AI Article Synopsis
- Abdominal aortic aneurysm (AAA) is a serious condition that predominantly affects older men, but the reasons for its increased prevalence with age are not well understood.
- Researchers conducted RNA sequencing on mouse aortas from young and old males, alongside human data, to identify gene changes related to age and AAA, discovering 1,001 genes with age-related transcriptional variations.
- Their findings suggest that aging impacts mitochondrial function and extracellular matrix (ECM) organization, linking these changes to the development of AAA, with aaortic conditions induced by angiotensin II mirroring the ECM alterations seen in older mice.
Article Abstract
Abdominal aortic aneurysm (AAA) is a common but life-threatening vascular condition in men at an advanced age. However, the underlying mechanisms of age-increased incidence and mortality of AAA remain elusive. Here, we performed RNA sequencing (RNA-seq) of mouse aortas from males (young: 3-month, n = 4 vs old: 23-month, n = 4) and integrated with the data sets of human aortas (young: 20-39, n = 47 vs old: 60-79 years, n = 92) from GTEx project and the data set (GSE183464) for AAA to search for age-shifted aortic aneurysm genes, their relevant biological processes, and signaling pathways. Angiotensin II-induced AAA in mice was used to verify the critical findings. We found 1 001 genes transcriptionally changed with ages in both mouse and human. Most age-increased genes were enriched intracellularly and the relevant biological processes included mitochondrial function and translational controls, whereas the age-decreased genes were largely localized in extracellular regions and cell periphery and the involved biological processes were associated with extracellular matrix (ECM). Fifty-one were known genes for AAA and found dominantly in extracellular region. The common age-shifted vascular genes and known aortic aneurysm genes had shared functional influences on ECM organization, apoptosis, and angiogenesis. Aorta with angiotensin II-induced AAA exhibited similar phenotypic changes in ECM to that in old mice. Together, we present a conserved transcriptional signature for aortic aging and provide evidence that mitochondrial dysfunction and the imbalanced ribosomal homeostasis act likely as driven-forces for aortic aging and age-disturbed ECM is the substrate for developing AAA.
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| http://dx.doi.org/10.1093/gerona/glae201 | DOI Listing |
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