Null mutations at the p66 and bradykinin 2 receptor loci induce divergent phenotypes in the diabetic kidney

Authors

Himanshu Vashistha, LSU Health Sciences Center - New OrleansFollow
Pravin C. Singhal, North Shore Long Island Jewish Health System, New York, NY
Ashwani Malhotra, North Shore Long Island Jewish Health System, New York, NY
Mohammad Husain, North Shore Long Island Jewish Health System, New York, NY
Peter Mathieson, Bristol Children's Hospital, Bristol, United Kingdom
Moin A. Saleem, Bristol Children's Hospital, Bristol, United Kingdom
Cyril Kuriakose, Boston University School of Medicine, Boston, MA
Surya Seshan, Weill Cornell Medical College, New York, NY
Anna Wilk, LSU Health Sciences Center - New Orleans
Luis Del Valle, LSU Health Sciences Center- New OrleansFollow
Francesca Peruzzi, LSU Health Sciences Center - New OrleansFollow
Marco Giorgio, European Institute of Oncology, Milan, Italy
Pier Giuseppe Pelicci, European Institute of Oncology, Milan, Italy
Oliver Smithies, University of North Carolina, Chapel Hill, NC
Hyung-Suk Kim, University of North Carolina, Chapel Hill, NC
Masao Kakoki, University of North Carolina, Chapel Hill, NC
Krzysztof Reiss, LSU Health Sciences Center - New OrleansFollow
Leonard G. Meggs, LSU Health Sciences Center - New Orleans

Document Type

Article

Publication Date

12-15-2012

Publication Title

American Journal of Physiology. Renal Physiology

Abstract

Candidate genes have been identified that confer increased risk for diabetic glomerulosclerosis (DG). Mice heterozygous for the Akita (Ins2(+/C96Y)) diabetogenic mutation with a second mutation introduced at the bradykinin 2 receptor (B2R(-/-)) locus express a disease phenotype that approximates human DG. Src homology 2 domain transforming protein 1 (p66) controls mitochondrial metabolism and cellular responses to oxidative stress, aging, and apoptosis. We generated p66-null Akita mice to test whether inactivating mutations at the p66 locus will rescue kidneys of Akita mice from disease-causing mutations at the Ins2 and B2R loci. Here we show null mutations at the p66 and B2R loci interact with the Akita (Ins2(+/C96Y)) mutation, independently and in combination, inducing divergent phenotypes in the kidney. The B2R(-/-) mutation induces detrimental phenotypes, as judged by increased systemic and renal levels of oxidative stress, histology, and urine albumin excretion, whereas the p66-null mutation confers a powerful protection phenotype. To elucidate the mechanism(s) of the protection phenotype, we turned to our in vitro system. Experiments with cultured podocytes revealed previously unrecognized cross talk between p66 and the redox-sensitive transcription factor p53 that controls hyperglycemia-induced ROS metabolism, transcription of p53 target genes (angiotensinogen, angiotensin II type-1 receptor, and bax), angiotensin II generation, and apoptosis. RNA-interference targeting p66 inhibits all of the above. Finally, protein levels of p53 target genes were upregulated in kidneys of Akita mice but unchanged in p66-null Akita mice. Taken together, p66 is a potential molecular target for therapeutic intervention in DG.

First Page

F1629

Last Page

F1640

PubMed ID

23019230

Volume

303

Issue

12

Recommended Citation

Vashistha, Himanshu; Singhal, Pravin C.; Malhotra, Ashwani; Husain, Mohammad; Mathieson, Peter; Saleem, Moin A.; Kuriakose, Cyril; Seshan, Surya; Wilk, Anna; Del Valle, Luis; Peruzzi, Francesca; Giorgio, Marco; Pelicci, Pier Giuseppe; Smithies, Oliver; Kim, Hyung-Suk; Kakoki, Masao; Reiss, Krzysztof; and Meggs, Leonard G., "Null mutations at the p66 and bradykinin 2 receptor loci induce divergent phenotypes in the diabetic kidney" (2012). School of Medicine Faculty Publications. 2005.
https://digitalscholar.lsuhsc.edu/som_facpubs/2005
10.1152/ajprenal.00246.2012