Effects of polydimethylsiloxane membrane surface treatments on human uterine smooth muscle cell strain response  

作　　者：Elizabeth E.Marr Brett C.Isenberg Joyce Y.Wong 

机构地区：[1]Boston University,Division of Materials Science and Engineering,United States [2]Charles Stark Draper Laboratory,Bioengineering Division,United States [3]Boston University,Department of Biomedical Engineering,United States

出　　处：《Bioactive Materials》2024年第2期415-426,共12页生物活性材料（英文）

基　　金：funded by the Draper Bioengineering Division。

摘　　要：In the United States,1 in 10 infants are born preterm.The majority of neonatal deaths and nearly a third of infant deaths are linked to preterm birth.Preterm birth is initiated when the quiescent state of the uterus ends prematurely,leading to contractions and parturition beginning as early as 32 weeks,though the origins are not well understood.To enable research and discovery of therapeutics with potential to better address preterm birth,the capability to study isolated cell processes of pregnant uterine tissue in vitro is needed.Our development of an in vitro model of the myometrium utilizing human uterine smooth muscle cells(uSMCs)responsible for contractions provides a methodology to examine cellular mechanisms of late-stage pregnancy potentially involved in preterm birth.We discuss culture of uSMCs on a flexible polydimethylsiloxane(PDMS)substrate functionalized with cationic poly-L-lysine(PLL),followed by extracellular matrix(ECM)protein coating.Previous work exploring uSMC behavior on PDMS substrates have utilized collagen-I coatings,however,we demonstrated the first exploration of human uSMC response to strain on fibronectin-coated flexible membranes,importantly reflecting the significant increase of fibronectin content found in the myometrial ECM during late-stage pregnancy.Using the model we developed,we conducted proof-of-concept studies to investigate the impact of substrate strain on uSMC cell morphology and gene expression.It was found that PLL and varied ECM protein coatings(collagen I,collagen III,and fibronectin)altered cell nuclei morphology and density on PDMS substrates.Additionally,varied strain rates applied to uSMC substrates significantly impacted uSMC gene expression of IL-6,a cytokine associated with instances of preterm labor.These results suggest that both surface and mechanical properties of in vitro systems impact primary human uSMC phenotype and offer uSMC culture methodologies that can be utilized to further the understanding of cellular pathways involved in the uterus under mechan

关 键 词：UTERINE MYOMETRIUM Bioengineered in vitro models Strain PREGNANCY NUCLEI Interleukin 6 Preterm labor 

分 类 号：R318[医药卫生—生物医学工程]