Abstract
AbstractEndosymbionts can influence host reproduction and fitness to favor their maternal transmission. For example, endosymbiotic Wolbachia bacteria often cause cytoplasmic incompatibility (CI) that kills uninfected embryos fertilized by Wolbachia-modified sperm. Infected females can rescue CI, providing them a relative fitness advantage. Wolbachia-induced CI strength varies widely and tends to decrease as host males age. Since strong CI drives Wolbachia to high equilibrium frequencies, understanding how fast and why CI strength declines with male age is crucial to explaining age-dependent CI’s influence on Wolbachia prevalence. Here, we investigate if Wolbachia densities and/or CI gene (cif) expression covary with CI-strength variation and explore covariates of age-dependent Wolbachia-density variation in two classic CI systems. wRi CI strength decreases slowly with Drosophila simulans male age (6%/ day), but wMel CI strength decreases very rapidly (19%/ day), yielding statistically insignificant CI after only three days of D. melanogaster emergence. Wolbachia densities and cif expression in testes decrease as wRi-infected males age, but both surprisingly increase as wMel-infected males age, and CI strength declines. We then tested if phage lysis, Octomom copy number (which impacts wMel density), or host immune expression covary with age-dependent wMel densities—only host immune expression correlated with density. Together, our results identify how fast CI strength declines with male age in two model systems and reveal unique relationships between male age, Wolbachia densities, cif expression, and host immunity. We discuss new hypotheses about the basis of age-dependent CI strength and its contributions to Wolbachia prevalence.ImportanceWolbachia are the most common animal-associated endosymbionts due in large part to their manipulation of host reproduction. Many Wolbachia cause cytoplasmic incompatibility (CI) that kills uninfected host eggs. Infected eggs are protected from CI, favoring Wolbachia spread in natural systems and in transinfected mosquito populations where vector-control groups use strong CI to maintain pathogen-blocking Wolbachia at high frequencies for biocontrol of arboviruses. CI strength varies considerably in nature and declines as males age for unknown reasons. Here, we determine that CI strength weakens at different rates with age in two model symbioses. Wolbachia density and CI gene expression covary with wRi-induced CI strength in Drosophila simulans, but neither explain rapidly declining wMel-induced CI in aging D. melanogaster males. Patterns of host immune gene expression suggest a candidate mechanism behind age-dependent wMel densities. These findings inform how age-dependent CI may contribute to Wolbachia prevalence in natural systems and potentially in transinfected systems.
Publisher
Cold Spring Harbor Laboratory
Cited by
4 articles.
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