Abstract
Heritable microbes shape host phenotypes and serve as important drivers of evolution. While interactions between insects and bacterial symbionts have been extensively studied, the prevalence and evolution of insect-viral symbioses remain poorly understood. We discovered multiple new species of iflaviruses in aphids, an important model for research on symbiosis, and found these microbes to be widespread across aphid species. We show that iflaviruses are persistently maintained in asexual host lines without apparent fitness costs while being transmitted vertically from mothers to offspring. Using field data and phylogenetic evidence, we found that aphid iflaviruses move horizontally among host species, but laboratory experiments showed that horizontal transmission does not result in persistent infections. Using quantitative PCR and immunohistochemistry, we discovered that viral infections localize in the host fat bodies and developing embryos. Surprisingly, we also found viral infections inside bacteria-housing cells called bacteriocytes, along with a positive correlation between viral and bacterial symbiont density. Together, our work suggests that iflaviruses are widespread heritable symbionts in aphids. IMPORTANCE: In recent years, the rise of metatranscriptome sequencing has led to the rapid discovery of novel viral sequences in insects. However, few studies have carefully investigated the dynamics of insect-virus interactions to produce a general understanding of viral symbiosis. Aphids are an important model for understanding the evolution and molecular basis of symbiosis, but whether viruses are forming persistent symbiotic relationships with aphids remains unclear. Here, we show that heritable iflaviruses are a widespread but previously unrecognized part of the aphid heritable microbiome. Aphid iflaviruses are transmitted alongside bacteria from mothers to offspring, potentially via specialized bacteriocytes that house symbiotic microbes. Our findings suggest that aphids establish persistent relationships with iflaviruses and are likely coevolving with these viral symbionts.