Litcius/Paper detail

Endothelial and systemic upregulation of miR-34a-5p fine-tunes senescence in progeria

Christina Manakanatas, Santhosh Kumar Ghadge, Azra Agic, Fatih Sarigol, Petra Fichtinger, Irmgard Fischer, Roland Foisner, Selma Osmanagic‐Myers

2022Aging34 citationsDOIOpen Access PDF

Abstract

Endothelial defects significantly contribute to cardiovascular pathology in the premature aging disease Hutchinson-Gilford progeria syndrome (HGPS). Using an endothelium-specific progeria mouse model, we identify a novel, endothelium-specific microRNA (miR) signature linked to the p53-senescence pathway and a senescence-associated secretory phenotype (SASP). Progerin-expressing endothelial cells exert profound cell-non-autonomous effects initiating senescence in non-endothelial cell populations and causing immune cell infiltrates around blood vessels. Comparative miR expression analyses revealed unique upregulation of senescence-associated miR34a-5p in endothelial cells with strong accumulation at atheroprone aortic arch regions but also, in whole cardiac- and lung tissues as well as in the circulation of progeria mice. Mechanistically, miR34a-5p knockdown reduced not only p53 levels but also late-stage senescence regulator p16 with no effect on p21 levels, while p53 knockdown reduced miR34a-5p and partially rescued p21-mediated cell cycle inhibition with a moderate effect on SASP. These data demonstrate that miR34a-5p reinforces two separate senescence regulating branches in progerin-expressing endothelial cells, the p53- and p16-associated pathways, which synergistically maintain a senescence phenotype that contributes to cardiovascular pathology. Thus, the key function of circulatory miR34a-5p in endothelial dysfunction-linked cardiovascular pathology offers novel routes for diagnosis, prognosis and treatment for cardiovascular aging in HGPS and potentially geriatric patients.

Topics & Concepts

ProgeriaSenescenceDownregulation and upregulationBiologyGene knockdownEndothelial stem cellEndotheliumCancer researchCell biologyImmunologyEndocrinologyCell cultureGeneticsIn vitroGeneNuclear Structure and Functioninterferon and immune responsesTelomeres, Telomerase, and Senescence