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Nuclear SUN1 stabilizes endothelial cell junctions via microtubules to regulate blood vessel formation
Nuclear SUN1 stabilizes endothelial cell junctions via microtubules to regulate blood vessel formation
by Monaghan-Benson, Elizabeth , Oatley, Morgan , Ricketts, Shea N , Guilluy, Christophe , Kulikauskas, Molly R , Tanke, Natalie T , Rogers, Stephen , Bougaran, Pauline , Gold, Ariel L , Shiau, Celia E , Johnson, Bryan N , Bautch, Victoria L , Burciu, Andrew , Buglak, Danielle B , Liu, Ziqing , Marvin, Allison P , Kinghorn, Karina
in adherens junctions / Animals / blood vessels / Cell Biology / endothelial cells / Endothelial Cells - metabolism / Endothelium / Intercellular Junctions - metabolism / Mice / Microtubule-Associated Proteins - metabolism / microtubules / Microtubules - metabolism / Neovascularization / nuclear LINC complex / Nuclear Proteins - metabolism / SUN1 / Zebrafish - metabolism
2023
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Nuclear SUN1 stabilizes endothelial cell junctions via microtubules to regulate blood vessel formation
by Monaghan-Benson, Elizabeth , Oatley, Morgan , Ricketts, Shea N , Guilluy, Christophe , Kulikauskas, Molly R , Tanke, Natalie T , Rogers, Stephen , Bougaran, Pauline , Gold, Ariel L , Shiau, Celia E , Johnson, Bryan N , Bautch, Victoria L , Burciu, Andrew , Buglak, Danielle B , Liu, Ziqing , Marvin, Allison P , Kinghorn, Karina
in adherens junctions / Animals / blood vessels / Cell Biology / endothelial cells / Endothelial Cells - metabolism / Endothelium / Intercellular Junctions - metabolism / Mice / Microtubule-Associated Proteins - metabolism / microtubules / Microtubules - metabolism / Neovascularization / nuclear LINC complex / Nuclear Proteins - metabolism / SUN1 / Zebrafish - metabolism
2023
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Nuclear SUN1 stabilizes endothelial cell junctions via microtubules to regulate blood vessel formation
Nuclear SUN1 stabilizes endothelial cell junctions via microtubules to regulate blood vessel formation
by Monaghan-Benson, Elizabeth , Oatley, Morgan , Ricketts, Shea N , Guilluy, Christophe , Kulikauskas, Molly R , Tanke, Natalie T , Rogers, Stephen , Bougaran, Pauline , Gold, Ariel L , Shiau, Celia E , Johnson, Bryan N , Bautch, Victoria L , Burciu, Andrew , Buglak, Danielle B , Liu, Ziqing , Marvin, Allison P , Kinghorn, Karina
in adherens junctions / Animals / blood vessels / Cell Biology / endothelial cells / Endothelial Cells - metabolism / Endothelium / Intercellular Junctions - metabolism / Mice / Microtubule-Associated Proteins - metabolism / microtubules / Microtubules - metabolism / Neovascularization / nuclear LINC complex / Nuclear Proteins - metabolism / SUN1 / Zebrafish - metabolism
2023

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Nuclear SUN1 stabilizes endothelial cell junctions via microtubules to regulate blood vessel formation
Nuclear SUN1 stabilizes endothelial cell junctions via microtubules to regulate blood vessel formation
Journal Article

Nuclear SUN1 stabilizes endothelial cell junctions via microtubules to regulate blood vessel formation

Monaghan-Benson, Elizabeth,
Oatley, Morgan,
Ricketts, Shea N,
Guilluy, Christophe,
Kulikauskas, Molly R,
Tanke, Natalie T,
Rogers, Stephen,
Bougaran, Pauline,
Gold, Ariel L,
Shiau, Celia E,
Johnson, Bryan N,
Bautch, Victoria L,
Burciu, Andrew,
Buglak, Danielle B,
Liu, Ziqing,
Marvin, Allison P,
Kinghorn, Karina
2023
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Overview
Endothelial cells line all blood vessels, where they coordinate blood vessel formation and the blood-tissue barrier via regulation of cell-cell junctions. The nucleus also regulates endothelial cell behaviors, but it is unclear how the nucleus contributes to endothelial cell activities at the cell periphery. Here, we show that the nuclear-localized li nker of the n ucleoskeleton and c ytoskeleton (LINC) complex protein SUN1 regulates vascular sprouting and endothelial cell-cell junction morphology and function. Loss of murine endothelial Sun1 impaired blood vessel formation and destabilized junctions, angiogenic sprouts formed but retracted in SUN1-depleted sprouts, and zebrafish vessels lacking Sun1b had aberrant junctions and defective cell-cell connections. At the cellular level, SUN1 stabilized endothelial cell-cell junctions, promoted junction function, and regulated contractility. Mechanistically, SUN1 depletion altered cell behaviors via the cytoskeleton without changing transcriptional profiles. Reduced peripheral microtubule density, fewer junction contacts, and increased catastrophes accompanied SUN1 loss, and microtubule depolymerization phenocopied effects on junctions. Depletion of GEF-H1, a microtubule-regulated Rho activator, or the LINC complex protein nesprin-1 rescued defective junctions of SUN1-depleted endothelial cells. Thus, endothelial SUN1 regulates peripheral cell-cell junctions from the nucleus via LINC complex-based microtubule interactions that affect peripheral microtubule dynamics and Rho-regulated contractility, and this long-range regulation is important for proper blood vessel sprouting and junction integrity.
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Publisher
eLife Science Publications, Ltd,eLife Sciences Publications, Ltd,eLife Sciences Publications Ltd
Subject

adherens junctions

/ Animals

/ blood vessels

/ Cell Biology

/ endothelial cells

/ Endothelial Cells - metabolism

/ Endothelium

/ Intercellular Junctions - metabolism

/ Mice

/ Microtubule-Associated Proteins - metabolism

/ microtubules

/ Microtubules - metabolism

/ Neovascularization

/ nuclear LINC complex

/ Nuclear Proteins - metabolism

/ SUN1

/ Zebrafish - metabolism

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