Journal of Tissue Engineering (Jul 2020)

Tissue-engineered human embryonic stem cell-containing cardiac patches: evaluating recellularization of decellularized matrix

  • Camila Hochman-Mendez,
  • Dilza Balteiro Pereira de Campos,
  • Rafael Serafim Pinto,
  • Bernardo Jorge da Silva Mendes,
  • Gustavo Miranda Rocha,
  • Gustavo Monnerat,
  • Gilberto Weissmuller,
  • Luiz C Sampaio,
  • Adriana Bastos Carvalho,
  • Doris A Taylor,
  • Antonio Carlos Campos de Carvalho

DOI
https://doi.org/10.1177/2041731420921482
Journal volume & issue
Vol. 11

Abstract

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Decellularized cardiac extracellular matrix scaffolds with preserved composition and architecture can be used in tissue engineering to reproduce the complex cardiac extracellular matrix. However, evaluating the extent of cardiomyocyte repopulation of decellularized cardiac extracellular matrix scaffolds after recellularization attempts is challenging. Here, we describe a unique combination of biochemical, biomechanical, histological, and physiological parameters for quantifying recellularization efficiency of tissue-engineered cardiac patches compared with native cardiac tissue. Human embryonic stem cell-derived cardiomyocytes were seeded into rat heart atrial and ventricular decellularized cardiac extracellular matrix patches. Confocal and atomic force microscopy showed cell integration within the extracellular matrix basement membrane that was accompanied by restoration of native cardiac tissue passive mechanical properties. Multi-electrode array and immunostaining (connexin 43) were used to determine synchronous field potentials with electrical coupling. Myoglobin content (~60%) and sarcomere length measurement (>45% vs 2D culture) were used to evaluate cardiomyocyte maturation of integrated cells. The combination of these techniques allowed us to demonstrate that as cellularization efficiency improves, cardiomyocytes mature and synchronize electrical activity, and tissue mechanical/biochemical properties improve toward those of native tissue.