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Effects of substrate mechanics on contractility of cardiomyocytes generated from human pluripotent stem cells.


ABSTRACT: Human pluripotent stem cell (hPSC-) derived cardiomyocytes have potential applications in drug discovery, toxicity testing, developmental studies, and regenerative medicine. Before these cells can be reliably utilized, characterization of their functionality is required to establish their similarity to native cardiomyocytes. We tracked fluorescent beads embedded in 4.4-99.7?kPa polyacrylamide hydrogels beneath contracting neonatal rat cardiomyocytes and cardiomyocytes generated from hPSCs via growth-factor-induced directed differentiation to measure contractile output in response to changes in substrate mechanics. Contraction stress was determined using traction force microscopy, and morphology was characterized by immunocytochemistry for ?-actinin and subsequent image analysis. We found that contraction stress of all types of cardiomyocytes increased with substrate stiffness. This effect was not linked to beating rate or morphology. We demonstrated that hPSC-derived cardiomyocyte contractility responded appropriately to isoprenaline and remained stable in culture over a period of 2 months. This study demonstrates that hPSC-derived cardiomyocytes have appropriate functional responses to substrate stiffness and to a pharmaceutical agent, which motivates their use in further applications such as drug evaluation and cardiac therapies.

SUBMITTER: Hazeltine LB 

PROVIDER: S-EPMC3357596 | biostudies-literature | 2012

REPOSITORIES: biostudies-literature

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Effects of substrate mechanics on contractility of cardiomyocytes generated from human pluripotent stem cells.

Hazeltine Laurie B LB   Simmons Chelsey S CS   Salick Max R MR   Lian Xiaojun X   Badur Mehmet G MG   Han Wenqing W   Delgado Stephanie M SM   Wakatsuki Tetsuro T   Crone Wendy C WC   Pruitt Beth L BL   Palecek Sean P SP  

International journal of cell biology 20120509


Human pluripotent stem cell (hPSC-) derived cardiomyocytes have potential applications in drug discovery, toxicity testing, developmental studies, and regenerative medicine. Before these cells can be reliably utilized, characterization of their functionality is required to establish their similarity to native cardiomyocytes. We tracked fluorescent beads embedded in 4.4-99.7 kPa polyacrylamide hydrogels beneath contracting neonatal rat cardiomyocytes and cardiomyocytes generated from hPSCs via gr  ...[more]

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