A heart attack kills off many cells in the heart. Parts of the heart become thin and fail to contract properly following the replacement oflost cells by scar tissue. However, the notion that the same adult cardiomyocytes beat throughout the lifespan of the organ and organism,without the need for a minimum turnover, gives way to a fascinating investigations. Since the late 1800s, scientists and cardiologistswanted to demonstrate that the cardiomyocytes cannot be generated after the perinatal period in human beings. This curiosity hasbeen passed down in subsequent years and has motivated more and more accurate studies in an attempt to exclude the presence ofrenewed cardiomyocytes in the tissue bordering the ischaemic area, and then to confirm the dogma of the heart as terminally differentiated organ. Conversely, peri-lesional mitosis of cardiomyocytes were discovered initially by light microscopy and subsequently confirmed by more sophisticated technologies. Controversial evidence of mechanisms underlying myocardial regeneration has shown that adult cardiomyocytes are renewed through a slow turnover, even in the absence of damage. This turnover is ensured by the activationof rare clusters of progenitor cells interspersed among the cardiac cells functionally mature. Cardiac progenitor cells continuously interactwith each other, with the cells circulating in the vessels of the coronary microcirculation and myocardial cells in auto-/paracrine manner. Much remains to be understood; however, the limited functional recovery in human beings after myocardial injury clearly demonstrates weak regenerative potential of cardiomyocytes and encourages the development of new approaches to stimulate this process.
Prometheus’s Heart: what lies beneath
LIONETTI, Vincenzo
2012-01-01
Abstract
A heart attack kills off many cells in the heart. Parts of the heart become thin and fail to contract properly following the replacement oflost cells by scar tissue. However, the notion that the same adult cardiomyocytes beat throughout the lifespan of the organ and organism,without the need for a minimum turnover, gives way to a fascinating investigations. Since the late 1800s, scientists and cardiologistswanted to demonstrate that the cardiomyocytes cannot be generated after the perinatal period in human beings. This curiosity hasbeen passed down in subsequent years and has motivated more and more accurate studies in an attempt to exclude the presence ofrenewed cardiomyocytes in the tissue bordering the ischaemic area, and then to confirm the dogma of the heart as terminally differentiated organ. Conversely, peri-lesional mitosis of cardiomyocytes were discovered initially by light microscopy and subsequently confirmed by more sophisticated technologies. Controversial evidence of mechanisms underlying myocardial regeneration has shown that adult cardiomyocytes are renewed through a slow turnover, even in the absence of damage. This turnover is ensured by the activationof rare clusters of progenitor cells interspersed among the cardiac cells functionally mature. Cardiac progenitor cells continuously interactwith each other, with the cells circulating in the vessels of the coronary microcirculation and myocardial cells in auto-/paracrine manner. Much remains to be understood; however, the limited functional recovery in human beings after myocardial injury clearly demonstrates weak regenerative potential of cardiomyocytes and encourages the development of new approaches to stimulate this process.File | Dimensione | Formato | |
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