Cell Reports (Mar 2019)

In Vivo Generation of Post-infarct Human Cardiac Muscle by Laminin-Promoted Cardiovascular Progenitors

  • Lynn Yap,
  • Jiong-Wei Wang,
  • Aida Moreno-Moral,
  • Li Yen Chong,
  • Yi Sun,
  • Nathan Harmston,
  • Xiaoyuan Wang,
  • Suet Yen Chong,
  • Miina K. Öhman,
  • Heming Wei,
  • Ralph Bunte,
  • Sujoy Gosh,
  • Stuart Cook,
  • Outi Hovatta,
  • Dominique P.V. de Kleijn,
  • Enrico Petretto,
  • Karl Tryggvason

Journal volume & issue
Vol. 26, no. 12
pp. 3231 – 3245.e9

Abstract

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Summary: Regeneration of injured human heart muscle is limited and an unmet clinical need. There are no methods for the reproducible generation of clinical-quality stem cell-derived cardiovascular progenitors (CVPs). We identified laminin-221 (LN-221) as the most likely expressed cardiac laminin. We produced it as human recombinant protein and showed that LN-221 promotes differentiation of pluripotent human embryonic stem cells (hESCs) toward cardiomyocyte lineage and downregulates pluripotency and teratoma-associated genes. We developed a chemically defined, xeno-free laminin-based differentiation protocol to generate CVPs. We show high reproducibility of the differentiation protocol using time-course bulk RNA sequencing developed from different hESC lines. Single-cell RNA sequencing of CVPs derived from hESC lines supported reproducibility and identified three main progenitor subpopulations. These CVPs were transplanted into myocardial infarction mice, where heart function was measured by echocardiogram and human heart muscle bundle formation was identified histologically. This method may provide clinical-quality cells for use in regenerative cardiology. : Yap et al. perform in vitro differentiation of pluripotent embryonic stem cells to cardiovascular progenitors using laminin-221 as a culture matrix in a fully human and chemically defined protocol. Use of these cells for in vivo cardiac regeneration and to generate human heart muscle bundles results in improved heart function. Keywords: laminin, hESC-based cardiac muscle regeneration, regenerative cardiology, cardiovascular progenitors