Integrin α5β1-Ang1/Tie2 receptor cross-talk regulates brain endothelial cell responses following cerebral ischemia

Integrin α5β1-Ang1/Tie2 receptor cross-talk regulates brain endothelial cell responses following cerebral ischemia

Stroke: Interacting signals promote new blood vessel formation Interactions between two molecular signaling systems on the surface of brain blood vessel cells may regulate the response to cerebral ischemic (CI) strokes, in which the blood supply and hence oxygen to part of the brain is interrupted b...

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Main Authors: Defang Pang, Lu Wang, Jing Dong, Xiaoyin Lai, Qijuan Huang, Richard Milner, Longxuan Li
Format: Article
Language:English
Published: Nature Publishing Group 2018-09-01
Series:Experimental and Molecular Medicine
Online Access:https://doi.org/10.1038/s12276-018-0145-7
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spelling doaj-6d26f5dc69f847fb932a0295ad26a6692020-12-08T13:51:47ZengNature Publishing GroupExperimental and Molecular Medicine2092-64132018-09-0150911210.1038/s12276-018-0145-7Integrin α5β1-Ang1/Tie2 receptor cross-talk regulates brain endothelial cell responses following cerebral ischemiaDefang Pang0Lu Wang1Jing Dong2Xiaoyin Lai3Qijuan Huang4Richard Milner5Longxuan Li6Department of Special Outpatient Service, Gongli Hospital, The Second Military Medical UniversityDepartment of Neurology, Gongli Hospital, The Second Military Medical UniversityDepartment of Pharmacy, Gongli Hospital, The Second Military Medical UniversityDepartment of Neurology, Gongli Hospital, The Second Military Medical UniversityDepartment of Neurology, Taishan People’s HospitalDepartment of Molecular Medicine, The Scripps Research InstituteDepartment of Neurology, Gongli Hospital, The Second Military Medical UniversityStroke: Interacting signals promote new blood vessel formation Interactions between two molecular signaling systems on the surface of brain blood vessel cells may regulate the response to cerebral ischemic (CI) strokes, in which the blood supply and hence oxygen to part of the brain is interrupted by blockages, such as blood clots. Researchers led by Longxuan Li at Gongli Hospital, the Second Military Medical University, Shanghai, and Richard Milner at the Scripps Research Institute, La Jolla, USA, used mice and cultured cells to study these interactions. The results suggest that the cell surface receptor proteins that mediate both signaling systems localize in the same area of blood cell membranes in response to a CI stroke. Molecular “cross-talk” between these systems may promote the formation of new blood vessels to repair the damage caused by a stroke. These insights could assist development of drugs to treat CI strokes.https://doi.org/10.1038/s12276-018-0145-7
collection DOAJ
language English
format Article
sources DOAJ
author Defang Pang
Lu Wang
Jing Dong
Xiaoyin Lai
Qijuan Huang
Richard Milner
Longxuan Li
spellingShingle Defang Pang
Lu Wang
Jing Dong
Xiaoyin Lai
Qijuan Huang
Richard Milner
Longxuan Li
Integrin α5β1-Ang1/Tie2 receptor cross-talk regulates brain endothelial cell responses following cerebral ischemia
Experimental and Molecular Medicine
author_facet Defang Pang
Lu Wang
Jing Dong
Xiaoyin Lai
Qijuan Huang
Richard Milner
Longxuan Li
author_sort Defang Pang
title Integrin α5β1-Ang1/Tie2 receptor cross-talk regulates brain endothelial cell responses following cerebral ischemia
title_short Integrin α5β1-Ang1/Tie2 receptor cross-talk regulates brain endothelial cell responses following cerebral ischemia
title_full Integrin α5β1-Ang1/Tie2 receptor cross-talk regulates brain endothelial cell responses following cerebral ischemia
title_fullStr Integrin α5β1-Ang1/Tie2 receptor cross-talk regulates brain endothelial cell responses following cerebral ischemia
title_full_unstemmed Integrin α5β1-Ang1/Tie2 receptor cross-talk regulates brain endothelial cell responses following cerebral ischemia
title_sort integrin α5β1-ang1/tie2 receptor cross-talk regulates brain endothelial cell responses following cerebral ischemia
publisher Nature Publishing Group
series Experimental and Molecular Medicine
issn 2092-6413
publishDate 2018-09-01
description Stroke: Interacting signals promote new blood vessel formation Interactions between two molecular signaling systems on the surface of brain blood vessel cells may regulate the response to cerebral ischemic (CI) strokes, in which the blood supply and hence oxygen to part of the brain is interrupted by blockages, such as blood clots. Researchers led by Longxuan Li at Gongli Hospital, the Second Military Medical University, Shanghai, and Richard Milner at the Scripps Research Institute, La Jolla, USA, used mice and cultured cells to study these interactions. The results suggest that the cell surface receptor proteins that mediate both signaling systems localize in the same area of blood cell membranes in response to a CI stroke. Molecular “cross-talk” between these systems may promote the formation of new blood vessels to repair the damage caused by a stroke. These insights could assist development of drugs to treat CI strokes.
url https://doi.org/10.1038/s12276-018-0145-7
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AT luwang integrina5b1ang1tie2receptorcrosstalkregulatesbrainendothelialcellresponsesfollowingcerebralischemia
AT jingdong integrina5b1ang1tie2receptorcrosstalkregulatesbrainendothelialcellresponsesfollowingcerebralischemia
AT xiaoyinlai integrina5b1ang1tie2receptorcrosstalkregulatesbrainendothelialcellresponsesfollowingcerebralischemia
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