Cellular Mechanics of Primary Human Cervical Fibroblasts: Influence of Progesterone and a Pro-inflammatory Cytokine

Cellular Mechanics of Primary Human Cervical Fibroblasts: Influence of Progesterone and a Pro-inflammatory Cytokine

The leading cause of neonatal mortality, pre-term birth, is often caused by pre-mature ripening/opening of the uterine cervix. Although cervical fibroblasts play an important role in modulating the cervix’s extracellular matrix (ECM) and mechanical properties, it is not known how hormones, i.e., pro...

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Veröffentlicht in:Annals of biomedical engineering 2018, Vol.46 (1), p.197-207
Hauptverfasser: Shukla, Vasudha, Barnhouse, Victoria, Ackerman, William E., Summerfield, Taryn L., Powell, Heather M., Leight, Jennifer L., Kniss, Douglas A., Ghadiali, Samir N.
Format: Artikel
Sprache:eng
Schlagworte:
Adhesion
Biochemistry
Biological and Medical Physics
Biomechanics
Biomedical and Life Sciences
Biomedical Engineering and Bioengineering
Biomedicine
Biophysics
Cell Adhesion - drug effects
Cells, Cultured
Cervix
Cervix Uteri - cytology
Classical Mechanics
Collagen
Collagen - metabolism
Contractility
Contraction
Cytokines
Estradiol - pharmacology
Estrogens
Extracellular matrix
Extracellular Matrix - drug effects
Extracellular Matrix - physiology
Female
Fibroblasts
Fibroblasts - drug effects
Fibroblasts - physiology
Gene expression
Hormones
Humans
IL-1β
Infant mortality
Inflammation
Interleukin-1beta - pharmacology
Matrix Metalloproteinases - metabolism
Mechanical properties
Mechanics
Neonates
Pregnancy
Premature birth
Pretreatment
Progesterone
Progesterone - pharmacology
Ripening
Traction
Traction force
Uterus
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container_end_page 207
container_issue 1
container_start_page 197
container_title Annals of biomedical engineering
container_volume 46
creator Shukla, Vasudha
Barnhouse, Victoria
Ackerman, William E.
Summerfield, Taryn L.
Powell, Heather M.
Leight, Jennifer L.
Kniss, Douglas A.
Ghadiali, Samir N.
description The leading cause of neonatal mortality, pre-term birth, is often caused by pre-mature ripening/opening of the uterine cervix. Although cervical fibroblasts play an important role in modulating the cervix’s extracellular matrix (ECM) and mechanical properties, it is not known how hormones, i.e., progesterone, and pro-inflammatory insults alter fibroblast mechanics, fibroblast-ECM interactions and the resulting changes in tissue mechanics. Here we investigate how progesterone and a pro-inflammatory cytokine, IL-1β, alter the biomechanical properties of human cervical fibroblasts and the fibroblast-ECM interactions that govern tissue-scale mechanics. Primary human fibroblasts were isolated from non-pregnant cervix and treated with estrogen/progesterone, IL-1β or both. The resulting changes in ECM gene expression, matrix remodeling, traction force generation, cell-ECM adhesion and tissue contractility were monitored. Results indicate that IL-1β induces a significant reduction in traction force and ECM adhesion independent of pre-treatment with progesterone. These cell level effects altered tissue-scale mechanics where IL-1β inhibited the contraction of a collagen gel over 6 days. Interestingly, progesterone treatment alone did not modulate traction forces or gel contraction but did result in a dramatic increase in cell-ECM adhesion. Therefore, the protective effect of progesterone may be due to altered adhesion dynamics as opposed to altered ECM remodeling.
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Although cervical fibroblasts play an important role in modulating the cervix’s extracellular matrix (ECM) and mechanical properties, it is not known how hormones, i.e., progesterone, and pro-inflammatory insults alter fibroblast mechanics, fibroblast-ECM interactions and the resulting changes in tissue mechanics. Here we investigate how progesterone and a pro-inflammatory cytokine, IL-1β, alter the biomechanical properties of human cervical fibroblasts and the fibroblast-ECM interactions that govern tissue-scale mechanics. Primary human fibroblasts were isolated from non-pregnant cervix and treated with estrogen/progesterone, IL-1β or both. The resulting changes in ECM gene expression, matrix remodeling, traction force generation, cell-ECM adhesion and tissue contractility were monitored. Results indicate that IL-1β induces a significant reduction in traction force and ECM adhesion independent of pre-treatment with progesterone. 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These cell level effects altered tissue-scale mechanics where IL-1β inhibited the contraction of a collagen gel over 6 days. Interestingly, progesterone treatment alone did not modulate traction forces or gel contraction but did result in a dramatic increase in cell-ECM adhesion. 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subjects Adhesion
Biochemistry
Biological and Medical Physics
Biomechanics
Biomedical and Life Sciences
Biomedical Engineering and Bioengineering
Biomedicine
Biophysics
Cell Adhesion - drug effects
Cells, Cultured
Cervix
Cervix Uteri - cytology
Classical Mechanics
Collagen
Collagen - metabolism
Contractility
Contraction
Cytokines
Estradiol - pharmacology
Estrogens
Extracellular matrix
Extracellular Matrix - drug effects
Extracellular Matrix - physiology
Female
Fibroblasts
Fibroblasts - drug effects
Fibroblasts - physiology
Gene expression
Hormones
Humans
IL-1β
Infant mortality
Inflammation
Interleukin-1beta - pharmacology
Matrix Metalloproteinases - metabolism
Mechanical properties
Mechanics
Neonates
Pregnancy
Premature birth
Pretreatment
Progesterone
Progesterone - pharmacology
Ripening
Traction
Traction force
Uterus
title Cellular Mechanics of Primary Human Cervical Fibroblasts: Influence of Progesterone and a Pro-inflammatory Cytokine
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