Subtranscriptome analysis of phospholipases D in Loxosceles venom glands: Confirmation of predominance, intra-species diversity, and description of novel isoforms.

Spiders of Loxosceles genus, or Brown spiders produce a potent venom with minimal volume and protein content. Among its toxins, phospholipases D (PLDs) are notable for causing primary local and systemic manifestations observed following envenomation. They degrade cellular phospholipids, mainly sphingomyelin and lysophosphatidylcholine. We present a robust and detailed analysis of PLD transcripts from venom glands of three major clinically relevant South American species-L. intermedia, L. laeta, and L. gaucho-using next-generation sequencing. Results confirmed that PLDs are the most highly expressed toxins, accounting for 65.4 % of expression in L. intermedia, 71.8 % in L. gaucho, and 50.4 % in L. laeta. These findings further support the idea that these enzymes form a protein family both within and across species. Eighteen contigs for PLDs were found for L. gaucho, 24 for L. intermedia, and 21 for L. laeta. A detailed analysis revealed that, although all contigs display conserved amino acid residues directly involved in catalysis, magnesium coordination, and substrate affinity, they also possess distinct primary sequences with important substitutions. Such data reinforces the hypothesis that these toxins may act synergistically. Furthermore, new PLD sequences were identified within the contigs. For L. intermedia, 14 potential new isoforms were identified; 16 for L gaucho; and 16 novel sequences for L. laeta. This indicates that there is still a wealth of undisclosed information about these toxins. These data will help identify structural and functional differences among these proteins, support future functional studies, and to the comprehensive understanding of the mechanism of action of PLDs.