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Integrin ?1/Akita double-knockout mice on a Balb/c background develop advanced features of human diabetic nephropathy.


ABSTRACT: Animal models that mimic human diabetic nephropathy are useful to identify key factors in pathogenesis of this disease, as well as the development of new therapies. Several mouse models of diabetes have features of human diabetic nephropathy, yet none of these completely fulfill the Animal Models of Diabetes Complications Consortium criteria and completely reproduce pathological and functional features of the human disease. The Akita mouse carries a mutation in the insulin-2 gene and, to date, only survives as heterozygotes that develop spontaneous type 1 diabetes. Here we show that Akita mice with mutation of both insulin-2 alleles (Akita knockout (KO)) survive if crossed onto the Balb/c background. These mice develop hyperglycemia, more severe albuminuria, and mesangial sclerosis compared with heterozygous mice on the same genetic background. Interestingly, crossing these AkitaKO mice with integrin ?1KO mice, a model of exacerbated glomerulosclerosis after injury and also on the Balb/c background, resulted in a 16-fold increase in albuminuria, significant mesangial matrix expansion, nodular and diffuse glomerulosclerosis, and a 2-fold increase in glomerular basement membrane thickening when compared with nondiabetic mice. Moreover, a significant decline in glomerular filtration was evident in the ?1KOAkitaKO mice at 6 months of age. Thus, the integrin ?1KOAkitaKO Balb/c mouse represents a promising model presenting with most features of human diabetic nephropathy.

SUBMITTER: Yu L 

PROVIDER: S-EPMC3345314 | biostudies-literature | 2012 Jun

REPOSITORIES: biostudies-literature

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Integrin α1/Akita double-knockout mice on a Balb/c background develop advanced features of human diabetic nephropathy.

Yu Ling L   Su Yan Y   Paueksakon Paisit P   Cheng Huifang H   Chen Xiwu X   Wang Hongtao H   Harris Raymond C RC   Zent Roy R   Pozzi Ambra A  

Kidney international 20120201 11


Animal models that mimic human diabetic nephropathy are useful to identify key factors in pathogenesis of this disease, as well as the development of new therapies. Several mouse models of diabetes have features of human diabetic nephropathy, yet none of these completely fulfill the Animal Models of Diabetes Complications Consortium criteria and completely reproduce pathological and functional features of the human disease. The Akita mouse carries a mutation in the insulin-2 gene and, to date, o  ...[more]

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