Podocyte histone deacetylase activity regulates murine and human glomerular diseases
Kazunori Inoue, Geliang Gan, Maria Ciarleglio, Yan Zhang, Xuefei Tian, Christopher E. Pedigo, Corey Cavanaugh, Janet Tate, Ying Wang, Elizabeth Cross, Marwin Groener, Nathan Chai, Zhen Wang, Amy Justice, Zhenhai Zhang, Chirag R. Parikh, Francis P. Wilson, Shuta Ishibe
Kazunori Inoue, Geliang Gan, Maria Ciarleglio, Yan Zhang, Xuefei Tian, Christopher E. Pedigo, Corey Cavanaugh, Janet Tate, Ying Wang, Elizabeth Cross, Marwin Groener, Nathan Chai, Zhen Wang, Amy Justice, Zhenhai Zhang, Chirag R. Parikh, Francis P. Wilson, Shuta Ishibe
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Research Article Cell biology Nephrology

Podocyte histone deacetylase activity regulates murine and human glomerular diseases

Abstract

We identified 2 genes, histone deacetylase 1 (HDAC1) and HDAC2, contributing to the pathogenesis of proteinuric kidney diseases, the leading cause of end-stage kidney disease. mRNA expression profiling from proteinuric mouse glomeruli was linked to Connectivity Map databases, identifying HDAC1 and HDAC2 with the differentially expressed gene set reversible by HDAC inhibitors. In numerous progressive glomerular disease models, treatment with valproic acid (a class I HDAC inhibitor) or SAHA (a pan-HDAC inhibitor) mitigated the degree of proteinuria and glomerulosclerosis, leading to a striking increase in survival. Podocyte HDAC1 and HDAC2 activities were increased in mice podocytopathy models, and podocyte-associated Hdac1 and Hdac2 genetic ablation improved proteinuria and glomerulosclerosis. Podocyte early growth response 1 (EGR1) was increased in proteinuric patients and mice in an HDAC1- and HDAC2-dependent manner. Loss of EGR1 in mice reduced proteinuria and glomerulosclerosis. Longitudinal analysis of the multicenter Veterans Aging Cohort Study demonstrated a 30% reduction in mean annual loss of estimated glomerular filtration rate, and this effect was more pronounced in proteinuric patients receiving valproic acid. These results strongly suggest that inhibition of HDAC1 and HDAC2 activities may suppress the progression of human proteinuric kidney diseases through the regulation of EGR1.

Authors

Kazunori Inoue, Geliang Gan, Maria Ciarleglio, Yan Zhang, Xuefei Tian, Christopher E. Pedigo, Corey Cavanaugh, Janet Tate, Ying Wang, Elizabeth Cross, Marwin Groener, Nathan Chai, Zhen Wang, Amy Justice, Zhenhai Zhang, Chirag R. Parikh, Francis P. Wilson, Shuta Ishibe

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Figure 10

VPA usage is associated with slower declines in eGFR in a Veterans Affairs population cohort.

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VPA usage is associated with slower declines in eGFR in a Veterans Affai...
(A) The slope of eGFR decline among patients treated with VPA compared with controls not treated with VPA. *P = 0.02. (B) The slope of eGFR decline in patients before and after initiation of VPA. *P <0.001. (C and D) The slope of eGFR decline among patients with no or mild proteinuria (1+ or below on urine dipstick) (C) and with heavy proteinuria (>2+ on urine dipstick) (D) with or without VPA. *P-for-interaction = 0.02. All graphs reflect eGFRs adjusted for age, sex, race, baseline eGFR, HCV, HIV, diabetes, hypertension, congestive heart failure, liver disease, bipolar disorder, depression, post-traumatic stress disorder, prior stroke, epilepsy, and headache. The visualized slopes reflect eGFR at the mode of categorical covariates and the mean of continuous covariates.