Physiological characterization of the hematophagy of Ornithodoros rostratus (Acari: Argasidae) on live hosts.

Ornithodoros rostratus is an argasid tick and its importance is based on its hematophagy and the resulting transmission of pathogens such as Rickettsia rickettsii and Coxiella burnetii to its vertebrate hosts. In the face of a lack of physiological studies related to hematophagy in argasid ticks, this paper aims to identify and characterize the events that occur throughout the feeding by O. rostratus on live hosts. Electrical signals and alterations on the feeding site were monitored using intravital microscopy and electromyography. The analyses allowed for the characterization of four distinct events: suction, salivation, chelicerae movements and inactivity. Feeding was divided into two distinct phases: (1) penetration of mouthparts (when only salivation and chelicerae movements occurred) and the formation of the feeding pool (salivation and chelicerae movements with the first signs of suction) and (2) engorgement, during which chelicerae movements ceased and blood intake took place in feeding complexes (salivation followed by suction). Variations in patterns of the electrical signals, suction frequency and salivation showed four distinct sub-phases: (2a) suction with electrical signals of irregular shape, increased suction frequency and decreased salivation frequency throughout blood feeding; (2b) suction with electrical signals of symmetrical shape, high suction rates (3.8 Hz on average) and feeding complexes lasting for 7.7 s; (2c) suction with electrical signals of irregular shape, high suction frequency and feeding complex lasting 11.5 s; and (2d) electrical signals with no profile and the longest feeding complexes (14.5 s). Blood feeding ended with the withdrawal of the mouthparts from the host's skin.

Life cycle of Ornithodoros rostratus (Acari: Argasidae) ticks feeding on mice under laboratory conditions.

Ornithodoros rostratus Aragão is an argasid tick found in Bolivia, Paraguay, Argentina and Brazil. Only limited studies about O. rostratus have been conducted and several aspects of their life cycle differ among studies or remain unexplored. In order to better elucidate the biology of O. rostratus, the present work describes its life cycle when feeding on mice under laboratory conditions. To complete their life cycle on mice, O. rostratus goes through a larval stage, 3-6 nymphal instars (nymph 1-6) and adult male and female. Adults can be originated from nymph 3-6. Nymphs 4 with higher weight after feeding tend to originate adults. Adults originated from early instars tended to be lighter. Females tended to be heavier than males. Larvae needed on average 2.7 days to complete their blood meal whereas other instars ranged from 17.3 to 78.3 min. The capacity to ingest blood was higher in larvae and females in comparison to males. The preecdysis period ranged from 5 to 12.5 days. After one blood meal, females remain on average 15.2 ± 5.8 days laying 276.8 ± 137.2.9 eggs. Females originated from nymph 4 had similar oviposition time, egg incubation and conversion ingested blood/number of eggs produced, but presented lower initial weigh and weigh gain, generating fewer eggs. Our results added novel information on O. rostratus biology and was discussed considering the variability of argasid populations and in context with the differences about their life cycle described in previous works.

Functional characterization of a cystatin A from the bat Myotis davidii.

Myotis davidii cystatin A (MdCSTA), a stefin A-like from the Chinese native bat species M. davidii, was expressed as a recombinant protein and functionally characterized as a strong inhibitor of the cysteine proteases papain, human cathepsins L and B and the tick cathepsin L-like BmCL1. Despite the highly conserved amino acid sequences among stefins A from different vertebrates, MdCSTA presents a Methionine-2 residue at the N-terminal region and the second binding loop (pos 73-79) that differs from human stefin A (HsCSTA) and might be related to the lower inhibition constant (Ki) value presented by this inhibitor in comparison to human stefin A inhibition to cathepsin B. Therefore, to investigate the importance of these variable regions in cathepsin B inhibition, recombinant stefins A MdCSTA and HsCSTA containing mutations at the second amino acid residue and second binding loop were expressed and evaluated in kinetic assays. Enzymatic inhibition assays with cathepsin B revealed that switching the amino acid residues at position 2 and second binding loop region between bat and human CSTAs improved the HsCSTA's and reduced MdCSTA's inhibitory activity. Additionally, molecular docking analysis estimated lower energy values for the complex between MdCSTA-cathepsin B, in comparison to human CSTA-cathepsin B, while the mutants presented intermediate values, suggesting that other regions might contribute to the higher inhibitory activity against cathepsin B by MdCSTA. In conclusion, MdCSTA, the first bat's stefin A-like inhibitor to be functionally characterized, presented a higher inhibitory activity against cathepsin B in comparison to the human inhibitor, which is partially related to the glutamine-rich second binding loop and Met-2. Further structural analysis should be performed to elucidate potential inhibitor effects on cysteine proteinases.

Amblyomma sculptum Salivary Protease Inhibitors as Potential Anti-Tick Vaccines.

Amblyomma sculptum is the main tick associated with human bites in Brazil and the main vector of Rickettsia rickettsii, the causative agent of the most severe form of Brazilian spotted fever. Molecules produced in the salivary glands are directly related to feeding success and vector competence. In the present study, we identified sequences of A. sculptum salivary proteins that may be involved in hematophagy and selected three proteins that underwent functional characterization and evaluation as vaccine antigens. Among the three proteins selected, one contained a Kunitz_bovine pancreatic trypsin inhibitor domain (named AsKunitz) and the other two belonged to the 8.9 kDa and basic tail families of tick salivary proteins (named As8.9kDa and AsBasicTail). Expression of the messenger RNA (mRNA) encoding all three proteins was detected in the larvae, nymphs, and females at basal levels in unfed ticks and the expression levels increased after the start of feeding. Recombinant proteins rAs8.9kDa and rAsBasicTail inhibited the enzymatic activity of factor Xa, thrombin, and trypsin, whereas rAsKunitz inhibited only thrombin activity. All three recombinant proteins inhibited the hemolysis of both the classical and alternative pathways; this is the first description of tick members of the Kunitz and 8.9kDa families being inhibitors of the classical complement pathway. Mice immunization with recombinant proteins caused efficacies against A. sculptum females from 59.4% with rAsBasicTail immunization to more than 85% by immunization with rAsKunitz and rAs8.9kDa. The mortality of nymphs fed on immunized mice reached 70-100%. Therefore, all three proteins are potential antigens with the possibility of becoming a new tool in the control of A. sculptum.