Cardiomyogenesis of periodontal ligament-derived stem cells by dynamic tensile strain
Publication in refereed journal

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其它資訊
摘要Cellular therapies for the treatment of myocardial infarction have proven to be an invaluable tool in recent years and provide encouraging evidence for the possibility to restore normal heart function. However, questions still remain as to the optimal cell source, pre-conditioning methods and delivery techniques for such an application. This study explores the use of a population of stem cells arising from the neural crest and isolated from adult human periodontal ligament along with short-term mechanical strain as an inducer of cardiomyogenesis and possibly pre-conditioning stimulus for cellular cardiomyoplasty. Cells were subjected to a short-term dynamic mechanical tension in our custom-built bioreactor and analyzed for cardiomyogenic commitment. Mechanical strain elicited a cardiomyogenic response from the cells following just 2 h of stimulation. Mechanical strain activated and translocated cardiac-specific transcription factors GATA4, MEF2C and Nkx2.5, and induced expression of the sarcomeric actin and cardiac troponin T proteins. Mechanical strain induced production of significantly higher levels of nitric oxide when compared to static controls. Elimination of elevated ROS levels by free radical scavengers completely abolished the cardiomyogenic response of the cells. MicroRNA profile changes in stretched cells were detected for 39 miRNAs with 16 of the differentially expressed miRNAs related to heart development. The use of stem cells in combination with mechanical strain prior to their delivery in vivo may pose a valuable alternative for the treatment of myocardial infarction and merits further exploration for its capacity to augment the already observed beneficial effects of cellular therapies.
著者Daniel Pelaez, Zenith Acosta Torres, Tsz Kin Ng, Kwong Wai Choy, Chi Pui Pang, Herman S. Cheung
期刊名稱Cell and Tissue Research
出版年份2017
月份2
卷號367
期次2
出版社SPRINGER
頁次229 - 241
國際標準期刊號0302-766X
語言英式英語
關鍵詞Mechanotransduction, Tensile strain, Cardiomyogenesis,Stemcells
Web of Science 學科類別Cell Biology;Cell Biology

上次更新時間 2021-17-01 於 01:36