Preferential Induction of Canonical IMD and Toll Innate Immune Receptors by Bacterial Challenges in Triatoma Pallidipennis Primed with Gram-Negative and Gram-Positive Bacteria, Respectively

Abstract

Insects lack an adaptive immune defense against invading microorganisms, but they possess humoral and cellular response similar to that of vertebrates. The Immune Deficiency (IMD) and Toll are the major signaling pathways to produce humoral antimicrobial peptides AMPs. Pathogen molecular patterns (PAMs) of Gram-negative bacteria activate Pattern recognition receptors (PRR) of the IMD pathway, while PAMS of Gram-positive activate PRR of the Toll pathway. Although the IMD pathways is incomplete in Hemipterans, in Triatoma pallidipennis, there is a preferential participation of the IMD pgrp-lc and toll receptors in the responses to Gramnegative and Gram-positive bacteria, respectively. Still, as in other insects, cross induction was observed. An enhanced protection after a previous exposure to a pathogen, termed priming, functionally homologous to the adaptive immune memory of vertebrates, has been documented in several insect Orders but not in Hemiptera, and the participation of the components of the immune signaling cascades remains poorly explored. We present evidence for immune priming to Micrococcus luteus (Gram-positive) and Escherichia coli (Gramnegative) bacteria in T. pallidipennis. The preferential participation of receptors of the IMD and Toll pathways in the responses to each bacterial challenge was recorded