Abstract
Animals interact with a diverse array of both beneficial and detrimental microorganisms. In insects, these symbioses in many cases allow feeding on nutritionally unbalanced diets. It is, however, still not clear how are obligate symbioses maintained at the cellular level for up to several hundred million years. Exact mechanisms driving host–symbiont interactions are only understood for a handful of model species and data on blood-feeding hosts with intracellular bacteria are particularly scarce. Here, we analyzed interactions between an obligately blood-sucking parasite of sheep, the louse fly Melophagus ovinus, and its obligate endosymbiont, Arsenophonus melophagi. We assembled a reference transcriptome for the insect host and used dual RNA-Seq with five biological replicates to compare expression in the midgut cells specialized for housing symbiotic bacteria (bacteriocytes) to the rest of the gut (foregut–hindgut). We found strong evidence for the importance of zinc in the system likely caused by symbionts using zinc-dependent proteases when acquiring amino acids, and for different immunity mechanisms controlling the symbionts than in closely related tsetse flies. Our results show that cellular and nutritional interactions between this blood-sucking insect and its symbionts are less intimate than what was previously found in most plant-sap sucking insects. This finding is likely interconnected to several features observed in symbionts in blood-sucking arthropods, particularly their midgut intracellular localization, intracytoplasmic presence, less severe genome reduction, and relatively recent associations caused by frequent evolutionary losses and replacements.
Highlights
Nutritional supplementation from symbiotic bacteria allowed several insect groups to become specialized on nutritionally unbalanced diets such as vertebrate blood and plant sap
Data deposition: Raw RNA-Seq data were made available through the European Nucleotide Archive (ENA) database under the study accession number PRJEB30632
Unlike in plant-sap sucking insects, where the host is strongly involved in the biosynthesis of essential amino acids (EAAs) by providing the starting products and carrying out the last aminotransferase steps of the pathways, we found no evidence for such intimate interactions in our M. ovinus data for the B-vitamin or other biosynthetic pathways
Summary
Nutritional supplementation from symbiotic bacteria allowed several insect groups to become specialized on nutritionally unbalanced diets such as vertebrate blood and plant sap. Nutrients so far shown to be provided by bacteria include essential amino-acids and some B-vitamins in plant-sap sucking hosts, Bvitamins in blood-sucking hosts, and symbiotic bacteria (or protists and fungi) are involved in nitrogen recycling in nitrogen-restricted environments such as in wood-feeding insects (Moran et al 2008, McCutcheon and Moran 2011, Douglas 2016). Endosymbiont genomes from plant-sap feeding insects retain several genes/pathways for biosynthesis of B-vitamins, e.g. biotin, riboflavin, and folate (Hansen and Moran 2013, Moran and Bennett 2014). It is unclear which B-vitamins are only used by symbionts and which are in addition provided to their hosts. The only piece of experimental evidence implies that young symbiotic aphids are provided with riboflavin by their Buchnera endosymbionts (Nakabachi and Ishikawa 1999)
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