Abstract
The sclera is the tough outer covering of the eye that provides structural support and helps maintain intraocular pressure. In some fishes, reptiles, and birds, the sclera is reinforced with an additional ring of hyaline cartilage or bone that forms from scleral ossicles. Currently, the evolutionary and genetic basis of scleral ossification is poorly understood, especially in teleost fishes. We assessed scleral ossification among several groups of the Mexican tetra (Astyanax mexicanus), which exhibit both an eyed and eyeless morph. Although eyed Astyanax surface fish have bony sclera similar to other teleosts, the ossicles of blind Astyanax cavefish generally do not form. We first sampled cavefish from multiple independent populations and used ancestral character state reconstructions to determine how many times scleral ossification has been lost. We then confirmed these results by assessing complementation of scleral ossification among the F1 hybrid progeny of two cavefish populations. Finally, we quantified the number of scleral ossicles present among the F2 hybrid progeny of a cross between surface fish and cavefish, and used this information to identify quantitative trait loci (QTL) responsible for this trait. Our results indicate that the loss of scleral ossification is common–but not ubiquitous–among Astyanax cavefish, and that this trait has been convergently lost at least three times. The presence of wild-type, ossified sclera among the F1 hybrid progeny of a cross between different cavefish populations confirms the convergent evolution of this trait. However, a strongly skewed distribution of scleral ossicles found among surface fish x cavefish F2 hybrids suggests that scleral ossification is a threshold trait with a complex genetic basis. Quantitative genetic mapping identified a single QTL for scleral ossification on Astyanax linkage group 1. We estimate that the threshold for this trait is likely determined by at least three genetic factors which may control the severity and onset of lens degeneration in cavefishes. We conclude that complex evolutionary and genetic patterns underlie the loss of scleral ossification in Astyanax cavefish.
Highlights
The Vertebrate Sclera and Scleral OssificationThe vertebrate sclera is the tough outer covering of the eye that provides structural support to the eye and helps maintain intraocular pressure
The results of this study suggests that the loss of scleral ossification has evolved convergently at least three times among Astyanax cavefish; the skewed inheritance of this trait in SF x CF F2 indicates that this seemingly simple phenotype is the result of an underlying genetic threshold with a complex genetic basis
For our first two analyses, we examined scleral ossification in multiple Astyanax cavefish populations and their hybrids in order to assess the extent of scleral ossification and its genetic basis in this group
Summary
The Vertebrate Sclera and Scleral OssificationThe vertebrate sclera is the tough outer covering of the eye that provides structural support to the eye and helps maintain intraocular pressure. Humans and other mammals lack a cartilaginous sclera and scleral ossicles, they can still develop atavistic ossifications similar to those found in birds and fishes following cancer or ocular trauma [3,4,5]. The developmental signaling genes sonic hedgehog (shh; OMIM: 600725), indian hedgehog (ihh; OMIM: 600726), and bone morphogenic protein 2 (bmp; OMIM: 112261) have all been implicated [9]. Following their induction, the scleral ossicles grow over a period of several days via intramembranous ossification [6]. Several factors have been shown to influence scleral ossicle formation in chicks, including environmental variation, genetic variation [10], and growth rate [11]
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