HuR/Cx40 downregulation causes coronary microvascular dysfunction in type 2 diabetes
Rui Si, Jody Tori O. Cabrera, Atsumi Tsuji-Hosokawa, Rui Guo, Makiko Watanabe, Lei Gao, Yun Sok Lee, Jae-Su Moon, Brian T. Scott, Jian Wang, Anthony W. Ashton, Jaladanki N. Rao, Jian-Ying Wang, Jason X.-J. Yuan, Ayako Makino
Rui Si, Jody Tori O. Cabrera, Atsumi Tsuji-Hosokawa, Rui Guo, Makiko Watanabe, Lei Gao, Yun Sok Lee, Jae-Su Moon, Brian T. Scott, Jian Wang, Anthony W. Ashton, Jaladanki N. Rao, Jian-Ying Wang, Jason X.-J. Yuan, Ayako Makino
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Research Article Vascular biology

HuR/Cx40 downregulation causes coronary microvascular dysfunction in type 2 diabetes

Abstract

Patients with diabetes with coronary microvascular disease (CMD) exhibit higher cardiac mortality than patients without CMD. However, the molecular mechanism by which diabetes promotes CMD is poorly understood. RNA-binding protein human antigen R (HuR) is a key regulator of mRNA stability and translation; therefore, we investigated the role of HuR in the development of CMD in mice with type 2 diabetes. Diabetic mice exhibited decreases in coronary flow velocity reserve (CFVR; a determinant of coronary microvascular function) and capillary density in the left ventricle. HuR levels in cardiac endothelial cells (CECs) were significantly lower in diabetic mice and patients with diabetes than the controls. Endothelial-specific HuR-KO mice also displayed significant reductions in CFVR and capillary density. By examining mRNA levels of 92 genes associated with endothelial function, we found that HuR, Cx40, and Nox4 levels were decreased in CECs from diabetic and HuR-KO mice compared with control mice. Cx40 expression and HuR binding to Cx40 mRNA were downregulated in CECs from diabetic mice. Cx40-KO mice exhibited decreased CFVR and capillary density, whereas endothelium-specific Cx40 overexpression increased capillary density and improved CFVR in diabetic mice. These data suggest that decreased HuR contributes to the development of CMD in diabetes through downregulation of gap junction protein Cx40 in CECs.

Authors

Rui Si, Jody Tori O. Cabrera, Atsumi Tsuji-Hosokawa, Rui Guo, Makiko Watanabe, Lei Gao, Yun Sok Lee, Jae-Su Moon, Brian T. Scott, Jian Wang, Anthony W. Ashton, Jaladanki N. Rao, Jian-Ying Wang, Jason X.-J. Yuan, Ayako Makino

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Figure 2

HuR protein levels in cardiac endothelial cells from control and diabetic mice and patients.

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HuR protein levels in cardiac endothelial cells from control and diabeti...
(A) Western blots showing HuR and Actin protein levels in mouse cardiac endothelial cells (CECs) (left panel). The right dot plot shows HuR protein level normalized to Actin. Cont, nmice = 8; Dia, nmice = 9. *P < 0.05 versus Cont. (B) Photomicrographs show typical images of HuR expression in CECs. CECs were stained with HuR (green) and Hoechst (nuclear staining, blue). The right dot plot shows averaged data of HuR intensity. Scale bar: 10 μm. Cont, ncells = 15; Dia, ncells = 21. Three mice were used per group. *P < 0.05 versus Cont. (C) Representative image of Western blots showing HuR and Actin protein levels in CECs from Tallyho mice (TH, spontaneous T2D mice, nmice=5) and WT mice (nmice = 5) (left panel). Dots plot shows summarized data (right panel). *P < 0.05 versus WT. (D) HuR protein level in human CECs from control patients (Cont, npatients = 4) and patients with diabetes (Dia, npatients = 4). *P < 0.05 versus Cont. Data are presented as mean ± SEM. Unpaired Student’s t test (2-tailed) was used for comparisons of 2 experimental groups in A and C. Nonparametric, Mann-Whitney U test, was used in B and D.