Spatial relationships in early signaling events of flow-mediated endothelial mechanotransduction

Peter F. Davies; Kenneth A. Barbee; Michael V. Volin; Andre Robotewskyj; Jai Chen; Loren Joseph; Melvin L. Griem; Miles N. Wernick; Elizabeth Jacobs; Denise C. Polacek; Natacha DePaola; Abdul I. Barakat

doi:10.1146/annurev.physiol.59.1.527

Spatial relationships in early signaling events of flow-mediated endothelial mechanotransduction

Peter F. Davies
, Kenneth A. Barbee
, Michael V. Volin
, Andre Robotewskyj
, Jai Chen
, Loren Joseph
, Melvin L. Griem
, Miles N. Wernick
, Elizabeth Jacobs
, Denise C. Polacek
, Natacha DePaola
, Abdul I. Barakat

Research output: Contribution to journal › Review article › peer-review

Abstract

Blood flow interactions with the vascular endothelium represent a specialized example of mechanical regulation of cell function that has important physiological and pathological cardiovascular consequences. The endothelial monolayer in vivo acts as a signal transduction interface for forces associated with flowing blood (hemodynamic forces) in the acute regulation of artery tone and chronic structural remodeling of arteries, including the pathology of atherosclerosis. Mechanisms related to spatial relationships at the cell surfaces and throughout the cell that influence flow-mediated endothelial mechanotransduction are discussed. In particular, flow-mediated ion channel activation and cytoskeletal dynamics are considered in relation to topographic analyses of the luminal and abluminal surfaces of living endothelial cells.

Original language	English
Pages (from-to)	527-549
Number of pages	23
Journal	Annual Review of Physiology
Volume	59
DOIs	https://doi.org/10.1146/annurev.physiol.59.1.527
Publication status	Published - 11 Apr 1997
Externally published	Yes

Keywords

atherosclerosis
biomechanics
blood flow
endothelium
hemodynamic shear stress
vasoregulation

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10.1146/annurev.physiol.59.1.527

Cite this

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title = "Spatial relationships in early signaling events of flow-mediated endothelial mechanotransduction",

abstract = "Blood flow interactions with the vascular endothelium represent a specialized example of mechanical regulation of cell function that has important physiological and pathological cardiovascular consequences. The endothelial monolayer in vivo acts as a signal transduction interface for forces associated with flowing blood (hemodynamic forces) in the acute regulation of artery tone and chronic structural remodeling of arteries, including the pathology of atherosclerosis. Mechanisms related to spatial relationships at the cell surfaces and throughout the cell that influence flow-mediated endothelial mechanotransduction are discussed. In particular, flow-mediated ion channel activation and cytoskeletal dynamics are considered in relation to topographic analyses of the luminal and abluminal surfaces of living endothelial cells.",

keywords = "atherosclerosis, biomechanics, blood flow, endothelium, hemodynamic shear stress, vasoregulation",

author = "Davies, \{Peter F.\} and Barbee, \{Kenneth A.\} and Volin, \{Michael V.\} and Andre Robotewskyj and Jai Chen and Loren Joseph and Griem, \{Melvin L.\} and Wernick, \{Miles N.\} and Elizabeth Jacobs and Polacek, \{Denise C.\} and Natacha DePaola and Barakat, \{Abdul I.\}",

year = "1997",

month = apr,

day = "11",

doi = "10.1146/annurev.physiol.59.1.527",

language = "English",

volume = "59",

pages = "527--549",

journal = "Annual Review of Physiology",

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TY - JOUR

T1 - Spatial relationships in early signaling events of flow-mediated endothelial mechanotransduction

AU - Davies, Peter F.

AU - Barbee, Kenneth A.

AU - Volin, Michael V.

AU - Robotewskyj, Andre

AU - Chen, Jai

AU - Joseph, Loren

AU - Griem, Melvin L.

AU - Wernick, Miles N.

AU - Jacobs, Elizabeth

AU - Polacek, Denise C.

AU - DePaola, Natacha

AU - Barakat, Abdul I.

PY - 1997/4/11

Y1 - 1997/4/11

N2 - Blood flow interactions with the vascular endothelium represent a specialized example of mechanical regulation of cell function that has important physiological and pathological cardiovascular consequences. The endothelial monolayer in vivo acts as a signal transduction interface for forces associated with flowing blood (hemodynamic forces) in the acute regulation of artery tone and chronic structural remodeling of arteries, including the pathology of atherosclerosis. Mechanisms related to spatial relationships at the cell surfaces and throughout the cell that influence flow-mediated endothelial mechanotransduction are discussed. In particular, flow-mediated ion channel activation and cytoskeletal dynamics are considered in relation to topographic analyses of the luminal and abluminal surfaces of living endothelial cells.

AB - Blood flow interactions with the vascular endothelium represent a specialized example of mechanical regulation of cell function that has important physiological and pathological cardiovascular consequences. The endothelial monolayer in vivo acts as a signal transduction interface for forces associated with flowing blood (hemodynamic forces) in the acute regulation of artery tone and chronic structural remodeling of arteries, including the pathology of atherosclerosis. Mechanisms related to spatial relationships at the cell surfaces and throughout the cell that influence flow-mediated endothelial mechanotransduction are discussed. In particular, flow-mediated ion channel activation and cytoskeletal dynamics are considered in relation to topographic analyses of the luminal and abluminal surfaces of living endothelial cells.

KW - atherosclerosis

KW - biomechanics

KW - blood flow

KW - endothelium

KW - hemodynamic shear stress

KW - vasoregulation

UR - https://www.scopus.com/pages/publications/8244259183

U2 - 10.1146/annurev.physiol.59.1.527

DO - 10.1146/annurev.physiol.59.1.527

M3 - Review article

C2 - 9074776

AN - SCOPUS:8244259183

SN - 0066-4278

VL - 59

SP - 527

EP - 549

JO - Annual Review of Physiology

JF - Annual Review of Physiology

ER -

Spatial relationships in early signaling events of flow-mediated endothelial mechanotransduction

Abstract

Keywords

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