Sex-specific effects of an IgE polymorphism on immunity, susceptibility to infection and reproduction in a wild rodent

Abstract

The genotype of an individual is an important predictor of their immune function, and subsequently, their ability to control or avoid infection and ultimately contribute offspring to the next generation. However, the same genotype, subjected to different environments, can also result in different outcomes. The sexes represent two such different environments. Sexual dimorphism is widespread across the animal kingdom. Despite this, very little is known about the importance of sex for the expression of genotype in the context of health and disease, particularly in natural populations. We identified a synonymous polymorphism in the high-affinity Immunoglobulin E (IgE) receptor (GC and non-GC haplotypes) that has sex-specific effects on immune gene expression, susceptibility to infection and reproductive success of individuals in a natural population of field voles (Microtus agrestis). We found that the effect of the GC haplotype on the expression of genes affecting inflammation displayed a significant interaction with sex. While males with the GC haplotype had upregulated pro-inflammatory genes, in particular the pro-inflammatory cytokine Il33, females had upregulated anti-inflammatory genes, in particular the anti-inflammatory cytokine inhibitor Socs3. Furthermore we found that the effect of the GC haplotype on the probability of infection with a common microparasite, Babesia microti, displayed a significant interaction with sex. While males with the GC haplotype did not differ significantly in their susceptibility to infection, females with the GC haplotype were more likely to be infected. Finally, we found that the effect of the GC haplotype on reproductive success also displayed a significant interaction with sex. While males with the GC haplotype had a lower reproductive success, females with the GC haplotype did not differ in the number of offspring they produced. To our knowledge, this is the first time that a polymorphism with sex-specific effects across all three levels (immune gene expression, susceptibility to infection and reproductive success) has been documented in a natural population.