Paratransgenic manipulation of tsetse miR275 alters the physiological homeostasis of the flys midgut environment

Tsetse flies are vectors of parasitic African trypanosomes ( Trypanosoma spp.). Current disease control methods include fly-repelling pesticides, trapping flies, and chemotherapeutic treatment of infected people. Inhibiting tsetses ability to transmit trypanosomes by strengthening the flys natural barriers can serve as an alternative approach to reduce disease. The peritrophic matrix (PM) is a chitinous and proteinaceous barrier that lines tsetses midgut. It protects the epithelial cells from the gut lumen content such as food and invading trypanosomes, which have to overcome this physical barrier to establish an infection. Bloodstream form trypanosomes shed variant surface glycoproteins (VSG) into tsetses gut lumen early during the infection establishment. The VSG molecules are internalized by the flys PM-producing cardia, which results in a reduction in tsetse miR275 expression and a sequential molecular cascade that compromises the PM integrity. In the present study, we investigated the role(s) of miR275 in tsetses midgut physiology and trypanosome infection processes by developing a paratransgenic expression system. We used tsetses facultative bacterial endosymbiont Sodalis glossinidius to express tandem antagomir -275 repeats (or miR275 sponge) that constitutively reduce miR275 transcript abundance. This paratransgenic system successfully knocked down miR275 levels in the flys midgut, which consequently obstructed blood digestion and modulated infection outcomes with an entomopathogenic bacteria and with trypanosomes. RNA sequencing of cardia and midgut tissues from the paratransgenic tsetse confirmed that miR275 regulates processes related to the expression of PM-associated proteins and digestive enzymes as well as genes that encode abundant secretory proteins. Our study demonstrates that paratransgenesis can be employed to study microRNA- regulated pathways in arthropods housing symbiotic bacteria.