DACH1 protects podocytes from experimental diabetic injury and modulates PTIP-H3K4Me3 activity

Aili Cao, Jianhua Li, Morad Asadi, John M. Basgen, Bingbing Zhu, Zhengzi Yi, Song Jiang, Tomohito Doke, Osama El Shamy, Niralee Patel, Paolo Cravedi, Evren U. Azeloglu, Kirk N. Campbell, Madhav Menon, Steve Coca, Weijia Zhang, Hao Wang, Ke Zen, Zhihong Liu, Barbara MurphyJohn C. He, Vivette D. D’Agati, Katalin Susztak, Lewis Kaufman

Research output: Contribution to journalArticlepeer-review

16 Scopus citations


Dachshund homolog 1 (DACH1), a key cell-fate determinant, regulates transcription by DNA sequence–specific binding. We identified diminished Dach1 expression in a large-scale screen for mutations that convert injury-resistant podocytes into injury-susceptible podocytes. In diabetic kidney disease (DKD) patients, podocyte DACH1 expression levels are diminished, a condition that strongly correlates with poor clinical outcomes. Global Dach1 KO mice manifest renal hypoplasia and die perinatally. Podocyte-specific Dach1 KO mice, however, maintain normal glomerular architecture at baseline, but rapidly exhibit podocyte injury after diabetes onset. Furthermore, podocyte-specific augmentation of DACH1 expression in mice protects from DKD. Combined RNA sequencing and in silico promoter analysis reveal conversely overlapping glomerular transcriptomic signatures between podocyte-specific Dach1 and Pax transactivation-domain interacting protein (Ptip) KO mice, with upregulated genes possessing higher-than-expected numbers of promoter Dach1-binding sites. PTIP, an essential component of the activating histone H3 lysine 4 trimethylation (H3K4Me3) complex, interacts with DACH1 and is recruited by DACH1 to its promoter-binding sites. DACH1-PTIP recruitment represses transcription and reduces promoter H3K4Me3 levels. DACH1 knockdown in podocytes combined with hyperglycemia triggers target gene upregulation and increases promoter H3K4Me3. These findings reveal that in DKD, diminished DACH1 expression enhances podocyte injury vulnerability via epigenetic derepression of its target genes.

Original languageEnglish
Article numbere141279
JournalJournal of Clinical Investigation
Issue number10
StatePublished - May 2021


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