Structural diversity of symbionts and related cellular mechanisms underlying vertical symbiont transmission in cicadas
Dandan Wang, Zhi Huang, Johan Billen, Guoyun Zhang, Hong He, Cong Wei
Environmental Microbiology
DOI: 10.1111/1462-2920.15711
Abstract
Many insects depend on symbiont(s) for survival. This is particularly the case for sap-feeding hemipteran insects. In this study, we revealed that symbionts harbored in cicadas are diverse and complex, and the yeast-like fungal symbionts (YLS) are present in most cicada species but Hodgkinia is absent. During vertical transmission, Sulcia became swollen with the outer membrane drastically changed, while Hodgkinia became shrunken and changed from irregular to roughly spherical. Sulcia and/or Hodgkinia were exocytosed from the bacteriocytes to the intercellular space of bacteriomes, where they gathered together and were extruded to hemolymph. YLS and associated facultative symbiont(s) in the fat bodies were released to the hemolymph based on bacteriocyte disintegration. The obligate symbiont(s) were endocytosed and exocytosed successively by the epithelial cells of the terminal oocyte, while associated facultative symbiont(s), and possibly also YLS, may take a 'free ride' on the transmission of obligate symbiont(s) to gain entry into the oocyte. Then, the intermixed symbionts formed a characteristic 'symbiont ball' in the oocyte. Our results suggest that YLS in cicadas represent a new example of a relatively early stage of symbiogenesis in insects, and contribute to a better understanding of the diversity and transmission mechanisms of symbionts in insects. This article is protected by copyright. All rights reserved.