The role of attacin in mediating refractoriness was demonstrated by RNAi knock-down. Refractory G. pallidipes depleted of attacin experienced a 45% infection rate whereas untreated flies showed 11% infection rates (17). Similar experiments in G. morsitans gave consistent
results. The nature of the signalling pathway controlling AMP expression was probed by RNAi knock-down of the NF-κB-related transcription factor relish. Depletion of relish resulted in no mRNA synthesis of attacin, defensin and cecropin in response to trypanosome challenge. Interestingly, the relative number of successful gut infections Tanespimycin nmr leading to infective metacyclic stages appearing in the salivary glands was not significantly different between RNAi-treated and control flies, suggesting that attacin does not function at later time points in the course of a trypanosome infection (16). The α- and β-defensins and the cathelicidins are structurally distinct major classes of AMPs, and mammalian representatives of each have been shown to be trypanolytic.
Both AMP classes are cationic and are generally thought to exert their cytolytic effect via membrane permeabilization (Figure 1). The major differences in these peptides are apparent in their expression profiles and structure. The defensins are expressed in a variety of tissues including neutrophils, Paneth cells and epithelial linings selleck kinase inhibitor of the gut, lung and skin and are characterized by several antiparallel β-sheets cross-linked by two or three disulphide bonds (33). The cathelicidins are structurally diverse exhibiting linear, cyclic,
α-helical and β-turn structures and are found mainly in neutrophils (34). Cathelicidins can also be induced in keratinocytes by skin barrier disruption (35). Relatively high concentrations of human β-defensins (50 μm) exhibit very weak killing of both PC and BSF T. brucei in vitro. A murine α-defensin, cryptin-4, exhibits similar activity against PC forms GPX6 but no activity against BSF T. brucei has been demonstrated (12). The cathelicidins are typically more potent trypanolytic AMPs than the defensins, and representative peptides from a variety of mammals have been shown to be trypanolytic. Cathelicidins from human (LL-37), sheep (SMAP-29, OaBAC-5-mini), cattle (BMAP-27, indolicidin, BAC-CN) and pigs (protegrin-1) kill both PC and BSF forms in vitro (12,36). Electron microscopy of PC trypanosomes treated with cathelicidins reveals a crumpled, rounded morphology with extensive disruption of the plasma membrane and loss of internal structures (12). Two cathelicidin AMPs have been shown to protect mice in vivo. Pretreatment of mice with SMAP-29 or protegrin-1 reduced the parasitaemia and prolonged the survival of mice challenged with BSF 427 T. brucei (12). Unlike the tsetse, no direct role of AMPs in immunity to African trypanosomes has been demonstrated in mammals.