Islet transplantation attenuates cardiac fibrosis in diabetic rats through inhibition of TGF-β 1 /Smad3 pathway

Islet transplantation attenuates cardiac fibrosis in diabetic rats through inhibition of TGF-β 1 /Smad3 pathway

Although islet transplantation has been identified as a promising endocrine replacement treatment for patient with diabetes mellitus (DM), it still remains unclear whether islet transplantation can inhibit the diabetic-induced myocardial injury and subsequent adverse ventricular remodeling. Here, we...

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Veröffentlicht in:American journal of translational research 2018, Vol.10 (8), p.2445
Hauptverfasser: Wang, Hong-Wei, Chen, Yi-He, Chen, Yan-Yan, Huang, Wei, Zhu, Xian-Dong, Ni, Fu-Biao, Wu, Guo-Di, Xu, Zi-Qiang, Huang, Zhou-Qing, Chen, Bi-Cheng, Xiao, Fang-Yi
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container_issue 8
container_start_page 2445
container_title American journal of translational research
container_volume 10
creator Wang, Hong-Wei
Chen, Yi-He
Chen, Yan-Yan
Huang, Wei
Zhu, Xian-Dong
Ni, Fu-Biao
Wu, Guo-Di
Xu, Zi-Qiang
Huang, Zhou-Qing
Chen, Bi-Cheng
Xiao, Fang-Yi
description Although islet transplantation has been identified as a promising endocrine replacement treatment for patient with diabetes mellitus (DM), it still remains unclear whether islet transplantation can inhibit the diabetic-induced myocardial injury and subsequent adverse ventricular remodeling. Here, we sought to explore the molecular mechanism underlying the cardioprotective effect of islet transplantation. We established the diabetic rat model by intraperitoneal injection of STZ, which was followed by either islet transplantation or conventional insulin treatment. Compared with insulin treatment, islet transplantation further reduced the elevated blood glucose which was nearly restored to normoglycaemia. In addition, islet transplantation attenuated the increased levels of cTn-I and CK-MB, cleaved-caspase-3 in response to DM, and ameliorated diabetic-induced cardiac hypertrophy and interstitial fibrosis, along with improved extracellular matrix (ECM) deposition. Moreover, diabetic rats that underwent islet transplantation had lower expression of TGF-β1 and lower phosphorylation levels of Smad3. Therefore, islet transplantation exerted protective effect against diabetic-induced myocardial injury and fibrotic remodeling through deactivation of TGF-β /Smad3 signaling pathway.
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title Islet transplantation attenuates cardiac fibrosis in diabetic rats through inhibition of TGF-β 1 /Smad3 pathway
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