Proventriculus (cardia) plays a crucial role in immunity in tsetse fly (Diptera: Glossinidiae)

Abstract

Fat body and hemocytes play a central role in cellular and humoral responses for systemic infections in invertebrates, similar to the mammalian liver and blood cells. Epithelial surfaces, in particular the midgut, participate in the initial local immune responses in order to aid in the generation of the terminal cytotoxic molecules that mediate non-self recognition. Here, we describe for the first time the immune responses of a cluster of cells at the foregut/midgut junction—known as proventriculus (cardia) in the medically and agriculturally important insect, tsetse fly (Diptera: Glossinidae). We provide evidence for the transcriptional induction of the antimicrobial peptides attacin and defensin as well as for the reactive nitrogen intermediate (RNI) nitric oxide synthase (NOS) upon microbial challenge by either microinjection or feeding. Proventriculus from immune challenged flies also has higher NOS and nitric oxide (NO) activities as well as increased levels of the reactive oxygen intermediate (ROI), hydrogen peroxide (H 2O 2). In several vector pathogen systems, including tsetse flies and African trypanosomes, stimulation of systemic responses prior to pathogen acquisition has been shown to reduce disease transmission. Furthermore, the induction of systemic immune responses has been documented while pathogens are still differentiating within the midgut environment. While evidence for a close molecular communication between the local and systemic responses is accumulating, the molecular signals that mediate these interactions are at present unknown. Reactive intermediates such as NO or H 2O 2 may function as immunological signals for mediating the molecular communication between the different insect compartments. We discuss the putative role of the proventriculus in invertebrate immunity and specifically speculate on its significance for trypanosome transmission in tsetse.