AI Article Synopsis
- Brown adipose tissue (BAT) helps maintain body temperature in cold environments through a protein called UCP1, but the evolutionary origins of this process are not well understood.
- Research indicates that marsupials have a nonthermogenic variant of UCP1, suggesting a different evolutionary pathway compared to eutherian mammals (like humans), which developed a thermogenic form of UCP1.
- The findings imply that mammalian BAT thermogenesis evolved in two stages: an initial nonthermogenic stage in the common ancestor of therian mammals and later the development of thermogenic capabilities specifically in eutherians after their divergence from marsupials.
Article Abstract
Brown adipose tissue (BAT) is a heater organ that expresses thermogenic uncoupling protein 1 (UCP1) to maintain high body temperatures during cold stress. BAT thermogenesis is considered an overarching mammalian trait, but its evolutionary origin is unknown. We show that adipose tissue of marsupials, which diverged from eutherian mammals 150 million years ago, expresses a nonthermogenic UCP1 variant governed by a partial transcriptomic BAT signature similar to that found in eutherian beige adipose tissue. We found that the reconstructed UCP1 sequence of the common eutherian ancestor displayed typical thermogenic activity, whereas therian ancestor UCP1 is nonthermogenic. Thus, mammalian adipose tissue thermogenesis may have evolved in two distinct stages, with a prethermogenic stage in the common therian ancestor linking UCP1 expression to adipose tissue and thermal stress. We propose that in a second stage, UCP1 acquired its thermogenic function specifically in eutherians, such that the onset of mammalian BAT thermogenesis occurred only after the divergence from marsupials.
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| http://dx.doi.org/10.1126/science.adg1947 | DOI Listing |
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