DYRK1B inhibition exerts senolytic effects on endothelial cells and rescues endothelial dysfunctions

Aging is the major risk factor for chronic disease development. Cellular senescence is a key mechanism that triggers or contributes to age-related phenotypes and pathologies. The endothelium, a single layer of cells lining the inner surface of a blood vessel, is a critical interface between blood an...

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Published inMechanisms of ageing and development Vol. 213; p. 111836
Main Authors Pramotton, Francesca M., Abukar, Asra, Hudson, Chantelle, Dunbar, James, Potterton, Andrew, Tonnicchia, Simone, Taddei, Andrea, Mazza, Edoardo, Giampietro, Costanza
Format Journal Article
LanguageEnglish
Published Ireland Elsevier B.V 01.07.2023
Subjects
Adherens junctions
DYRK1B
Endothelial dysfunction
Endothelial senescence
Vascular permeability
Endothelial dysfunction
DYRK1B
Adherens junctions
Vascular permeability
Endothelial senescence
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Abstract Aging is the major risk factor for chronic disease development. Cellular senescence is a key mechanism that triggers or contributes to age-related phenotypes and pathologies. The endothelium, a single layer of cells lining the inner surface of a blood vessel, is a critical interface between blood and all tissues. Many studies report a link between endothelial cell senescence, inflammation, and diabetic vascular diseases. Here we identify, using combined advanced AI and machine learning, the Dual Specificity Tyrosine Phosphorylation Regulated Kinase 1B (DYRK1B) protein as a possible senolytic target for senescent endothelial cells. We demonstrate that upon induction of senescence in vitro DYRK1B expression is increased in endothelial cells and localized at adherens junctions where it impairs their proper organization and functions. DYRK1B knock-down or inhibition restores endothelial barrier properties and collective behavior. DYRK1B is therefore a possible target to counteract diabetes-associated vascular diseases linked to endothelial cell senescence. •DYRK1B protein is a new possible senolytic target for senescent endothelial cells.•DYRK1B upregulation in senescent endothelial cells impairs adherens junction organization and functions.•Dyrk1B knockdown or inhibition with senolytics restores endothelial barrier properties and collective cell behavior.
AbstractList Aging is the major risk factor for chronic disease development. Cellular senescence is a key mechanism that triggers or contributes to age-related phenotypes and pathologies. The endothelium, a single layer of cells lining the inner surface of a blood vessel, is a critical interface between blood and all tissues. Many studies report a link between endothelial cell senescence, inflammation, and diabetic vascular diseases. Here we identify, using combined advanced AI and machine learning, the Dual Specificity Tyrosine Phosphorylation Regulated Kinase 1B (DYRK1B) protein as a possible senolytic target for senescent endothelial cells. We demonstrate that upon induction of senescence in vitro DYRK1B expression is increased in endothelial cells and localized at adherens junctions where it impairs their proper organization and functions. DYRK1B knock-down or inhibition restores endothelial barrier properties and collective behavior. DYRK1B is therefore a possible target to counteract diabetes-associated vascular diseases linked to endothelial cell senescence.Aging is the major risk factor for chronic disease development. Cellular senescence is a key mechanism that triggers or contributes to age-related phenotypes and pathologies. The endothelium, a single layer of cells lining the inner surface of a blood vessel, is a critical interface between blood and all tissues. Many studies report a link between endothelial cell senescence, inflammation, and diabetic vascular diseases. Here we identify, using combined advanced AI and machine learning, the Dual Specificity Tyrosine Phosphorylation Regulated Kinase 1B (DYRK1B) protein as a possible senolytic target for senescent endothelial cells. We demonstrate that upon induction of senescence in vitro DYRK1B expression is increased in endothelial cells and localized at adherens junctions where it impairs their proper organization and functions. DYRK1B knock-down or inhibition restores endothelial barrier properties and collective behavior. DYRK1B is therefore a possible target to counteract diabetes-associated vascular diseases linked to endothelial cell senescence.
Aging is the major risk factor for chronic disease development. Cellular senescence is a key mechanism that triggers or contributes to age-related phenotypes and pathologies. The endothelium, a single layer of cells lining the inner surface of a blood vessel, is a critical interface between blood and all tissues. Many studies report a link between endothelial cell senescence, inflammation, and diabetic vascular diseases. Here we identify, using combined advanced AI and machine learning, the Dual Specificity Tyrosine Phosphorylation Regulated Kinase 1B (DYRK1B) protein as a possible senolytic target for senescent endothelial cells. We demonstrate that upon induction of senescence in vitro DYRK1B expression is increased in endothelial cells and localized at adherens junctions where it impairs their proper organization and functions. DYRK1B knock-down or inhibition restores endothelial barrier properties and collective behavior. DYRK1B is therefore a possible target to counteract diabetes-associated vascular diseases linked to endothelial cell senescence. •DYRK1B protein is a new possible senolytic target for senescent endothelial cells.•DYRK1B upregulation in senescent endothelial cells impairs adherens junction organization and functions.•Dyrk1B knockdown or inhibition with senolytics restores endothelial barrier properties and collective cell behavior.
Aging is the major risk factor for chronic disease development. Cellular senescence is a key mechanism that triggers or contributes to age-related phenotypes and pathologies. The endothelium, a single layer of cells lining the inner surface of a blood vessel, is a critical interface between blood and all tissues. Many studies report a link between endothelial cell senescence, inflammation, and diabetic vascular diseases. Here we identify, using combined advanced AI and machine learning, the Dual Specificity Tyrosine Phosphorylation Regulated Kinase 1B (DYRK1B) protein as a possible senolytic target for senescent endothelial cells. We demonstrate that upon induction of senescence in vitro DYRK1B expression is increased in endothelial cells and localized at adherens junctions where it impairs their proper organization and functions. DYRK1B knock-down or inhibition restores endothelial barrier properties and collective behavior. DYRK1B is therefore a possible target to counteract diabetes-associated vascular diseases linked to endothelial cell senescence.
ArticleNumber 111836
Author Mazza, Edoardo
Hudson, Chantelle
Dunbar, James
Taddei, Andrea
Giampietro, Costanza
Potterton, Andrew
Tonnicchia, Simone
Pramotton, Francesca M.
Abukar, Asra
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  email: costanza.giampietro@empa.ch
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Keywords Endothelial dysfunction
DYRK1B
Adherens junctions
Vascular permeability
Endothelial senescence
Language English
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Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.
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Snippet Aging is the major risk factor for chronic disease development. Cellular senescence is a key mechanism that triggers or contributes to age-related phenotypes...
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SubjectTerms Adherens junctions
DYRK1B
Endothelial dysfunction
Endothelial senescence
Vascular permeability
Title DYRK1B inhibition exerts senolytic effects on endothelial cells and rescues endothelial dysfunctions
URI https://dx.doi.org/10.1016/j.mad.2023.111836
https://www.ncbi.nlm.nih.gov/pubmed/37301518
https://www.proquest.com/docview/2824690249
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