Nieman-Pick Type C2 proteins in Aedes aegypti: Their Structure-Function relationships and Expression in Uninfected versus Virus-infected Mosquitos

Abstract

AbstractAedes aegypti is a major vector that transmits arboviruses through the saliva injected into the host. Salivary proteins help in uninterrupted blood intake and enhance the transmission of pathogens. We studied Nieman-Pick Type C2 (NPC2) proteins, a superfamily of saliva proteins that play important role in arbovirus infections. In vertebrates, a single conserved gene encodes for the NPC2 protein that functions in cholesterol trafficking. Arthropods, in contrast, have several genes that encode for divergent NPC2 proteins. We compared the sequences of 20 A. aegypti NPC2 proteins to the cholesterol-binding residues of human and bovine, and fatty acid-binding residues of ant NPC2 proteins. We identified four and one mosquito NPC2 proteins as potential sterol- and fatty acid-binding proteins, respectively. From the published data, we analysed the expression of NPC2 genes in various tissues and their differential expression in midgut and salivary gland post-arbovirus infections. NPC2 genes are downregulated rather than upregulated in virus-infected tissues. Interestingly, AAEL012064 is the only gene that is downregulated in both the midgut and salivary gland in all virus infections. In addition, AAEL001650 is downregulated in the salivary gland infected with CHIKV, DENV2 or ZIKV. This gene in the midgut is downregulated infected with DENV1 but upregulated with DENV2. We studied the variation in cis elements in the promoter regions of two groups of closely related NPC2 genes and the expression of relevant transcription factors (TFs). In the midgut infected with DENV1 or DENV2, six TFs (CRE-BP1, AP1, c-Jun, c-Fos, Odd, and NF-kB) appear to play an opposing role in the expression of AAEL006854. Two TFs (RXR-beta/alpha and USF) have a potential role in the downregulation of AAEL009556 in CHIKV-infected midgut and salivary gland. Similarly, two TFs (COUP and Ftz) may have a key role in the downregulation of AAEL009555 and AAEL009556 in DENV2-infected salivary gland.