New research on the reproductive habits of zebrafish offers an explanation as to why some animals' bodies repair tissues. The research team
previously1 noticed that male zebrafish
regenerate2 their
pectoral fins4(胸鳍) poorly, as compared to females. Their latest findings, publishing in the October 14 issue of the Cell Press journal Developmental Cell, reveal the basis for this sex-specific regenerative deficiency: structures that are used to improve reproductive success. The
scenario5 represents an example of the
tradeoffs(权衡,折衷) between reproduction and survival. Led by first author Junsu Kang, the scientists identified
anatomical(解剖的) structures that male fish use during mating that produce a signal that
impedes6 regeneration of the pectoral fins after injury. As such, fish appear to trade an ancient ability to regenerate tissue easily for a new-found way of enhancing reproductive success. This valuable information could help scientists begin to explain why humans are less able to regenerate tissue and could also be used to improve the body's tissue regenerative capacity.
"We discovered that male zebrafish have a very important set of structures on their pectoral fins that they use for breeding and that these structures
secrete7 a
potent8 molecular9 inhibitor of a key signaling pathway to aid their cycles of regular replacement," explains senior author Kenneth Poss of Duke University Medical Center.
Higher vertebrates like mammals generally have a
diminished(减弱的) capacity for tissue regeneration compared with lower vertebrates like fish and salamanders. "The biology we describe here suggests a new
paradigm10 for how tissue regenerative capacity may be lost during species evolution," says Poss. The researchers speculate that natural selection
acting11 on traits like sexual features could have
detrimental12(有害的) effects on tissue regenerative potential. For example, male zebrafish with more numerous or more effective breeding
ornaments13 -- and thus lower regenerative potential -- might contribute more to the
gene3 pool, phasing out regenerative potential over generations.
Poss notes that growing attention in the field of tissue regeneration is being paid to factors that block signaling pathways. "Our results indicate that the presence or
restriction14 of a pathway inhibitor is critical to whether regeneration occurs normally, providing new fuel for ideas of how to promote regeneration after injury in humans."