Adaptive evolution of peptidoglycan recognition protein family regulates the innate signaling against microbial pathogens in vertebrates

Ahmad, Hafiz Ishfaq; Asif, Akhtar Rasool; Ahmad, Muhammad Jamil; Jabbir, Farwa; Adnan, Muhammad; Ahmed, Shakeel; Afzal, Gulnaz; Saleem, Ali Haider; Li, Linmiao; Jiang, Haiying; Simirgiotis, Mario Juan; Rauf, Mubashar; Chen, Jinping

Abstract

The innate immune system is the first line of defense in vertebrates against microbial pathogens. This defense system depends on the peptidoglycan pathogen recognition of receptors (PGRPs) existing in both invertebrates and vertebrates. Although some studies revealed the structural and functional differences between them, however, the evolutionary history and the selection pressures on these genes during adaptive evolution are poorly understood. In this study, we examined four (PGLYRP1, PGLYRP2, PGLYRP3, and PGLYRP4) genes of 127 vertebrates' species, conserved across vertebrates to evaluate positive selection pressure drives by adaptive evolution. The codons under positive selection were recognized through likelihood tests by comparing different models based on omega ratios in these genes across the vertebrate species. The positive selection test used two sets of models M1a vs. M2a and M7 vs. M8. The results showed that the test of these genes in M1a vs. M2a was not significant with the likelihood value 2 Delta lnL = 0, while the likelihood ratios (2 Delta lnL) were 2 Delta lnL = 12.386, 2 Delta lnL = 4.9283, 2 Delta lnL = 24.031, and 2 Delta lnL = 103.39 for PGLYRP1, PGLYRP2, PGLYRP3, and PGLYRP4 in M7 vs. M8, respectively. Our study identified the evidence of robust positive selection for these four genes across the vertebrates. These protuberant changes in PGRPs evolution of vertebrates reveal their role in innate immunity. Our study provides an insight based on PGRP genes to understand the evolution of host and pathogens interaction that leads to the progress of the novel conducts for immune diseases that include proteins linked to the recognition of pathogens.

Más información

Título según WOS: Adaptive evolution of peptidoglycan recognition protein family regulates the innate signaling against microbial pathogens in vertebrates
Título de la Revista: MICROBIAL PATHOGENESIS
Volumen: 147
Editorial: ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
Fecha de publicación: 2020
DOI:

10.1016/j.micpath.2020.104361

Notas: ISI