Mechanical regulation of the early stages of angiogenesis

Sara Barrasa-Ramos; Claire A. Dessalles; Mathieu Hautefeuille; Abdul I. Barakat

doi:10.1098/rsif.2022.0360

Mechanical regulation of the early stages of angiogenesis

Sara Barrasa-Ramos
, Claire A. Dessalles
, Mathieu Hautefeuille
, Abdul I. Barakat

Research output: Contribution to journal › Article › peer-review

Abstract

Favouring or thwarting the development of a vascular network is essential in fields as diverse as oncology, cardiovascular disease or tissue engineering. As a result, understanding and controlling angiogenesis has become a major scientific challenge. Mechanical factors play a fundamental role in angiogenesis and can potentially be exploited for optimizing the architecture of the resulting vascular network. Largely focusing on in vitro systems but also supported by some in vivo evidence, the aim of this Highlight Review is dual. First, we describe the current knowledge with particular focus on the effects of fluid and solid mechanical stimuli on the early stages of the angiogenic process, most notably the destabilization of existing vessels and the initiation and elongation of new vessels. Second, we explore inherent difficulties in the field and propose future perspectives on the use of in vitro and physics-based modelling to overcome these difficulties.

Original language	English
Article number	20220360
Journal	Journal of the Royal Society Interface
Volume	19
Issue number	197
DOIs	https://doi.org/10.1098/rsif.2022.0360
Publication status	Published - 7 Dec 2022

Keywords

cell-matrix interaction
endothelial mechanobiology
shear stress
sprouting angiogenesis
transmural flow

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1098/rsif.2022.0360

Cite this

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title = "Mechanical regulation of the early stages of angiogenesis",

abstract = "Favouring or thwarting the development of a vascular network is essential in fields as diverse as oncology, cardiovascular disease or tissue engineering. As a result, understanding and controlling angiogenesis has become a major scientific challenge. Mechanical factors play a fundamental role in angiogenesis and can potentially be exploited for optimizing the architecture of the resulting vascular network. Largely focusing on in vitro systems but also supported by some in vivo evidence, the aim of this Highlight Review is dual. First, we describe the current knowledge with particular focus on the effects of fluid and solid mechanical stimuli on the early stages of the angiogenic process, most notably the destabilization of existing vessels and the initiation and elongation of new vessels. Second, we explore inherent difficulties in the field and propose future perspectives on the use of in vitro and physics-based modelling to overcome these difficulties.",

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doi = "10.1098/rsif.2022.0360",

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AU - Barrasa-Ramos, Sara

AU - Dessalles, Claire A.

AU - Hautefeuille, Mathieu

AU - Barakat, Abdul I.

PY - 2022/12/7

Y1 - 2022/12/7

N2 - Favouring or thwarting the development of a vascular network is essential in fields as diverse as oncology, cardiovascular disease or tissue engineering. As a result, understanding and controlling angiogenesis has become a major scientific challenge. Mechanical factors play a fundamental role in angiogenesis and can potentially be exploited for optimizing the architecture of the resulting vascular network. Largely focusing on in vitro systems but also supported by some in vivo evidence, the aim of this Highlight Review is dual. First, we describe the current knowledge with particular focus on the effects of fluid and solid mechanical stimuli on the early stages of the angiogenic process, most notably the destabilization of existing vessels and the initiation and elongation of new vessels. Second, we explore inherent difficulties in the field and propose future perspectives on the use of in vitro and physics-based modelling to overcome these difficulties.

AB - Favouring or thwarting the development of a vascular network is essential in fields as diverse as oncology, cardiovascular disease or tissue engineering. As a result, understanding and controlling angiogenesis has become a major scientific challenge. Mechanical factors play a fundamental role in angiogenesis and can potentially be exploited for optimizing the architecture of the resulting vascular network. Largely focusing on in vitro systems but also supported by some in vivo evidence, the aim of this Highlight Review is dual. First, we describe the current knowledge with particular focus on the effects of fluid and solid mechanical stimuli on the early stages of the angiogenic process, most notably the destabilization of existing vessels and the initiation and elongation of new vessels. Second, we explore inherent difficulties in the field and propose future perspectives on the use of in vitro and physics-based modelling to overcome these difficulties.

KW - cell-matrix interaction

KW - endothelial mechanobiology

KW - shear stress

KW - sprouting angiogenesis

KW - transmural flow

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DO - 10.1098/rsif.2022.0360

M3 - Article

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AN - SCOPUS:85143564945

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JO - Journal of the Royal Society Interface

JF - Journal of the Royal Society Interface

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Mechanical regulation of the early stages of angiogenesis

Abstract

Keywords

UN SDGs

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