Transcriptomic and physiological analyses reveal temporal changes contributing to the delayed healing response to arterial injury in diabetic rats

Autor: Sampath Narayanan, PhD, Samuel Röhl, MD, PhD, Mariette Lengquist, BS, Malin Kronqvist, MS, Ljubica Matic, PhD, Anton Razuvaev, MD, PhD
Jazyk: angličtina
Rok vydání: 2023
Předmět:
Zdroj: JVS - Vascular Science, Vol 4, Iss , Pp 100111- (2023)
Druh dokumentu: article
ISSN: 2666-3503
DOI: 10.1016/j.jvssci.2023.100111
Popis: Objective: Atherosclerosis is a leading cause of mortality in the rapidly growing population with diabetes mellitus. Vascular interventions in patients with diabetes can lead to complications attributed to defective vascular remodeling and impaired healing response in the vessel wall. In this study, we aim to elucidate the molecular differences in the vascular healing response over time using a rat model of arterial injury applied to healthy and diabetic conditions. Methods: Wistar (healthy) and Goto-Kakizaki (GK, diabetic) rats (n = 40 per strain) were subjected to left common carotid artery (CCA) balloon injury and euthanized at different timepoints: 0 and 20 hours, 5 days, and 2, 4, and 6 weeks. Noninvasive morphological and physiological assessment of the CCA was performed with ultrasound biomicroscopy (Vevo 2100) and corroborated with histology. Total RNA was isolated from the injured CCA at each timepoint, and microarray profiling was performed (n = 3 rats per timepoint; RaGene-1_0-st-v1 platform). Bioinformatic analyses were conducted using R software, DAVID bioinformatic tool, online STRING database, and Cytoscape software. Results: Significant increase in the neointimal thickness (P < .01; two-way analysis of variance) as well as exaggerated negative remodeling was observed after 2 weeks of injury in GK rats compared with heathy rats, which was confirmed by histological analyses. Bioinformatic analyses showed defective expression patterns for smooth muscle cells and immune cell markers, along with reduced expression of key extracellular matrix-related genes and increased expression of pro-thrombotic genes, indicating potential faults on cell regulation level. Transcription factor–protein-protein interaction analysis provided mechanistic evidence with an array of transcription factors dysregulated in diabetic rats. Conclusions: In this study, we have demonstrated that diabetic rats exhibit impaired arterial remodeling characterized by a delayed healing response. We show that increased contractile smooth muscle cell marker expression coincided with decreased matrix metalloproteinase expression, indicating a potential mechanism for a lack of extracellular matrix reorganization in the impaired vascular healing in GK rats. These results further corroborate the higher prevalence of restenosis in patients with diabetes and provide vital molecular insights into the mechanisms contributing to the impaired arterial healing response in diabetes. Moreover, the presented study provides the research community with the valuable longitudinal gene expression data bank for further exploration of diabetic vasculopathy. : Clinical Relevance: Vascular interventions causes injury to the arterial wall, which in turn induces a healing response to restore vessel wall homeostasis. However, in patients with diabetes, such interventions lead to exaggerated healing response and defective remodeling. There is a need to understand the molecular mechanisms underlying the defective healing response in diabetes. In this study, ultrasound biomicroscopy, histology, and microarray profiling were used to demonstrate the transcriptional and physiological changes at various timepoints following arterial injury in healthy Wistar and diabetic GK rats. This study also provides a database of longitudinal transcriptional changes for the research community to study vascular healing in diabetes.
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