月 2025

联合国可持续发展目标

此成果有助于实现下列可持续发展目标：

可持续发展目标 3 良好健康与福祉

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10.1126/sciadv.adr8648

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引用此

Fang, X., Zhong, Y., Zheng, R., Wu, Q., Liu, Y., Zhang, D., Wang, Y., Ding, W., Wang, K., Zhong, F., Lin, K., Yao, X., Hu, Q., Li, X., Xu, G., Liu, N., Nie, J., Li, D., Geng, H., & Guan, Y. (2025). PPDPF preserves integrity of proximal tubule by modulating NMNAT activity in chronic kidney diseases. Science Advances, 11(12), 文章 eadr8648. https://doi.org/10.1126/sciadv.adr8648

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title = "PPDPF preserves integrity of proximal tubule by modulating NMNAT activity in chronic kidney diseases",

abstract = "Genome-wide association studies (GWAS) have identified loci associated with kidney diseases, but the causal variants, genes, and pathways involved remain elusive. Here, we identified a kidney disease gene called pancreatic progenitor cell differentiation and proliferation factor (PPDPF) through integrating GWAS on kidney function and multiomic analysis. PPDPF was predominantly expressed in healthy proximal tubules of human and mouse kidneys via single-cell analysis. Further investigations revealed that PPDPF functioned as a thiol-disulfide oxidoreductase to maintain cellular NAD+ levels. Deficiency in PPDPF disrupted NAD+ and mitochondrial homeostasis by impairing the activities of nicotinamide mononucleotide adenylyl transferases (NMNATs), thereby compromising the function of proximal tubules during injuries. Consequently, knockout of PPDPF notably accelerated the progression of chronic kidney disease (CKD) in mouse models induced by aging, chemical exposure, and obstruction. These findings strongly support targeting PPDPF as a potential therapy for kidney fibrosis, offering possibilities for future CKD interventions.",

author = "Xiaoliang Fang and Yi Zhong and Rui Zheng and Qihui Wu and Yu Liu and Dexin Zhang and Yuwei Wang and Wubing Ding and Kaiyuan Wang and Fengbo Zhong and Kai Lin and Xiaohui Yao and Qingxun Hu and Xiaofei Li and Guofeng Xu and Na Liu and Jing Nie and Dali Li and Hongquan Geng and Yuting Guan",

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AU - Fang, Xiaoliang

AU - Zhong, Yi

AU - Zheng, Rui

AU - Wu, Qihui

AU - Liu, Yu

AU - Zhang, Dexin

AU - Wang, Yuwei

AU - Ding, Wubing

AU - Wang, Kaiyuan

AU - Zhong, Fengbo

AU - Lin, Kai

AU - Yao, Xiaohui

AU - Hu, Qingxun

AU - Li, Xiaofei

AU - Xu, Guofeng

AU - Liu, Na

AU - Nie, Jing

AU - Li, Dali

AU - Geng, Hongquan

AU - Guan, Yuting

PY - 2025/3/21

Y1 - 2025/3/21

N2 - Genome-wide association studies (GWAS) have identified loci associated with kidney diseases, but the causal variants, genes, and pathways involved remain elusive. Here, we identified a kidney disease gene called pancreatic progenitor cell differentiation and proliferation factor (PPDPF) through integrating GWAS on kidney function and multiomic analysis. PPDPF was predominantly expressed in healthy proximal tubules of human and mouse kidneys via single-cell analysis. Further investigations revealed that PPDPF functioned as a thiol-disulfide oxidoreductase to maintain cellular NAD+ levels. Deficiency in PPDPF disrupted NAD+ and mitochondrial homeostasis by impairing the activities of nicotinamide mononucleotide adenylyl transferases (NMNATs), thereby compromising the function of proximal tubules during injuries. Consequently, knockout of PPDPF notably accelerated the progression of chronic kidney disease (CKD) in mouse models induced by aging, chemical exposure, and obstruction. These findings strongly support targeting PPDPF as a potential therapy for kidney fibrosis, offering possibilities for future CKD interventions.

AB - Genome-wide association studies (GWAS) have identified loci associated with kidney diseases, but the causal variants, genes, and pathways involved remain elusive. Here, we identified a kidney disease gene called pancreatic progenitor cell differentiation and proliferation factor (PPDPF) through integrating GWAS on kidney function and multiomic analysis. PPDPF was predominantly expressed in healthy proximal tubules of human and mouse kidneys via single-cell analysis. Further investigations revealed that PPDPF functioned as a thiol-disulfide oxidoreductase to maintain cellular NAD+ levels. Deficiency in PPDPF disrupted NAD+ and mitochondrial homeostasis by impairing the activities of nicotinamide mononucleotide adenylyl transferases (NMNATs), thereby compromising the function of proximal tubules during injuries. Consequently, knockout of PPDPF notably accelerated the progression of chronic kidney disease (CKD) in mouse models induced by aging, chemical exposure, and obstruction. These findings strongly support targeting PPDPF as a potential therapy for kidney fibrosis, offering possibilities for future CKD interventions.

UR - https://www.scopus.com/pages/publications/105000990318

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DO - 10.1126/sciadv.adr8648

M3 - 文章

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AN - SCOPUS:105000990318

SN - 2375-2548

VL - 11

JO - Science Advances

JF - Science Advances

IS - 12

M1 - eadr8648

ER -

PPDPF preserves integrity of proximal tubule by modulating NMNAT activity in chronic kidney diseases

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联合国可持续发展目标

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