Prkdc participates in mitochondrial genome maintenance and prevents Adriamycin-induced nephropathy in mice
Natalia Papeta, Zongyu Zheng, Eric A. Schon, Sonja Brosel, Mehmet M. Altintas, Samih H. Nasr, Jochen Reiser, Vivette D. D’Agati, Ali G. Gharavi
Natalia Papeta, Zongyu Zheng, Eric A. Schon, Sonja Brosel, Mehmet M. Altintas, Samih H. Nasr, Jochen Reiser, Vivette D. D’Agati, Ali G. Gharavi
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Research Article Nephrology

Prkdc participates in mitochondrial genome maintenance and prevents Adriamycin-induced nephropathy in mice

Abstract

Adriamycin (ADR) is a commonly used chemotherapeutic agent that also produces significant tissue damage. Mutations to mitochondrial DNA (mtDNA) and reductions in mtDNA copy number have been identified as contributors to ADR-induced injury. ADR nephropathy only occurs among specific mouse inbred strains, and this selective susceptibility to kidney injury maps as a recessive trait to chromosome 16A1-B1. Here, we found that sensitivity to ADR nephropathy in mice was produced by a mutation in the Prkdc gene, which encodes a critical nuclear DNA double-stranded break repair protein. This finding was confirmed in mice with independent Prkdc mutations. Overexpression of Prkdc in cultured mouse podocytes significantly improved cell survival after ADR treatment. While Prkdc protein was not detected in mitochondria, mice with Prkdc mutations showed marked mtDNA depletion in renal tissue upon ADR treatment. To determine whether Prkdc participates in mtDNA regulation, we tested its genetic interaction with Mpv17, which encodes a mitochondrial protein mutated in human mtDNA depletion syndromes (MDDSs). While single mutant mice were asymptomatic, Prkdc/Mpv17 double-mutant mice developed mtDNA depletion and recapitulated many MDDS and ADR injury phenotypes. These findings implicate mtDNA damage in the development of ADR toxicity and identify Prkdc as a MDDS modifier gene and a component of the mitochondrial genome maintenance pathway.

Authors

Natalia Papeta, Zongyu Zheng, Eric A. Schon, Sonja Brosel, Mehmet M. Altintas, Samih H. Nasr, Jochen Reiser, Vivette D. D’Agati, Ali G. Gharavi

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Figure 4

mtDNA depletion in ADR nephropathy.

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mtDNA depletion in ADR nephropathy. (A) qPCR analysis of kidney mtDNA le...
(A) qPCR analysis of kidney mtDNA levels demonstrates mtDNA depletion at day 14 after ADR treatment in (BALB × B6) F2 mice homozygous for the susceptibility alleles at the Prkdc locus (BALB/BALB mice, n = 8), compared with those of mice with the BALB/B6 or B6/B6 genotypes (n = 6). mtDNA levels are presented as a mtDNA/nuDNA ratio, calculated for the mitochondria-encoded COX1 and nuclear-encoded Rn18s genes, standardized to the B6 control sample. (B) Southern blot of total kidney DNA from parental strains and representative ADR-treated (B6 × BALB) F2 mice shown in A. The positions of COX1 and Rn18s genes are indicated by bars, and the Prkdc genotypes are indicated. (C) Time-course analysis (qPCR) of mtDNA levels in ADR-treated mice shows marked mtDNA depletion by 14 days in BALB mice (n = 3 per strain at each time point). C, control. (D) The Western blot shows ADR-induced changes in Tfam levels, which corresponded to changes in mtDNA levels in C. (EG) Confocal microscopy of podocytes demonstrates that Prkdc (green staining) is localized to the nucleus but is not colocalized with a mitochondria marker (Mitotraker red [MitoR]). Original magnification: 230 × 230 microns (EG).