Literature DB >> 22338086

Nicorandil as a novel therapy for advanced diabetic nephropathy in the eNOS-deficient mouse.

Katsuyuki Tanabe1, Miguel A Lanaspa, Wataru Kitagawa, Christopher J Rivard, Makoto Miyazaki, Jelena Klawitter, George F Schreiner, Moin A Saleem, Peter W Mathieson, Hirofumi Makino, Richard J Johnson, Takahiko Nakagawa.   

Abstract

Nicorandil is an orally available drug that can act as a nitric oxide donor, an antioxidant, and an ATP-dependent K channel activator. We hypothesized that it may have a beneficial role in treating diabetic nephropathy. We administered nicorandil to a model of advanced diabetic nephropathy (the streptozotocin-induced diabetes in mice lacking endothelial nitric oxide synthase, eNOSKO); controls included diabetic eNOS KO mice without nicorandil and nondiabetic eNOS KO mice treated with either nicorandil or vehicle. Mice were treated for 8 wk. Histology, blood pressure, and renal function were determined. Additional studies involved examining the effects of nicorandil on cultured human podocytes. Here, we found that nicorandil did not affect blood glucose levels, blood pressure, or systemic endothelial function, but significantly reduced proteinuria and glomerular injury (mesangiolysis and glomerulosclerosis). Nicorandil protected against podocyte loss and podocyte oxidative stress. Studies in cultured podocytes showed that nicorandil likely protects against glucose-mediated oxidant stress via the ATP-dependent K channel as opposed to its NO-stimulating effects. In conclusion, nicorandil may be beneficial in diabetic nephropathy by preserving podocyte function. We recommend clinical trials to determine whether nicorandil may benefit diabetic nephropathy or other conditions associated with podocyte dysfunction.

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Year:  2012        PMID: 22338086      PMCID: PMC3362173          DOI: 10.1152/ajprenal.00596.2011

Source DB:  PubMed          Journal:  Am J Physiol Renal Physiol        ISSN: 1522-1466


  38 in total

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  21 in total

1.  [Nicorandil improves cognitive dysfunction in mice with streptozotocin-induced diabetes].

Authors:  Wen-Hui Yan; Chun-Xi Zhang; Tong Xing; Xue Gong; Yu-Xuan Yang; Yi-Nuo Li; Xuan Liu; Jiamaliding Ayijiang; Ye Yu; Meng Zhang; Li-Na Chen
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5.  Proteolytic cleavage of Podocin by Matriptase exacerbates podocyte injury.

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8.  Endogenous fructose production and fructokinase activation mediate renal injury in diabetic nephropathy.

Authors:  Miguel A Lanaspa; Takuji Ishimoto; Christina Cicerchi; Yoshifuru Tamura; Carlos A Roncal-Jimenez; Wei Chen; Katsuyuki Tanabe; Ana Andres-Hernando; David J Orlicky; Esteban Finol; Shinichiro Inaba; Nanxing Li; Christopher J Rivard; Tomoki Kosugi; Laura G Sanchez-Lozada; J Mark Petrash; Yuri Y Sautin; A Ahsan Ejaz; Wataru Kitagawa; Gabriela E Garcia; David T Bonthron; Aruna Asipu; Christine P Diggle; Bernardo Rodriguez-Iturbe; Takahiko Nakagawa; Richard J Johnson
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Review 9.  Review on Biological Characteristics of Kv1.3 and Its Role in Liver Diseases.

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10.  Nicorandil decreases oxidative stress in slow- and fast-twitch muscle fibers of diabetic rats by improving the glutathione system functioning.

Authors:  Sarai Sánchez-Duarte; Sergio Márquez-Gamiño; Rocío Montoya-Pérez; Erick Andrés Villicaña-Gómez; Karla Susana Vera-Delgado; Cipriana Caudillo-Cisneros; Fernando Sotelo-Barroso; Ma Teresa Melchor-Moreno; Elizabeth Sánchez-Duarte
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