AI Article Synopsis
- Endothelial cells (ECs) are crucial for blood vessel formation and remodeling, but their diversity during development is not well understood; this study aims to explore the transcriptional differences among embryonic ECs and how these change when the microRNA-126 gene is specifically removed.
- Using advanced techniques like single-cell RNA sequencing, researchers identified 11 distinct groups of embryonic ECs, noting their greater growth potential compared to adult ECs; disruptions caused by miR-126 knockout were linked to specific vascular problems and metabolic changes.
- The findings suggest that EC heterogeneity starts in early development and that loss of miR-126 leads to significant disorganization and dysfunction in certain EC populations, which can be partially reversed by introducing
Article Abstract
Background: Endothelial cells (ECs) play a critical role in angiogenesis and vascular remodeling. The heterogeneity of ECs has been reported at adult stages, yet it has not been fully investigated. This study aims to assess the transcriptional heterogeneity of developmental ECs at spatiotemporal level and to reveal the changes of embryonic ECs clustering when endothelium-enriched microRNA-126 (miR-126) was specifically knocked out.
Methods: C57BL/6J mice embryos at day 14.5 were harvested and digested, followed by fluorescence-activated cell sorting to enrich ECs. Then, single-cell RNA sequencing was applied to enriched embryonic ECs. Tie2 (Tek receptor tyrosine kinase)-cre-mediated ECs-specific miR-126 knockout mice were constructed, and ECs from Tie2-cre-mediated ECs-specific miR-126 knockout embryos were subjected to single-cell RNA sequencing.
Results: Embryonic ECs were clustered into 11 groups corresponding to anatomic characteristics. The vascular bed (arteries, capillaries, veins, lymphatics) exhibited transcriptomic similarity across the developmental stage. Embryonic ECs had higher proliferative potential than adult ECs. Integrating analysis showed that 3 ECs populations (hepatic, mesenchymal transition, and pulmonary ECs) were apparently disorganized after miR-126 being knocked out. Gene ontology analysis revealed that disrupted ECs were mainly related to hypoxia, glycometabolism, and vascular calcification. Additionally, in vivo experiment showed that Tie2-cre-mediated ECs-specific miR-126 knockout mice exhibited excessive intussusceptive angiogenesis; reductive glucose and pyruvate tolerance; and excessive accumulation of calcium. Agonist miR-126-3p agomir significantly rescued the phenotype of glucose metabolic dysfunction in Tie2-cre-mediated ECs-specific miR-126 knockout mice.
Conclusions: The heterogeneity of ECs is established as early as the embryonic stage. The deficiency of miR-126 disrupts the differentiation and diversification of embryonic ECs, suggesting that miR-126 plays an essential role in the maintenance of ECs heterogeneity.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8860216 | PMC |
| http://dx.doi.org/10.1161/ATVBAHA.121.317093 | DOI Listing |
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