Tensional homeostasis in dermal fibroblasts: Mechanical responses to mechanical loading in three-dimensional substrates

R. A. Brown; R. Prajapati; D. A. McGrouther; I. V. Yannas; M. Eastwood

doi:10.1002/(SICI)1097-4652(199806)175:3<323::AID-JCP10>3.0.CO;2-6

Tensional homeostasis in dermal fibroblasts: Mechanical responses to mechanical loading in three-dimensional substrates

R. A. Brown, R. Prajapati, D. A. McGrouther, I. V. Yannas, M. Eastwood

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

Abstract

Many soft connective tissues are under endogenous tension, and their resident cells generate considerable contractile forces on the extracellular matrix. The present work was aimed to determine quantitatively how fibroblasts, grown within three-dimensional collagen lattices, respond mechanically to precisely defined tensional loads. Forces generated in response to changes in applied load were measured using a tensional culture force monitor. In a number of variant systems, resident cells consistently reacted to modify the endogenous matrix tension in the opposite direction to externally applied loads. That is, increased external loading was followed immediately by a reduction in cell-mediated contraction whilst decreased external loading elicited increased contraction. Responses were cell-mediated and not a result of material properties of the matrices. This is the first detailed characterisation of a tensional homeostatic response in cells. The maintained force, after 8 h in culture, was typically around 40-60 dynes/million cells). Maintenance of an active tensional homeostasis has widespread implications for cells in culture and for whole tissue function.

Original language	English
Pages (from-to)	323-332
Number of pages	9
Journal	Journal of Cellular Physiology
Volume	175
Issue number	3
DOIs	https://doi.org/10.1002/(SICI)1097-4652(199806)175:3<323::AID-JCP10>3.0.CO;2-6
Publication status	Published - Jun 1998

Keywords

Cells, Cultured
Collagen/physiology
Fibroblasts/*physiology
Homeostasis/*physiology
Human
Skin/*cytology
Stress, Mechanical
Support, Non-U.S. Gov't

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10.1002/(SICI)1097-4652(199806)175:3<323::AID-JCP10>3.0.CO;2-6

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title = "Tensional homeostasis in dermal fibroblasts: Mechanical responses to mechanical loading in three-dimensional substrates",

abstract = "Many soft connective tissues are under endogenous tension, and their resident cells generate considerable contractile forces on the extracellular matrix. The present work was aimed to determine quantitatively how fibroblasts, grown within three-dimensional collagen lattices, respond mechanically to precisely defined tensional loads. Forces generated in response to changes in applied load were measured using a tensional culture force monitor. In a number of variant systems, resident cells consistently reacted to modify the endogenous matrix tension in the opposite direction to externally applied loads. That is, increased external loading was followed immediately by a reduction in cell-mediated contraction whilst decreased external loading elicited increased contraction. Responses were cell-mediated and not a result of material properties of the matrices. This is the first detailed characterisation of a tensional homeostatic response in cells. The maintained force, after 8 h in culture, was typically around 40-60 dynes/million cells). Maintenance of an active tensional homeostasis has widespread implications for cells in culture and for whole tissue function.",

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author = "Brown, {R. A.} and R. Prajapati and McGrouther, {D. A.} and Yannas, {I. V.} and M. Eastwood",

note = "0021-9541Journal Article",

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AU - Brown, R. A.

AU - Prajapati, R.

AU - McGrouther, D. A.

AU - Yannas, I. V.

AU - Eastwood, M.

N1 - 0021-9541Journal Article

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N2 - Many soft connective tissues are under endogenous tension, and their resident cells generate considerable contractile forces on the extracellular matrix. The present work was aimed to determine quantitatively how fibroblasts, grown within three-dimensional collagen lattices, respond mechanically to precisely defined tensional loads. Forces generated in response to changes in applied load were measured using a tensional culture force monitor. In a number of variant systems, resident cells consistently reacted to modify the endogenous matrix tension in the opposite direction to externally applied loads. That is, increased external loading was followed immediately by a reduction in cell-mediated contraction whilst decreased external loading elicited increased contraction. Responses were cell-mediated and not a result of material properties of the matrices. This is the first detailed characterisation of a tensional homeostatic response in cells. The maintained force, after 8 h in culture, was typically around 40-60 dynes/million cells). Maintenance of an active tensional homeostasis has widespread implications for cells in culture and for whole tissue function.

AB - Many soft connective tissues are under endogenous tension, and their resident cells generate considerable contractile forces on the extracellular matrix. The present work was aimed to determine quantitatively how fibroblasts, grown within three-dimensional collagen lattices, respond mechanically to precisely defined tensional loads. Forces generated in response to changes in applied load were measured using a tensional culture force monitor. In a number of variant systems, resident cells consistently reacted to modify the endogenous matrix tension in the opposite direction to externally applied loads. That is, increased external loading was followed immediately by a reduction in cell-mediated contraction whilst decreased external loading elicited increased contraction. Responses were cell-mediated and not a result of material properties of the matrices. This is the first detailed characterisation of a tensional homeostatic response in cells. The maintained force, after 8 h in culture, was typically around 40-60 dynes/million cells). Maintenance of an active tensional homeostasis has widespread implications for cells in culture and for whole tissue function.

KW - Cells, Cultured

KW - Collagen/physiology

KW - Fibroblasts/physiology

KW - Homeostasis/physiology

KW - Human

KW - Skin/cytology

KW - Stress, Mechanical

KW - Support, Non-U.S. Gov't

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M3 - Article

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EP - 332

JO - Journal of Cellular Physiology

JF - Journal of Cellular Physiology

IS - 3

ER -

Tensional homeostasis in dermal fibroblasts: Mechanical responses to mechanical loading in three-dimensional substrates

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Keywords

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