AI Article Synopsis
- Atherosclerotic cardiovascular diseases are the top cause of death for diabetic patients, with dysfunctional endothelial cells being a key factor in their development, especially in diabetes.
- KLF11, a protein linked to diabetes, is found to play a protective role in vascular health, but its involvement in diabetic atherosclerosis was previously unknown.
- Research reveals that a lack of KLF11 worsens atherosclerosis in diabetic mice, while increased KLF11 levels help prevent it; this suggests that targeting KLF11 could lead to new treatments for cardiovascular issues in diabetes.
Article Abstract
Background: Atherosclerotic cardiovascular diseases remain the leading cause of mortality in diabetic patients, with endothelial cell (EC) dysfunction serving as the initiating step of atherosclerosis, which is exacerbated in diabetes. Krüppel-like factor 11 (KLF11), known for its missense mutations leading to the development of diabetes in humans, has also been identified as a novel protector of vascular homeostasis. However, its role in diabetic atherosclerosis remains unexplored.
Methods: Diabetic atherosclerosis was induced in both EC-specific KLF11 transgenic and knockout mice in the Ldlr background by feeding a diabetogenic diet with cholesterol (DDC). Single-cell RNA sequencing (scRNA-seq) was utilized to profile EC dysfunction in diabetic atherosclerosis. Additionally, gain- and loss-of-function experiments were conducted to investigate the role of KLF11 in hyperglycemia-induced endothelial cell dysfunction.
Results: We found that endothelial KLF11 deficiency significantly accelerates atherogenesis under diabetic conditions, whereas KLF11 overexpression remarkably inhibits it. scRNA-seq profiling demonstrates that loss of KLF11 increases endothelial-to-mesenchymal transition (EndMT) during atherogenesis under diabetic conditions. Utilizing gain- and loss-of-function approaches, our in vitro study reveals that KLF11 significantly inhibits EC inflammatory activation and TXNIP-induced EC oxidative stress, as well as Notch1/Snail-mediated EndMT under high glucose exposure.
Conclusion: Our study demonstrates that endothelial KLF11 is an endogenous protective factor against diabetic atherosclerosis. These findings indicate that manipulating KLF11 could be a promising approach for developing novel therapies for diabetes-related cardiovascular complications.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11514907 | PMC |
| http://dx.doi.org/10.1186/s12933-024-02473-y | DOI Listing |
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