Soluble RARRES1 induces podocyte apoptosis to promote glomerular disease progression
Anqun Chen, Ye Feng, Han Lai, Wenjun Ju, Zhengzhe Li, Yu Li, Andrew Wang, Quan Hong, Fang Zhong, Chengguo Wei, Jia Fu, Tianjun Guan, Bichen Liu, Matthias Kretzler, Kyung Lee, John Cijiang He
Anqun Chen, Ye Feng, Han Lai, Wenjun Ju, Zhengzhe Li, Yu Li, Andrew Wang, Quan Hong, Fang Zhong, Chengguo Wei, Jia Fu, Tianjun Guan, Bichen Liu, Matthias Kretzler, Kyung Lee, John Cijiang He
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Research Article Cell biology Nephrology

Soluble RARRES1 induces podocyte apoptosis to promote glomerular disease progression

Abstract

Using the Nephrotic Syndrome Study Network Consortium data set and other publicly available transcriptomic data sets, we identified retinoic acid receptor responder protein 1 (RARRES1) as a gene whose expression positively correlated with renal function decline in human glomerular disease. The glomerular expression of RARRES1, which is largely restricted to podocytes, increased in focal segmental glomerulosclerosis (FSGS) and diabetic kidney disease (DKD). TNF-α was a potent inducer of RARRES1 expression in cultured podocytes, and transcriptomic analysis showed the enrichment of cell death pathway genes with RARRES1 overexpression. The overexpression of RARRES1 indeed induced podocyte apoptosis in vitro. Notably, this effect was dependent on its cleavage in the extracellular domain, as the mutation of its cleavage site abolished the apoptotic effect. Mechanistically, the soluble RARRES1 was endocytosed and interacted with and inhibited RIO kinase 1 (RIOK1), resulting in p53 activation and podocyte apoptosis. In mice, podocyte-specific overexpression of RARRES1 resulted in marked glomerular injury and albuminuria, while the overexpression of RARRES1 cleavage mutant had no effect. Conversely, podocyte-specific knockdown of Rarres1 in mice ameliorated glomerular injury in the setting of adriamycin-induced nephropathy. Our study demonstrates an important role and the mechanism of RARRES1 in podocyte injury in glomerular disease.

Authors

Anqun Chen, Ye Feng, Han Lai, Wenjun Ju, Zhengzhe Li, Yu Li, Andrew Wang, Quan Hong, Fang Zhong, Chengguo Wei, Jia Fu, Tianjun Guan, Bichen Liu, Matthias Kretzler, Kyung Lee, John Cijiang He

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Figure 3

RARRES1 is cleaved and released into the supernatants as a highly glycosylated soluble form.

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RARRES1 is cleaved and released into the supernatants as a highly glycos...
(A) Cultured human podocytes were transiently transfected to express control EGFP or C-terminal V5-tagged RARRES1 (RARRES1-V5). Expression of RARRES1 was probed with V5 antibody in the cytoplasmic (C) and membrane (M) fractions in comparison with the total cell lysate (T). Pan-cadherin was used to confirm the membrane protein enrichment in the M fraction. (B) Total cell lysate (CL) or supernatant (Supe) from cultured podocytes expressing control EGFP or C-terminal V5-tagged RARRES1 (RARRES1-V5) was probed for RARRES1 expression using V5 antibody. (C) Total cell lysate or supernatant from cultured podocytes expressing control EGFP or N-terminal FLAG-tagged RARRES1 (FLAG-RARRES1) was probed for RARRES1 expression using FLAG antibodies. (D) Total cell lysate or supernatant from cultured podocytes expressing RARRES1-V5 with or without deglycosylation treatment was probed with V5 antibody. Arrowheads indicate shift in the RARRES1-V5 migration with or without deglycosylation. (E) Total cell lysate or supernatant from cultured podocytes expressing EGFP control, C-terminal V5-tagged RARRES1 with the deletion of aa 43–76 (Δaa43-76-V5), deletion of aa 43–55 (Δaa43-55-V5), or WT RARRES1 (RARRES1-V5) was probed with V5 and RARRES1 antibodies. (F) Supernatant from cultured podocytes expressing C-terminal V5-tagged RARRES1 with the deletion of aa 68–71 (ΔFFNF-V5), alanine substitution of individual amino acids of aa 68–71 as indicated in underlined A residue (AAAA-V5, AFNF-V5, FANF-V5, FFAF-V5, and FFNA-V5), aspartic acid substitution of aa 70 (FFDF-V5), or WT RARRES1 (RARRES1-V5) was probed for expression with V5 antibody. (G) Total cell lysate or supernatant from cultured podocytes expressing EGFP control, C-terminal V5-tagged RARRES1 (RARRES1-V5), or RARRES1 FFAF mutant (FFAF-V5) with or without the treatment of broad-spectrum MMP inhibitor Marimastat (50 μM) were probed with V5 antibody. (H) Total cell lysate, supernatant, or isolated ectosomes (Ecto) from cultured podocytes expressing EGFP control, C-terminal V5-tagged RARRES1 (RARRES1-V5), or RARRES1 FFAF mutant (FFAF-V5) was probed with V5 antibody.