Evidence for hormonal control of heart regenerative capacity during endothermy acquisition
Thyroid Hormones
Adult Newt
Consumption
General Science & Technology
Proliferation
bats
610
Activation
bat
Regenerative Medicine
Cardiovascular
Energy-expenditure
Polyploidy
[SPI]Engineering Sciences [physics]
Mice
Chiroptera
Receptors
2.1 Biological and endogenous factors
Thyroid Hormone
Animals
Regeneration
Animalia
Myocytes, Cardiac
Aetiology
Chordata
Biology
Phylogeny
Zebrafish
Cell Proliferation
Myocytes
Receptors, Thyroid Hormone
Temperature
Lizards
Heart
Cell Cycle Checkpoints
Biodiversity
thyroid hormone
Diploidy
Recombination
3. Good health
Heart Disease
Mammalia
Metabolic-rate
Cardiac
Body Temperature Regulation
Signal Transduction
DOI:
10.1126/science.aar2038
Publication Date:
2019-03-08T00:18:15Z
AUTHORS (28)
ABSTRACT
The price of staying warm
Among vertebrates, zebrafish and salamanders can regenerate their hearts, whereas adult mice and humans cannot. Hirose
et al.
analyzed diploid cardiomyocyte frequency as a proxy for cardiac regenerative potential across 41 vertebrate species (see the Perspective by Marchianò and Murry). They observed an inverse correlation of these cells with thyroid hormone concentrations during the ectotherm-to-endotherm transition. Mice with defects in thyroid hormone signaling retained significant heart regenerative capacity, whereas zebrafish exposed to excessive thyroid hormones exhibit impaired cardiac repair. Loss of heart regenerative ability in mammals may represent a trade-off for increases in metabolism necessary for the development of endothermy.
Science
, this issue p.
184
; see also p.
123
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