The vertebrate small leucine-rich proteoglycans: amplification of a clustered gene family and evolution of their transcriptional profile in jawed vertebrates.

Abstract

Small Leucine-Rich Proteoglycans (SLRPs) are a major family of vertebrate proteoglycans. In bony vertebrates, SLRPs have a variety of functions from structural to signaling and are found in extracellular matrices, notably in skeletal tissues. However, there is little or no data on the diversity, function and expression patterns of SLRPs in cartilaginous fishes, which hinders our understanding of how these genes evolved with the diversification of vertebrates, in particular regarding the early events of whole genome duplications that shaped gnathostome and cyclostome genomes. We used a selection of chromosome-level assemblies of cartilaginous fish and other vertebrate genomes for phylogeny and synteny reconstructions, allowing better resolution and understanding of the evolution of this gene family in vertebrates. Novel SLRP members were uncovered together with specific loss events in different lineages. Our reconstructions support that the canonical SLRPs have originated from different series of tandem duplications that preceded the extant vertebrate last common ancestor, one of them even preceding the extant chordate last common ancestor. They then further expanded with additional tandem and whole-genome duplications during the diversification of extant vertebrates. Finally, we characterized the expression of several SLRP members in the small-spotted catshark Scyliorhinus canicula and from this, inferred conserved and derived SLRP expression in several skeletal and connective tissues in jawed vertebrates.