Renanah Eshet scite author profile

Renanah Eshet

3Publications

44Citation Statements Received

82Citation Statements Given

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101

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Ben-Gurion University of the Negev

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Increased renal Akt/mTOR and MAPK signaling in type I diabetes in the absence of IGF type 1 receptor activation

Landau

Eshet

Troib

et al. 2009

Endocr

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Growth hormone (GH) and IGF-I have been implicated in the pathogenesis of type I diabetic (DM) nephropathy. We investigated renal GH receptor (GHR) and IGF-type 1 receptor (IGF1R) signaling in an animal model of type I DM. Kidney tissue was examined for GHR and IGF1R key signaling molecules. GHR levels were unchanged and IGF-I mRNA levels were decreased in the diabetic group (D). Basal and GH stimulated phosphorylated (p-) JAK2 and STAT5 levels were similar in controls (C) and D. The levels of p-IGF1R were similar in the two groups at baseline, while pAkt, pGSK3, p-mTOR, p-rpS6, p-erk1/2 (Mapk), and pSTAT-3 were increased in D. Following IGF-I administration p-Akt, p-rpS6, p-Mapk, and p-GSK levels increased more pronouncedly in D versus C. In conclusion, the lack of JAK2-STAT5 activation and the decrease in kidney IGF-I mRNA levels in D argue against a role for the GH activated JAK2-STAT5 pathway in the pathogenesis of diabetic nephropathy. On the other hand while IGF1R phosphorylation was unchanged, Akt/mTOR and MAPK signaling were hyperactivate in DM, suggesting their involvement. The increase in baseline activated Akt, mTOR, rpS6, and MAPK cannot be explained by activation of the IGF1R, but may be triggered by other growth factors and nutrients.

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Comparison between somatostatin analogues and ACE inhibitor in the NOD mouse model of diabetic kidney disease

Segev

Eshet²,

Rivkis³

et al. 2004

Nephrology Dialysis Transplantation

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Systemic and renal growth hormone–IGF1 axis involvement in a mouse model of type 2 diabetes

et al. 2007

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Aims/hypothesis In previous studies we have shown a significant involvement of the growth hormone (GH)-IGF axis in animal models of type 1 diabetes mellitus, but the role of this endocrine system in type 2 diabetes mellitus is less well characterised. We therefore examined the endocrine and renal GH-IGF axis changes in db/db mice, a model of type 2 diabetes mellitus and nephropathy. Materials and methods Obese and lean animals were followed, beginning at hyperglycaemia onset, for 4 weeks. Albuminuria and creatinine clearance, as well as kidney and glomerular morphology were assessed. Tissue protein levels were determined by western blotting and mRNA levels by RT-PCR.Results Serum GH and IGF1 levels immediately prior to killing were decreased and liver mRNA levels of insulinlike growth factor binding protein 1 (Igfbp1) were increased in obese animals. Kidney weight was increased in obese animals, associated with hyperfiltration, albuminuria and glomerular hypertrophy. Administration of a somatostatin analogue (PTR-313) did not improve any of these parameters of diabetic renal involvement. Renal Igf1 mRNA was decreased and renal Igfbp1 mRNA and protein were significantly increased in obese animals. Renal insulindriven levels of phosphorylated forkhead box O1 (FOXO1) were decreased in obese animals. Conclusions/interpretation Diabetic db/db mice show significant renal changes (and IGFBP1 renal accumulation), similar to the findings in models of type 1 diabetes mellitus. A decreased signalling through the insulin receptor and decreased FOXO1 phosphorylation may allow Igfbp1 gene transcription. These renal changes are associated with low circulating IGF1 and GH levels and unchanged hepatic growth hormone receptor expression, unlike the condition in type 1 diabetes mellitus. This suggests that further GH inhibition to modulate renal complications in type 2 diabetes mellitus is not indicated.

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Renanah Eshet

Increased renal Akt/mTOR and MAPK signaling in type I diabetes in the absence of IGF type 1 receptor activation

Comparison between somatostatin analogues and ACE inhibitor in the NOD mouse model of diabetic kidney disease

Systemic and renal growth hormone–IGF1 axis involvement in a mouse model of type 2 diabetes

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