A ROCK1 Inhibitior Fasudil Alleviates Cardiomyocyte Apoptosis in Diabetic Cardiomyopathy by Inhibiting Mitochondrial Fission in a Type 2 Diabetes Mouse Model

Diabetes mellitus (DM) often involves cardiovascular complications; however, treatment regimens are limited. ROCK1 (rho-associated coiled-coil containing protein kinase 1) serves as a pathological factor in several diabetic complications. Herein, we aimed to explore the effect of Fasudil (a ROCK1 in...

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Published inFrontiers in pharmacology Vol. 13; p. 892643
Main Authors Fan, Xinhui, Li, Xiaoxing, Liu, Huiruo, Xu, Feng, Ji, Xiaoping, Chen, Yuguo, Li, Chuanbao
Format Journal Article
LanguageEnglish
Published Frontiers Media S.A 05.07.2022
Subjects
diabetic cardiomyopathy
DRP1
fasudil
mitochondrial fission
Pharmacology
ROCK1
type 2 diabetes
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Abstract Diabetes mellitus (DM) often involves cardiovascular complications; however, treatment regimens are limited. ROCK1 (rho-associated coiled-coil containing protein kinase 1) serves as a pathological factor in several diabetic complications. Herein, we aimed to explore the effect of Fasudil (a ROCK1 inhibitor) on the progress of cardiac dysfunction in type 2 DM (T2DM), and to explore the possible mechanisms. Type II diabetic mice models were established by inducing insulin resistance through a high-fat diet combined with low-dose streptozotocin (STZ) injection. NMCMs (neonatal mouse ventricular cardiac myocytes) in the control group were treated with 5.5 mM glucose, while those in the High Glucose (HG) group were treated with 33 mM glucose and 10 nmol/L insulin. In vivo , we found that type 2 diabetes enhanced the expression and activation of ROCK1 ( p < 0.05). The ROCK1 inhibitor, Fasudil, prevented cardiac dysfunction, fibrosis, oxidative stress and myocardial ultrastructural disorders ( p < 0.05) in the diabetic mice. In vitro , ROCK1 was upregulated in HG-induced cardiomyocytes, and ROCK1 inhibition using Fasudil reversed the increased apoptosis, consistent with in vivo results. Mechanistically, ROCK1 inhibition abrogated apoptosis, relieved mitochondrial fission, and efficiently attenuated the escalated production of reactive oxygen species in vitro and in vivo . The content of Ser616-phosphorylated dynamin-related protein 1 (Drp1) increased while ROCK1 led to apoptosis in HG-treated cardiomyocytes, which could be partly neutralized by ROCK1 inhibition with Fasudil, consistent with the in vivo results. Fasudil attenuated the cardiac dysfunction in diabetes by decreasing excessive mitochondrial fission via inhibiting Drp1 phosphorylation at serine 616.
AbstractList Diabetes mellitus (DM) often involves cardiovascular complications; however, treatment regimens are limited. ROCK1 (rho-associated coiled-coil containing protein kinase 1) serves as a pathological factor in several diabetic complications. Herein, we aimed to explore the effect of Fasudil (a ROCK1 inhibitor) on the progress of cardiac dysfunction in type 2 DM (T2DM), and to explore the possible mechanisms. Type II diabetic mice models were established by inducing insulin resistance through a high-fat diet combined with low-dose streptozotocin (STZ) injection. NMCMs (neonatal mouse ventricular cardiac myocytes) in the control group were treated with 5.5 mM glucose, while those in the High Glucose (HG) group were treated with 33 mM glucose and 10 nmol/L insulin. In vivo , we found that type 2 diabetes enhanced the expression and activation of ROCK1 ( p < 0.05). The ROCK1 inhibitor, Fasudil, prevented cardiac dysfunction, fibrosis, oxidative stress and myocardial ultrastructural disorders ( p < 0.05) in the diabetic mice. In vitro , ROCK1 was upregulated in HG-induced cardiomyocytes, and ROCK1 inhibition using Fasudil reversed the increased apoptosis, consistent with in vivo results. Mechanistically, ROCK1 inhibition abrogated apoptosis, relieved mitochondrial fission, and efficiently attenuated the escalated production of reactive oxygen species in vitro and in vivo . The content of Ser616-phosphorylated dynamin-related protein 1 (Drp1) increased while ROCK1 led to apoptosis in HG-treated cardiomyocytes, which could be partly neutralized by ROCK1 inhibition with Fasudil, consistent with the in vivo results. Fasudil attenuated the cardiac dysfunction in diabetes by decreasing excessive mitochondrial fission via inhibiting Drp1 phosphorylation at serine 616.
Diabetes mellitus (DM) often involves cardiovascular complications; however, treatment regimens are limited. ROCK1 (rho-associated coiled-coil containing protein kinase 1) serves as a pathological factor in several diabetic complications. Herein, we aimed to explore the effect of Fasudil (a ROCK1 inhibitor) on the progress of cardiac dysfunction in type 2 DM (T2DM), and to explore the possible mechanisms. Type II diabetic mice models were established by inducing insulin resistance through a high-fat diet combined with low-dose streptozotocin (STZ) injection. NMCMs (neonatal mouse ventricular cardiac myocytes) in the control group were treated with 5.5 mM glucose, while those in the High Glucose (HG) group were treated with 33 mM glucose and 10 nmol/L insulin. In vivo, we found that type 2 diabetes enhanced the expression and activation of ROCK1 (p < 0.05). The ROCK1 inhibitor, Fasudil, prevented cardiac dysfunction, fibrosis, oxidative stress and myocardial ultrastructural disorders (p < 0.05) in the diabetic mice. In vitro, ROCK1 was upregulated in HG-induced cardiomyocytes, and ROCK1 inhibition using Fasudil reversed the increased apoptosis, consistent with in vivo results. Mechanistically, ROCK1 inhibition abrogated apoptosis, relieved mitochondrial fission, and efficiently attenuated the escalated production of reactive oxygen species in vitro and in vivo. The content of Ser616-phosphorylated dynamin-related protein 1 (Drp1) increased while ROCK1 led to apoptosis in HG-treated cardiomyocytes, which could be partly neutralized by ROCK1 inhibition with Fasudil, consistent with the in vivo results. Fasudil attenuated the cardiac dysfunction in diabetes by decreasing excessive mitochondrial fission via inhibiting Drp1 phosphorylation at serine 616.
Author Fan, Xinhui
Xu, Feng
Ji, Xiaoping
Chen, Yuguo
Liu, Huiruo
Li, Chuanbao
Li, Xiaoxing
AuthorAffiliation 2 Key Laboratory of Emergency and Critical Care Medicine of Shandong Province , Qilu Hospital , Shandong University , Jinan , China
3 The Key Laboratory of Cardiovascular Remodeling and Function Research , Chinese Ministry of Education and Chinese Ministry of Public Health , Qilu Hospital , Shandong University , Jinan , China
1 Department of Emergency Medicine and Chest Pain Center , Qilu Hospital of Shandong University , Cheeloo College of Medicine , Shandong University , Jinan , China
4 Department of Geriatrics , Qilu Hospital , Shandong University , Jinan , China
AuthorAffiliation_xml – name: 1 Department of Emergency Medicine and Chest Pain Center , Qilu Hospital of Shandong University , Cheeloo College of Medicine , Shandong University , Jinan , China
– name: 4 Department of Geriatrics , Qilu Hospital , Shandong University , Jinan , China
– name: 2 Key Laboratory of Emergency and Critical Care Medicine of Shandong Province , Qilu Hospital , Shandong University , Jinan , China
– name: 3 The Key Laboratory of Cardiovascular Remodeling and Function Research , Chinese Ministry of Education and Chinese Ministry of Public Health , Qilu Hospital , Shandong University , Jinan , China
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This article was submitted to Cardiovascular and Smooth Muscle Pharmacology, a section of the journal Frontiers in Pharmacology
Li Chu, Hebei Medical University, China
Reviewed by: Vijay Avin Balaji Ragunathrao, University of Illinois at Chicago, United States
Edited by: Prasanth Puthanveetil, Midwestern University, United States
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Snippet Diabetes mellitus (DM) often involves cardiovascular complications; however, treatment regimens are limited. ROCK1 (rho-associated coiled-coil containing...
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SubjectTerms diabetic cardiomyopathy
DRP1
fasudil
mitochondrial fission
Pharmacology
ROCK1
type 2 diabetes
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Title A ROCK1 Inhibitior Fasudil Alleviates Cardiomyocyte Apoptosis in Diabetic Cardiomyopathy by Inhibiting Mitochondrial Fission in a Type 2 Diabetes Mouse Model
URI https://search.proquest.com/docview/2693775611
https://pubmed.ncbi.nlm.nih.gov/PMC9294374
https://doaj.org/article/a22f7aaeae284258a3bfff1d4b1af1ca
Volume 13
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