Abstract
Blindness is a convergent trait in many cave animals of various phyla. Astyanax mexicanus cavefish is one of the best studied cave animals; however the mechanisms underlying eye degeneration in this species are not yet completely understood. The lens seems to play a central role, but only relatively late differentiation defects have been implicated in the cavefish lens apoptosis phenotype so far. Here, we used genetic crosses between Astyanax cavefish and surface fish to confirm that during development, lens size is independent of retina size. We then investigated whether the small size of the cavefish lens could directly cause cell death. Laser ablation experiments of lens placode cells in surface fish embryos showed that a small lens size is not sufficient to trigger lens apoptosis. We further examined potential lens morphogenesis defects through classical histology and live-imaging microscopy. From lens placode to lens ball, we found that lens invagination and formation of the lens epithelium and fiber cells occur normally in cavefish. We conclude that the main and deleterious defect in the Astyanax cavefish lens must concern the molecular control of lens cell function.
Highlights
Genetic evidence from eye anatomical analyses or QTL studies using adult F2 hybrid individuals after SF×CF crosses suggests that the retina and the lens structures are subjected to separate genetic control and that the size of these two eye components are controlled by different loci [36,37,38]
The lens has long been identified as the main defective eye tissue in cavefish: transplanting a cavefish lens into a surface fish optic cup is enough to trigger apoptosis in the surface fish eye [9]
We investigated whether the small size of the cavefish lens, or its morphogenesis, could participate in lens apoptosis
Summary
The blind Astyanax mexicanus cavefish (CF) is one of the best studied cave animals, in particular because in this species, there are eyed river-dwelling fishes (called surface fish, SF), which can be used for comparative studies [2, 3]. This species comprises 29 different cave populations, some of which evolved independently [4], which allows the study of convergent evolution. Astyanax cavefish embryos first develop an eye, with a correctly formed eye cup (the future retina, i.e., the neural part of the eye) and lens (derived from a placode, a non-neural ectodermal thickening) [5, 6]. We addressed the potential link between its small size and apoptosis, and we analysed its morphogenesis
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