Abstract
Male Anopheles mosquitoes coagulate their seminal fluids via cross-linking of a substrate, called Plugin, by the seminal transglutaminase AgTG3. Formation of the "mating plug" by cross-linking Plugin is necessary for efficient sperm storage by females. AgTG3 has a similar degree of sequence identity (~30%) to both human Factor XIII (FXIII) and tissue transglutaminase 2 (hTG2). Here we report the solution structure and in vitro activity for the cross-linking reaction of AgTG3 and Plugin. AgTG3 is a dimer in solution and exhibits Ca(2+)-dependent nonproteolytic activation analogous to cytoplasmic FXIII. The C-terminal domain of Plugin is predominantly α-helical with extended tertiary structure and oligomerizes in solution. The specific activity of AgTG3 was measured as 4.25 × 10(-2) units mg(-1). AgTG3 is less active than hTG2 assayed using the general substrate TVQQEL but has 8-10× higher relative activity when Plugin is the substrate. Mass spectrometric analysis of cross-linked Plugin detects specific peptides including a predicted consensus motif for cross-linking by AgTG3. These results support the development of AgTG3 inhibitors as specific and effective chemosterilants for A. gambiae.
Highlights
A. gambiae transglutaminase AgTG3 cross-links Plugin within seminal fluids
We have characterized A. gambiae seminal transglutaminase AgTG3 and the cross-linking of its native substrate Plugin in vitro
We find that AgTG3 forms a dimer in solution, similar to the mammalian blood-clotting enzyme Factor XIII (FXIII), yet distinct from other transglutaminases of known structure
Summary
A. gambiae transglutaminase AgTG3 cross-links Plugin within seminal fluids. Results: AgTG3 and Plugin were purified and their structure and activity characterized in vitro. Male Anopheles mosquitoes coagulate their seminal fluids via cross-linking of a substrate, called Plugin, by the seminal transglutaminase AgTG3. The single TG gene present in Drosophila is involved in cuticle morphogenesis [3] and coagulation of hemolymph in response to septic injury [4] This TG is conserved in mosquitoes (Culicidae) including the malaria vector Anopheles gambiae (AGAP009100, or AgTG1). A recent study of A. gambiae seminal fluid proteins and male accessory glands showed that the plug is formed by cross-linking of a substrate protein called Plugin (AGAP009368) by AgTG3 [5]. Some initial questions regarding the mechanism of AgTG3-mediated cross-linking of Plugin are the oligomeric states of both enzyme and substrate in solution, the specific activity of AgTG3, and the requirements for its activity. Our results provide the basis for further molecular characterization of the AgTG3-Plugin mechanism of seminal fluid coagulation and screening for specific AgTG3 inhibitors
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