Frontiers in Genetics (Oct 2022)

Unravelling the impact of aging on the human endothelial lncRNA transcriptome

  • Maria-Kyriaki Drekolia,
  • Sweta Talyan,
  • Rebeca Cordellini Emídio,
  • Reinier Abraham Boon,
  • Reinier Abraham Boon,
  • Stefan Guenther,
  • Stefan Guenther,
  • Mario Looso,
  • Mario Looso,
  • Gabrijela Dumbović,
  • Sofia-Iris Bibli,
  • Sofia-Iris Bibli

DOI
https://doi.org/10.3389/fgene.2022.1035380
Journal volume & issue
Vol. 13

Abstract

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The incidence and prevalence of cardiovascular disease is highest among the elderly. There is a need to further understand the mechanisms behind endothelial cell aging in order to achieve vascular rejuvenation and minimize the onset of age-related vascular diseases. Long non-coding RNAs (lncRNAs) have been proposed to regulate numerous processes in the human genome, yet their function in vascular aging and their therapeutic potential remain largely unknown. This is primarily because the majority of studies investigating the impact of aging on lncRNA expression heavily rely on in vitro studies based on replicative senescence. Here, using a unique collection of young and aged endothelial cells isolated from native human arteries, we sought to characterize the age-related alterations in lncRNA expression profiles. We were able to detect a total of 4463 lncRNAs expressed in the human endothelium from which ∼17% (798) were altered in advanced age. One of the most affected lncRNAs in aging was the primate-specific, Prostate Cancer Associated Transcript (PCAT) 14. In our follow up analysis, using single molecule RNA FISH, we showed that PCAT14 is relatively abundant, localized almost exclusively in the nucleus of young endothelial cells, and silenced in the aged endothelium. Functionally, our studies proposed that downregulation of PCAT14 alters endothelial cell transcription profile and cell functions including endothelial cell migration, sprouting and inflammatory responses in vitro. Taken together, our data highlight that endothelial cell aging correlates with altered expression of lncRNAs, which could impair the endothelial regenerative capacity and enhance inflammatory phenotypes.

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