Wolbachia gonadal density in female and male Drosophila vary with laboratory adaptation and respond differently to physiological and environmental challenges.

In symbiotic associations such as those between Wolbachia and insects, the within-host symbiont density plays an important role in the maintenance of the infection in natural populations, as it relates to transmission fidelity and pathogenicity of the symbiont. Within-host density is speculated to be the result of complex interactions between the bacterial genotype, the host genotype and the environment, which may account for the substantial variation in Wolbachia titres among wild collected individuals compared to laboratory lines. Using quantitative PCR, we screened the Wolbachia gonadal density of individuals from 50 isofemale Drosophila simulans lines raised in standard conditions for at least two generations after collection from the wild. Although these newly collected lines displayed significant variation of ovarian Wolbachia titres, such variation was lost by F(19). Assaying these flies at different ages and under different environmental conditions indicated that symbiont titres in female gonads were not affected by the conditions tested. However, Wolbachia density in male gonads was consistently affected by these treatments in a line-specific way. We propose that the differences in Wolbachia densities among ovaries of F(4) flies are the consequence of large differences in the field-collected females caused by the variable environment, and carried over for at least four generations. In addition, we provide evidence of sex-specific dynamics of Wolbachia in gonads of females and males. In combination, our results support the view of sex-specific Wolbachia evolutionary interactions for males and females, which has been predicted by theory and observed experimentally.