Literature DB >> 32727916

Cellular senescence impairs the reversibility of pulmonary arterial hypertension.

Diederik E van der Feen1, Guido P L Bossers2, Quint A J Hagdorn2, Jan-Renier Moonen3, Kondababu Kurakula4, Robert Szulcek5, James Chappell3, Francesco Vallania6,7, Michele Donato6,7, Klaas Kok8, Jaskaren S Kohli9, Arjen H Petersen10, Tom van Leusden11, Marco Demaria9, Marie-José T H Goumans4, Rudolf A De Boer11, Purvesh Khatri6,7, Marlene Rabinovitch3, Rolf M F Berger2, Beatrijs Bartelds2.   

Abstract

Pulmonary arterial hypertension (PAH) in congenital cardiac shunts can be reversed by hemodynamic unloading (HU) through shunt closure. However, this reversibility potential is lost beyond a certain point in time. The reason why PAH becomes irreversible is unknown. In this study, we used MCT+shunt-induced PAH in rats to identify a dichotomous reversibility response to HU, similar to the human situation. We compared vascular profiles of reversible and irreversible PAH using RNA sequencing. Cumulatively, we report that loss of reversibility is associated with a switch from a proliferative to a senescent vascular phenotype and confirmed markers of senescence in human PAH-CHD tissue. In vitro, we showed that human pulmonary endothelial cells of patients with PAH are more vulnerable to senescence than controls in response to shear stress and confirmed that the senolytic ABT263 induces apoptosis in senescent, but not in normal, endothelial cells. To support the concept that vascular cell senescence is causal to the irreversible nature of end-stage PAH, we targeted senescence using ABT263 and induced reversal of the hemodynamic and structural changes associated with severe PAH refractory to HU. The factors that drive the transition from a reversible to irreversible pulmonary vascular phenotype could also explain the irreversible nature of other PAH etiologies and provide new leads for pharmacological reversal of end-stage PAH.
Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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Year:  2020        PMID: 32727916      PMCID: PMC7891555          DOI: 10.1126/scitranslmed.aaw4974

Source DB:  PubMed          Journal:  Sci Transl Med        ISSN: 1946-6234            Impact factor:   17.956


  48 in total

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3.  Shunt Surgery, Right Heart Catheterization, and Vascular Morphometry in a Rat Model for Flow-induced Pulmonary Arterial Hypertension.

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9.  Premature senescence of endothelial cells upon chronic exposure to TNFα can be prevented by N-acetyl cysteine and plumericin.

Authors:  Shafaat Y Khan; Ezzat M Awad; Andre Oszwald; Manuel Mayr; Xiaoke Yin; Birgit Waltenberger; Hermann Stuppner; Markus Lipovac; Pavel Uhrin; Johannes M Breuss
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10.  Disturbed flow promotes endothelial senescence via a p53-dependent pathway.

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Journal:  Arterioscler Thromb Vasc Biol       Date:  2014-03-20       Impact factor: 8.311
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Review 2.  Endothelial Senescence: A New Age in Pulmonary Hypertension.

Authors:  Miranda K Culley; Stephen Y Chan
Journal:  Circ Res       Date:  2022-03-17       Impact factor: 17.367

Review 3.  Mechanisms and consequences of endothelial cell senescence.

Authors:  Samuel I Bloom; Md Torikul Islam; Lisa A Lesniewski; Anthony J Donato
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5.  Pirfenidone ameliorates pulmonary arterial pressure and neointimal remodeling in experimental pulmonary arterial hypertension by suppressing NLRP3 inflammasome activation.

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Review 7.  Senescence mechanisms and targets in the heart.

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8.  Frataxin deficiency promotes endothelial senescence in pulmonary hypertension.

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Review 9.  Aging-Induced Impairment of Vascular Function: Mitochondrial Redox Contributions and Physiological/Clinical Implications.

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Review 10.  Endothelial cells in the pathogenesis of pulmonary arterial hypertension.

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