Article
The evolution of antimicrobial peptides in Chiroptera
Frontiers in Immunology
(2023)
Abstract
High viral tolerance coupled with an extraordinary regulation of the immune response makes bats a great model to study host-pathogen evolution. Although many immune-related gene gains and losses have been previously reported in
bats, important gene families such as antimicrobial peptides (AMPs) remain understudied. We built an exhaustive bioinformatic pipeline targeting the major gene families of defensins and cathelicidins to explore AMP diversity and analyze their evolution and distribution across six bat families. A combination of manual and automated procedures identified 29 AMP families across queried species, with a-, b-defensins, and cathelicidins representing around 10% of AMP diversity. Gene duplications were inferred in both a-defensins, which were absent in five species, and three b-defensin gene subfamilies, but cathelicidins did not show significant shifts in gene family size and were absent in Anoura caudifer and the pteropodids. Based on lineage-specific gains and losses, we propose diet and diet-related microbiome evolution may determine the evolution of a- and bdefensins gene families and subfamilies. These results highlight the importance of building species-specific libraries for genome annotation in non-model organisms and shed light on possible drivers responsible for the rapid evolution of AMPs. By focusing on these understudied defenses, we provide a robust framework for explaining bat responses to pathogens.
Keywords
- innate immunity,
- defensins,
- bioinformatics pipelines,
- non-model organisms,
- gene annotation,
- transposable elements
Disciplines
Publication Date
September 26, 2023
DOI
doi: 10.3389/fimmu.2023.1250229
Citation Information
Francisco Castellanos, Diana Moreno-Santillán, Graham M. Hughes, Nicole S. Paulat, et al.. "The evolution of antimicrobial peptides in Chiroptera" Frontiers in Immunology Vol. 14 (2023) p. 1250229 Available at: http://works.bepress.com/amy_russell/44/