Prey Shifts Drive Venom Evolution in Cone Snails

Mol Biol Evol. 2024 Aug 2;41(8):msae120. doi: 10.1093/molbev/msae120.

Abstract

Venom systems are complex traits that have independently emerged multiple times in diverse plant and animal phyla. Within each venomous lineage there typically exists interspecific variation in venom composition where several factors have been proposed as drivers of variation, including phylogeny and diet. Understanding these factors is of broad biological interest and has implications for the development of antivenom therapies and venom-based drug discovery. Because of their high species richness and the presence of several major evolutionary prey shifts, venomous marine cone snails (genus Conus) provide an ideal system to investigate drivers of interspecific venom variation. Here, by analyzing the venom gland expression profiles of ∼3,000 toxin genes from 42 species of cone snail, we elucidate the role of prey-specific selection pressures in shaping venom variation. By analyzing overall venom composition and individual toxin structures, we demonstrate that the shifts from vermivory to piscivory in Conus are complemented by distinct changes in venom composition independent of phylogeny. In vivo injections of venom from piscivorous cone snails in fish further showed a higher potency compared with venom of nonpiscivores demonstrating a selective advantage. Together, our findings provide compelling evidence for the role of prey shifts in directing the venom composition of cone snails and expand our understanding of the mechanisms of venom variation and diversification.

Keywords: cone snail; conotoxins; predator–prey interactions; venom; venom evolution.

MeSH terms

  • Animals
  • Biological Evolution
  • Conus Snail* / genetics
  • Evolution, Molecular
  • Mollusk Venoms* / genetics
  • Phylogeny
  • Predatory Behavior

Substances

  • Mollusk Venoms