Regeneration of the heart

ML Steinhauser, RT Lee - EMBO molecular medicine, 2011 - embopress.org
ML Steinhauser, RT Lee
EMBO molecular medicine, 2011embopress.org
The death of cardiac myocytes diminishes the heart's pump function and is a major cause of
heart failure, one of the dominant causes of death worldwide. Other than transplantation,
there are no therapies that directly address the loss of cardiac myocytes, which explains the
current excitement in cardiac regeneration. The field is evolving in two important directions.
First, although endogenous mammalian cardiac regeneration clearly seems to decline
rapidly after birth, it may still persist in adulthood. The careful elucidation of the cellular and …
Abstract
The death of cardiac myocytes diminishes the heart's pump function and is a major cause of heart failure, one of the dominant causes of death worldwide. Other than transplantation, there are no therapies that directly address the loss of cardiac myocytes, which explains the current excitement in cardiac regeneration. The field is evolving in two important directions. First, although endogenous mammalian cardiac regeneration clearly seems to decline rapidly after birth, it may still persist in adulthood. The careful elucidation of the cellular and molecular mechanisms of endogenous heart regeneration may therefore provide an opportunity for developing therapeutic interventions that amplify this process. Second, recent breakthroughs have enabled reprogramming of cells that were apparently terminally differentiated, either by dedifferentiation into pluripotent stem cells or by transdifferentiation into cardiac myocytes. These achievements challenge our conceptions of what is possible in terms of heart regeneration. In this review, we discuss the current status of research on cardiac regeneration, with a focus on the challenges that hold back therapeutic development.
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