Trait Loss in Evolution: What Cavefish Have Taught Us About Mechanisms Underlying Eye Regression.
Itzel Sifuentes-RomeroAri M AvilesJoseph L CarterAllen Chan-PongAnik ClarkePatrick CrottyDavid EngstromPranav MekaAlexandra PerezRiley PerezChristine PhelanTaylor SharrardMaria I SmirnovaAmanda J WadeJohanna E KowalkoPublished in: Integrative and comparative biology (2023)
Reduction or complete loss of traits is a common occurrence throughout evolutionary history. In spite of this, numerous questions remain about why and how trait loss has occurred. Cave animals are an excellent system in which these questions can be answered as multiple traits, including eyes and pigmentation, have been repeatedly reduced or lost across populations of cave species. This review focuses on how the blind Mexican cavefish, Astyanax mexicanus, has been used as a model system for examining the developmental, genetic and evolutionary mechanisms that underlie eye regression in cave animals. We focus on multiple aspects of how eye regression evolved in A. mexicanus, including the developmental and genetic pathways that contribute to eye regression, the effects of evolution of eye regression on other traits that have also evolved in A. mexicanus, and the evolutionary forces contributing to eye regression. We also discuss what is known about the repeated evolution of eye regression, both across populations of A. mexicanus cavefish, and across cave animals more generally. Finally, we offer perspectives on how cavefish can be used in the future to further elucidate mechanisms underlying trait loss using tools and resources that have recently become available.