D-beta-hydroxybutyrate reduced the enhanced cardiac microvascular endothelial FoxO1 to play protective roles in diabetic rats and high glucose-stimulated human cardiac microvascular endothelial cells.

The O subfamily of forkhead (FoxO) 1 may participate in the pathogenesis of diabetic microvascular endothelial injury. However, it is unknown whether D-beta-hydroxybutyrate (BHB) regulates cardiac microvascular endothelial FoxO1 to play protective roles in diabetes. In the study, limb microvascular morphological changes, endothelial distribution of the tight junction protein Claudin-5 and FoxO1, and FoxO1 content in limb tissue from clinical patients were evaluated. Then the effects of BHB on cardiac microvascular morphological changes, cardiac FoxO1 generation and its microvascular distribution in diabetic rats were measured. And the effects of BHB on FoxO1 generation in high glucose (HG)-stimulated human cardiac microvascular endothelial cells (HCMECs) were further analyzed. The results firstly confirmed the enhanced limb microvascular FoxO1 distribution, with reduced Claudin-5 and endothelial injury in clinical patients. Then the elevated FoxO1 generation and its enhanced cardiac microvascular distribution were verified in diabetic rats and HG-stimulated HCMECs. However, BHB inhibited the enhanced cardiac FoxO1 generation and its microvascular distribution with attenuation of endothelial injury in diabetic rats. Furthermore, BHB reduced the HG-stimulated mRNA expression and protein content of FoxO1 in HCMECs. In conclusion, BHB reduced the enhanced cardiac microvascular endothelial FoxO1 to play protective roles in diabetic rats and HG-stimulated HCMECs. Copyright © 2023 Elsevier Ltd. All rights reserved.

Citation

Feng Zhang, Shuai Wang, Chao Zhao, Di Jiang, Yu Wang, Jinsheng Qi, Yanning Li. D-beta-hydroxybutyrate reduced the enhanced cardiac microvascular endothelial FoxO1 to play protective roles in diabetic rats and high glucose-stimulated human cardiac microvascular endothelial cells. Tissue & cell. 2023 Apr;81:102031

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PMID: 36701897

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