Pathological Angiogenesis in Retinopathy Engages Cellular Senescence and is Amenable to Therapeutic Elimination Via BCL-xL Inhibition

Overview

Journal Cell Metab

Publisher Cell Press

Specialties Cell Biology
Endocrinology

Date 2021 Feb 6

PMID 33548171

Citations 72

Authors

Sergio Crespo-Garcia

Pamela R Tsuruda

Agnieszka Dejda

Rathi D Ryan

Frederik Fournier

Shawnta Y Chaney

Frederique Pilon

Taner Dogan

Gael Cagnone

Priyanka Patel

Manuel Buscarlet

Sonali Dasgupta

Gabrielle Girouard

Surabhi R Rao

Ariel M Wilson

Robert OBrien

Rachel Juneau

Vera Guber

Alexandre Dubrac

Christian Beausejour

Scott Armstrong

Frederick A Mallette

Christopher B Yohn

Jean-Sebastien Joyal

Dan Marquess

Pedro J Beltran

Przemyslaw Sapieha

Affiliations

Soon will be listed here.

Abstract

Attenuating pathological angiogenesis in diseases characterized by neovascularization such as diabetic retinopathy has transformed standards of care. Yet little is known about the molecular signatures discriminating physiological blood vessels from their diseased counterparts, leading to off-target effects of therapy. We demonstrate that in contrast to healthy blood vessels, pathological vessels engage pathways of cellular senescence. Senescent (p16-expressing) cells accumulate in retinas of patients with diabetic retinopathy and during peak destructive neovascularization in a mouse model of retinopathy. Using either genetic approaches that clear p16-expressing cells or small molecule inhibitors of the anti-apoptotic protein BCL-xL, we show that senolysis suppresses pathological angiogenesis. Single-cell analysis revealed that subsets of endothelial cells with senescence signatures and expressing Col1a1 are no longer detected in BCL-xL-inhibitor-treated retinas, yielding a retina conducive to physiological vascular repair. These findings provide mechanistic evidence supporting the development of BCL-xL inhibitors as potential treatments for neovascular retinal disease.

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