Novel function acquired by the Culex quinquefasciatus mosquito D7 salivary protein enhances blood feeding on mammals

Abstract

AbstractAdult female mosquitoes require a vertebrate blood meal to develop eggs and continue their life cycle. During blood feeding, mosquito saliva is injected at the bite site to facilitate blood meal acquisition through anti-hemostatic compounds that counteract blood clotting, platelet aggregation, vasoconstriction and host immune responses. D7 proteins are among the most abundant components of the salivary glands of several blood feeding insects. They are members of a family of proteins that have evolved through gene duplication events to encode D7 proteins of several lengths. Here, we examine the ligand binding specificity and physiological relevance of two D7 long proteins, CxD7L1 and CxD7L2, from Culex quinquefasciatus mosquitoes, the vector of medical and veterinary diseases such as filariasis, avian malaria, and West Nile virus infections. CxD7L1 and CxD7L2 were assayed by microcalorimetry for binding of potential host ligands involved in hemostasis, including bioactive lipids, biogenic amines, and nucleotides/nucleosides. CxD7L2 binds serotonin, histamine, and epinephrine with high affinity as well as the thromboxane A2 analog U-46619 and several cysteinyl leukotrienes, as previously described for other D7 proteins. CxD7L1 does not bind any of the ligands that are bound by CxD7L2. Unexpectedly, CxD7L1 exhibited high affinity for adenine nucleotides and nucleosides, a binding capacity not reported in any D7 family member. We solved the crystal structure of CxD7L1 in complex with bound ADP to 1.97 Å resolution. The binding pocket for ADP is located between the two domains of CxD7L1, whereas all known D7s bind ligands either within the N-terminal or the C-terminal domains. We demonstrated that these two CxD7 long proteins inhibit human platelet aggregation in ex vivo experiments. CxD7L1 and CxD7L2 help blood feeding in mosquitoes by scavenging host molecules that promote vasoconstriction, platelet aggregation, itch, and pain at the bite site. The novel ADP-binding function acquired by CxD7L1 evolved to enhance blood feeding in mammals where ADP plays a key role in platelet aggregation.