Abstract
Vertebrate innate immunity is the first line of defense against an invading pathogen and has long been assumed to be largely unspecific with respect to parasite/pathogen species. However, recent phenotypic evidence suggests that immunogenetic variation, i.e. allelic variability in genes associated with the immune system, results in host-parasite genotype-by-genotype interactions and thus specific innate immune responses. Immunogenetic variation is common in all vertebrate taxa and this reflects an effective immunological function in complex environments. However, the underlying variability in host gene expression patterns as response of innate immunity to within-species genetic diversity of macroparasites in vertebrates is unknown. We hypothesized that intra-specific variation among parasite genotypes must be reflected in host gene expression patterns. Here we used high-throughput RNA-sequencing to examine the effect of parasite genotypes on gene expression patterns of a vertebrate host, the three-spined stickleback (Gasterosteus aculeatus). By infecting naïve fish with distinct trematode genotypes of the species Diplostomum pseudospathaceum we show that gene activity of innate immunity in three-spined sticklebacks depended on the identity of an infecting macroparasite genotype. In addition to a suite of genes indicative for a general response against the trematode we also find parasite-strain specific gene expression, in particular in the complement system genes, despite similar infection rates of single clone treatments. The observed discrepancy between infection rates and gene expression indicates the presence of alternative pathways which execute similar functions. This suggests that the innate immune system can induce redundant responses specific to parasite genotypes.
Highlights
Vertebrate immunity consists of innate and adaptive components, intertwined through a close interaction of both systems
Parasite load Parasite load of infected sticklebacks ranged from 0–4 metacercariae in the eye lenses for D. pseudospathaceum-clone I, 0–6 for clone XII and 1–17 for the clone mix treatment
Differences in parasite infection success were driven by clone mix vs. single clone treatments while there was no significant distinction between both single D. pseudospathaceum clones (p = 0.98)
Summary
Vertebrate immunity consists of innate and adaptive components, intertwined through a close interaction of both systems. We have little knowledge on the degree of discrimination that the innate immune system can achieve, some phenotypic studies suggest distinction among parasite genotypes in three-spined sticklebacks, rainbow trout and monarch butterflies [5] [6] [7], and in a wide range of other species as reviewed by Lazzaro & Little [8] In line with these findings, host immune reactions were found to be parasitegenotype specific in crabs [9] and gene expression differences could be attributed to host-parasite genotype interactions in bumblebees [10]. The genes responsible for host immune reactions to parasite genotypes have yet to be shown in vertebrates
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