Infection densities of three Spiroplasma strains in the host Drosophila melanogaster

Abstract

Maternally transmitted endosymbiotic bacteria of the genus Spiroplasma associate with numerous insect species, including the genus Drosophila. Among the Spiroplasma strains associated with Drosophila, several manipulate their host’s reproduction by killing the male offspring of the infected females. Although the male-killing mechanism is not well understood, previous studies of non-native strains transferred to D. melanogaster (strain Oregon-R) indicate that the male-killing strain achieves higher densities than two non-male-killing strains. Whether this pattern of higher male-killing strain densities occurs in other host-symbiont strain combinations is not known. Herein, we used quantitative PCR to examine infection densities of one non-male-killing strain native to D. hydei (Hyd1), and two male-killing strains; one native to D. nebulosa (NSRO), and one native to D. melanogaster (MSRO; recently discovered), upon artificial transfer to D. melanogaster (strain Canton-S). Infection densities were examined at four weekly intervals in adult flies, across three consecutive generations following artificial transfer. Infection densities of the non-male-killing strain were significantly lower than those of the two male killers immediately after adult emergence. At later time points, however, the non-male-killing strain (Hyd1) is capable of proliferating to densities similar to those of the two male-killing strains (NSRO and MSRO) in D. melanogaster (Canton-S). We also examined the effect of co-infection by the heritable bacterium Wolbachia, on Spiroplasma densities and male-killing ability. Wolbachia had little to no effect of Spiroplasma densities, but the male-killing ability of MSRO was lower in the presence of Wolbachia. Generation post-infection had little effect on Spiroplasma densities, but affected the male-killing ability.