Yusuke Sakamaki scite author profile

The protective role of Sirt1 in renal damage was investigated. Sirt1 in proximal tubules (PT) was downregulated before albuminuria occurred in streptozotocin-induced or obese-type (db/db) diabetic mice. PT-specific Sirt1 transgenic (TG) and knockout (KO) mice showed prevention and aggravation of the glomerular changes occurring in diabetes, respectively, and non-diabetic KO mice exhibited albuminuria, suggesting that Sirt1 in PT affects glomerular function. Downregulation of Sirt1 and upregulation of the tight junction protein Claudin-1 by Sirt1-mediated epigenetic regulation in podocytes contributed to albuminuria. These phenomena were not observed in 5/6 nephrectomized mice. We also demonstrated retrograde interplay from PT to glomeruli using nicotinamide mononucleotide (NMN) from conditioned medium, measurement of the auto-fluorescence of photoactivatable NMN, and injection of fluorescence-labeled NMN. In human subjects with diabetes, Sirt1 and Claudin-1 levels were correlated with proteinuria level. Sirt1 in PT protects against albuminuria in diabetes through maintaining NMN concentrations around glomeruli and controlling podocyte function.

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KLF4-dependent epigenetic remodeling modulates podocyte phenotypes and attenuates proteinuria

Hayashi¹,

Sasamura²,

Nakamura³

et al. 2014

J. Clin. Invest.

102

117

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The transcription factor Kruppel-like factor 4 (KLF4) has the ability, along with other factors, to reprogram somatic cells into induced pluripotent stem (iPS) cells. Here, we determined that KLF4 is expressed in kidney glomerular podocytes and is decreased in both animal models and humans exhibiting a proteinuric. Transient restoration of KLF4 expression in podocytes of diseased glomeruli in vivo, either by gene transfer or transgenic expression, resulted in a sustained increase in nephrin expression and a decrease in albuminuria. In mice harboring podocyte-specific deletion of Klf4, adriamycin-induced proteinuria was substantially exacerbated, although these animals displayed minimal phenotypical changes prior to adriamycin administration. KLF4 overexpression in cultured human podocytes increased expression of nephrin and other epithelial markers and reduced mesenchymal gene expression. DNA methylation profiling and bisulfite genomic sequencing revealed that KLF4 expression reduced methylation at the nephrin promoter and the promoters of other epithelial markers; however, methylation was increased at the promoters of genes encoding mesenchymal markers, suggesting selective epigenetic regulation of podocyte gene expression. Together, these results suggest that KLF4 epigenetically modulates podocyte phenotype and function and that the podocyte epigenome can be targeted for direct intervention and reduction of proteinuria.

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Pre-emptive Short-term Nicotinamide Mononucleotide Treatment in a Mouse Model of Diabetic Nephropathy

Yasuda

Hara

Sakamaki

et al. 2021

JASN

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BackgroundThe activation of NAD+-dependent deacetylase, Sirt1, by the administration of nicotinamide mononucleotide (NMN) ameliorates various aging-related diseases.MethodsDiabetic db/db mice were treated with NMN transiently for 2 weeks and observed for effects on diabetic nephropathy (DN).ResultsAt 14 weeks after the treatment period, NMN attenuated the increases in urinary albumin excretion in db/db mice without ameliorating hemoglobin A1c levels. Short-term NMN treatment mitigated mesangium expansion and foot process effacement, while ameliorating decreased Sirt1 expression and increased claudin-1 expression in the kidneys of db/db mice. This treatment also improved the decrease in the expression of H3K9me2 and DNMT1. Short-term NMN treatment also increased kidney concentrations of NAD+ and the expression of Sirt1 and nicotinamide phosphoribosyltransferase (Nampt), and it maintained nicotinamide mononucleotide adenyltransferase1 (Nmnat1) expression in the kidneys. In addition, survival rates improved after NMN treatment.Conclusions:Short-term NMN treatment in early-stage DN has remote renal protective effects through the upregulation of Sirt1 and activation of the NAD+ salvage pathway, both of which indicate NMN legacy effects on DN.

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Developmental Activity of the Renin-Angiotensin System during the "Critical Period" Modulates Later L-NAME-Induced Hypertension and Renal Injury

et al. 2007

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The incidence of hypertension and hypertensive renal disease is increasing worldwide, and new strategies to prevent these diseases need to be investigated. The aims of this study were 1) to examine if transient exposure to an angiotensin receptor blocker (ARB) during an early period in hypertension development confers protection against subsequent worsening of hypertension and renal injury induced by the NO synthase inhibitor N G -nitro-L-arginine methyl ester (L-NAME), and 2) conversely, to examine the effects of transient exposure to angiotensin II (Ang II) during the same period. First, spontaneously hypertensive rats (SHR) were treated transiently from age 3 to 10 weeks with an ARB (candesartan cilexetil), a calcium channel antagonist or a vasodilator, then taken off treatment for 2 months. Administration of L-NAME at age 18 weeks caused severe hypertension and renal injury. However, the rats that had been exposed to the ARB not only had a lower blood pressure, but also failed to show signs of renal injury or increase of oxidative stress. Furthermore, the elevation of components of the renin-angiotensin-aldosterone system was also suppressed in these rats. In the second study, Wistar-Kyoto rats (WKY) and SHR were exposed to Ang II from age 4 to 8 weeks. The follow-up showed that the blood pressures in the WKY remained elevated compared to controls, while the SHR had heightened increases in blood pressure, renal renin mRNA, and urinary 8-hyroxydeoxyguanosine after L-NAME administration. Together, these experiments demonstrate that transient treatment of rats during an early phase in the development of hypertension with an ARB suppresses the renin-angiotensin-aldosterone system and confers long-term protection against subsequent L-NAMEinduced renal injury and increases in renal oxidative stress. Conversely, developmental exposure to Ang II during this "critical" period had the opposite effect, predisposing rats to higher blood pressure, renal injury, and oxidative stress after L-NAME administration. (Hypertens Res 2007; 30: 63-75)

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Role of Nampt-Sirt6 Axis in Renal Proximal Tubules in Extracellular Matrix Deposition in Diabetic Nephropathy

et al. 2019

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Yusuke Sakamaki

Renal tubular Sirt1 attenuates diabetic albuminuria by epigenetically suppressing Claudin-1 overexpression in podocytes

KLF4-dependent epigenetic remodeling modulates podocyte phenotypes and attenuates proteinuria

Pre-emptive Short-term Nicotinamide Mononucleotide Treatment in a Mouse Model of Diabetic Nephropathy

Developmental Activity of the Renin-Angiotensin System during the "Critical Period" Modulates Later L-NAME-Induced Hypertension and Renal Injury

Role of Nampt-Sirt6 Axis in Renal Proximal Tubules in Extracellular Matrix Deposition in Diabetic Nephropathy

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