Modeling Hypoxic Stress In Vitro Using Human Embryonic Stem Cells Derived Cardiomyocytes Matured by FGF4 and Ascorbic Acid Treatment

Choi, Seung-Cheol; Seo, Ha-Rim; Cui, Long-Hui; Song, Myeong-Hwa; Noh, Ji-Min; Kim, Kyung-Seob; Choi, Ji-Hyun; Kim, Jong-Ho; Park, Chi-Yeon; Joo, Hyung Joon; Hong, Soon Jun; Ko, Tae Hee; Choi, Jong-Il; Kim, Hyo Jin; Kim, Jong-Hoon; Paek, Se-Hwan; Park, Ji-Na; Kim, Dong-Hyung; Jang, Yongjun; Park, Yongdoo; Lim, Do-Sun

doi:10.3390/cells10102741

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Modeling Hypoxic Stress In Vitro Using Human Embryonic Stem Cells Derived Cardiomyocytes Matured by FGF4 and Ascorbic Acid Treatment

Authors: Choi, Seung-Cheol; Seo, Ha-Rim; Cui, Long-Hui; Song, Myeong-Hwa; Noh, Ji-Min; Kim, Kyung-Seob; Choi, Ji-Hyun; Kim, Jong-Ho; Park, Chi-Yeon; Joo, Hyung Joon; Hong, Soon Jun; Ko, Tae Hee; Choi, Jong-Il; Kim, Hyo Jin; Kim, Jong-Hoon; Paek, Se-Hwan; Park, Ji-Na; Kim, Dong-Hyung; Jang, Yongjun; Park, Yongdoo; Lim, Do-Sun

Issue Date: Oct-2021

Publisher: MDPI

Keywords: cardiac; cytokines; differentiation; hypoxia; pluripotent stem cells

Citation: CELLS, v.10, no.10

Indexed: SCIE
SCOPUS

Journal Title: CELLS

Volume: 10

Number: 10

URI: https://scholar.korea.ac.kr/handle/2021.sw.korea/136172

DOI: 10.3390/cells10102741

ISSN: 2073-4409

Abstract: Mature cardiomyocytes (CMs) obtained from human pluripotent stem cells (hPSCs) have been required for more accurate in vitro modeling of adult-onset cardiac disease and drug discovery. Here, we found that FGF4 and ascorbic acid (AA) induce differentiation of BG01 human embryonic stem cell-cardiogenic mesoderm cells (hESC-CMCs) into mature and ventricular CMs. Co-treatment of BG01 hESC-CMCs with FGF4+AA synergistically induced differentiation into mature and ventricular CMs. FGF4+AA-treated BG01 hESC-CMs robustly released acute myocardial infarction (AMI) biomarkers (cTnI, CK-MB, and myoglobin) into culture medium in response to hypoxic injury. Hypoxia-responsive genes and potential cardiac biomarkers proved in the diagnosis and prognosis of coronary artery diseases were induced in FGF4+AA-treated BG01 hESC-CMs in response to hypoxia based on transcriptome analyses. This study demonstrates that it is feasible to model hypoxic stress in vitro using hESC-CMs matured by soluble factors.</p>

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Appears in Collections: College of Medicine > Department of Medical Science > 1. Journal Articles; Graduate School > Department of Biomedical Sciences > 1. Journal Articles; Graduate School > Department of Biotechnology > 1. Journal Articles

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