Aparecida S. Tanaka

Infestin, a thrombin inhibitor presents in Triatoma infestans midgut, a Chagas' disease vector: gene cloning, expression and characterization of the inhibitor

This work describes the purification, gene cloning and expression of infestin, a thrombin inhibitor from midguts of Triatoma infestans. Infestin is located in the midgut and its purification was performed by anion-exchange and affinity chromatographies. The N-terminal sequence and the sequence of tryptic peptides were determined. Using RT-PCR, total RNA and infestin cDNA information, a DNA fragment was cloned which encodes a multi non-classical Kazal-type serine protease inhibitor. Isolated native infestin has two non-classical Kazal-type domains and shows an apparent molecular mass of 13 kDa, while its gene codes for a protein with four non-classical Kazal-type domains corresponding to an apparent molecular mass of 22 kDa. Two recombinant infestins, r-infestin 1-2 and r-infestin 1-4, were constructed using the vector pVT102U/alpha and expressed in S. cerevisiae. Native and r-infestin 1-2 showed very similar inhibitory activities towards thrombin and trypsin with dissociation constants of 43.5 and 25 pM for thrombin and 2.0 and 3.1 nM for trypsin, respectively. No other serine protease of the blood coagulation cascade was inhibited by the r-infestin 1-2. Surprisingly, r-infestin 1-4 inhibited not only thrombin and trypsin (K(i) of 0.8 and 5.2 nM, respectively), but also factor XIIa, factor Xa and plasmin (K(i) of 78 pM, 59.2 and 1.1 nM, respectively).

Ixodidin, a novel antimicrobial peptide from the hemocytes of the cattle tick Boophilus microplus with inhibitory activity against serine proteinases

The presence of an effective immune response in the hemocoel of arthropods is essential for survival as it prevents the invasion of pathogens throughout the animal body. Antimicrobial peptides (AMPs) play an important role in this response by rapidly killing invading microorganisms. In this study, a novel cysteine-rich AMP has been isolated and characterized from the hemocytes of the cattle tick, Boophilus microplus. In addition to growth inhibition of Escherichia coli and Micrococcus luteus, the newly described AMP, designated ixodidin (derived from the Family Ixodidae), was found to exert proteolytic inhibitory activity against two exogenous serine proteinases, elastase and chymotrypsin. This is the first report of a molecule of an arachnid that has been shown to inhibit bacterial growth and proteinase activity.

A double headed serine proteinase inhibitor — human plasma kallikrein and elastase inhibitor — from Boophilus microplus larvae

Preying on cattle, the hard tick Boophilus microplus causes heavy economical losses to Brazil. Tick proteins are a good target to be used as tools for tick control. Serine protease inhibitors from B. microplus larvae (BmTI) were preliminarily characterized. One-week-old larvae were the source of a 2% protein solution in 5 mM Tris-HCl, 20 mM NaCl, pH 7.4. The inhibitors were purified by affinity chromatography on trypsin-Sepharose, and ion-exchange chromatography on Resource Q column, and they separated in two major active peaks, corresponding to 10-kDa and 18-kDa proteins (BmTI-B and BmTI-A, respectively). Both purified proteins inhibited trypsin with Ki of 0.3 and 3.0 nM, respectively, but only the 18-kDa protein inhibited elastase (Ki 1.4 nM) and plasma kallikrein (Ki 120 nM). BmTI-A did not change prothrombin time (PT) and thrombin time (TT), but it increased activated partial thromboplastin time (APTT) was dose-dependent. The partial amino acid sequence indicated that BmTI-A belongs to the bovine pancreatic trypsin inhibitor (BPTI)-Kunitz type inhibitor family. These inhibitors (by their properties) play a role in the feeding process of the tick. Development of antibodies against these proteins may be used to impair the normal feeding and consequently, the parasite would be no longer viable.

BmTI antigens induce a bovine protective immune response against Boophilus microplus tick.

Boophilus microplus trypsin inhibitors (BmTIs) present in larvae were preliminarily characterized as active proteins, approximately 10-18 kDa, by SDS-PAGE. BmTIs showed trypsin inhibitory activity on reverse zymography containing gelatin (0.03%) and also inhibited others serine proteinases (human neutrophil elastase and human plasma kallikrein). Bos indicus, Nelore breed calves, previously sensitized with BmTIs and challenged with tick larvae (20,000 larvae/animal), showed 72.8% efficacy to interfere in tick development with 69.7% and 71.3% reduction of both tick number and egg weight, respectively. Cattle BmTls antiserum titer was approximately 1:8000. The maximum level of BmTls antibody production was detected 40 days after the first immunization by ELISA. Our preliminary results suggest that B. microplus serine proteinase inhibitors may play a role in the tick larvae fixation and feeding processes. Therefore, the development of antibodies against BmTIs might impair the normal parasitism.

Identification and characterization of a novel factor XIIa inhibitor in the hematophagous insect, Triatoma infestans (Hemiptera: Reduviidae)

Recently, we have cloned several Kazal‐type serine protease inhibitors from the midgut of the Triatoma infestans bug. A single gene composed of multi Kazal‐type domains, in tandem, encodes these inhibitors. In this work, we describe the purification and characterization of recombinant infestins 3‐4 and 4, which are potent factor XIIa inhibitors (K i=67 pM and 128 pM, respectively). We also identified the first native factor XIIa inhibitor from a hematophagous insect. The factor XIIa inhibitory activity of infestin 4 demonstrates extremely efficient anticoagulant activity, prolonging activated partial thromboplastin time by approximately 3 times. Our results suggest that infestins perform a very important role in the T. infestans midgut during meal acquisition and digestion by controlling blood coagulation by means of inhibiting thrombin and factor XIIa.

Molecular evolution of Bowman-Birk type proteinase inhibitors in flowering plants

The Bowman-Birk family (BBI) of proteinase inhibitors is probably the most studied family of plant inhibitors. We describe the primary structure and the gene expression profile of 14 putative BBIs from the sugarcane expressed sequence tag database and show how we used these newly discovered sequences together with 87 previously described BBI sequences from the GenBank database to construct phylogenetic trees for the BBI family. Phylogenetic analysis revealed that BBI-type inhibitors from monocotyledonous and dicotyledonous plants could be clearly separated into different groups, while the overall topology of the BBI tree suggests a different pattern of evolution for BBI families in flowering plants. We also found that BBI proteinase inhibitors from dicotyledonous plants were well conserved, accumulating only slight differences during their evolution. In addition, we found that BBIs from monocotyledonous plants were highly variable, indicating an interesting process of evolution based on internal gene duplications and mutation events.

PURIFICATION AND PRIMARY STRUCTURE DETERMINATION OF A BOWMAN-BIRK TRYPSIN INHIBITOR FROM TORRESEA CEARENSIS SEEDS

A Bowman-Birk-type trypsin inhibitor (TcTI) was purified from seeds of Torresea cearensis, a Brazilian native tree of the Papilionoideae sub-family of Leguminosae. Three forms of the inhibitor were separated by anion exchange chromatography. The major form with 63 amino acids was entirely sequenced; it shows a high structural similarity to the Bowman-Birk inhibitors from other Leguminosae. The putative reactive sites of the inhibitor are a lysine residue at position 15 and a histidine at position 42 as identified by alignment to related inhibitors, direct chemical modification and specific enzymatic degradation. Immunoprecipitation with antibodies raised in rats is reduced significantly if TcTI is complexed with chymotrypsin and, to a lesser degree, if complexed with trypsin. TcTI forms a ternary complex with trypsin and chymotrypsin. The binary complexes with trypsin or chymotrypsin were isolated by gel filtration. Dissociation constants of the complexes with trypsin, plasmin, chymotrypsin, and factor XIIa are 1, 36, 50, 1450 nM, respectively; human plasma kallikrein, human factor Xa, porcine pancreatic kallikrein and bovine thrombin are not inhibited. TcTI prolongs blood clotting time of the contact phase activation pathway by inhibition of FXIIa.

Plant serine proteinase inhibitors. Structure and biochemical applications on plasma kallikrein and related enzymes

The action of two Bowman-Birk and several plant Kunitz-type inhibitors were studied on trypsin, chymotrypsin, plasma kallikrein and factor XII. The primary structure of some of them was completely defined. The results showed that the Bowman-Birk type inhibitors, although potent inhibitors for trypsin (Ki in the range of 1-2 nM), are not able to inhibit plasma kallikrein. Factor XII (Ki = 1.4 microM) and chymotrypsin (Ki = 5.0 nM) are inhibited by Torresea cearensis trypsin inhibitor (TcTI) but not by Dioclea glabra trypsin inhibitor (DgTI). Both inhibitors reactive site regions are highly homologous, and the amino acid residues in P1 position are the same, Lys and His; major differences are in the charge of the C-terminal portion of the molecules. The studied Kunitz-type inhibitors were all able to inhibit plasma kallikrein (Ki between 4 and 80 nM), with the exception of Schizolobium parahyba chymotrypsin inhibitor (SpCI), that is specific for chymotrypsin. All Kunitz-type inhibitors inactivate chymotrypsin, but with a dissociation constant in the range of 0.1 to 0.6 microM. Factor XIIf is inhibited with Ki in the range of 0.1 microM. Bauhinia bauhinioides trypsin inhibitor (BbTI) did not promote factor XIIf inhibition. The Kunitz-type inhibitors are a highly homologous, sharing 60% identity in the N-terminal portion of the loop containing the reactive site, and 28.6% identity in the C-terminal portion of the same loop.

rBmTI-6, a Kunitz-BPTI domain protease inhibitor from the tick Boophilus microplus, its cloning, expression and biochemical characterization.

Boophilus microplus is a rich source of trypsin inhibitors, numerous Kunitz-BPTI (bovine pancreatic trypsin inhibitor) inhibitors have been described from larvae and eggs, named BmTIs. Among them, were characterized inhibitors for trypsin, human neutrophil elastase, human plasma kallikrein and plasmin. BmTIs elicited a protective immunological response against B. microplus infestation in cattle. However, only a small amount of purified natural BmTIs can be obtained from larvae and eggs by chromatographic methods, thus if BmTIs are to be used as vaccine antigens (immunogens) the production of recombinant BmTIs (rBmTIs) is essential. In this work we describe the cloning, expression, purification and characterization of rBmTI-6. rBmTI-6 is a three-headed Kunitz-BPTI inhibitor, expressed in the Pichia pastoris system. Although rBmTI-6 was processed by proteases and glycosylated during the expression process, these post-translational modifications did not alter the ability of rBmTI-6 to inhibit protease activity. Purified rBmTI-6 inhibited trypsin and plasmin.

Rhipicephalus sanguineus trypsin inhibitors present in the tick larvae: isolation, characterization, and partial primary structure determination

Blood sucking animals are a rich source of proteinase inhibitors mainly those that interfere in their host hemostatic systems. The tick Rhipicephalus sanguineus is an ectoparasite of dogs and other animals. The aims of this work were the purification and characterization of serine proteinase inhibitors present in R. sanguineus larvae (RsTI). The inhibitors (RsTI) were isolated by affinity chromatography on trypsin-Sepharose and ion exchange chromatographies in Resource Q and Mono S columns. These RsTIs were separated in around 12 different protein peaks, when they showed molecular masses between 8 and 18 kDa, by SDS-PAGE. Purified RsTIs presented differences in the specificity for different serine proteinases. RsTIQ2 was, better inhibitor than RsTIQ7 and RsTIS5 for neutrophil elastase, plasmin, and HuPK with dissociation constants (K(i)) of 1.3, 3.2, and 22 nM, respectively. Other inhibitors such as RsTIQ7, RsTIS3, and RsTIS5 also affected neutrophil elastase and plasmin with K(i) in the nM range. The RsTIQ2, RsTIQ7, and RsTIS5 amino acid sequence data allowed classifying them as members of the Kunitz-type serine proteinase inhibitor family, even though the RsTI role is still unknown. Our present results showed that serine proteinase inhibitors from R. sanguineus are similar to inhibitors from Boophilus microplus other hard tick species, suggesting a similar role of these inhibitors in hard tick species and also as a potential tool to generate or improve vaccine against different ectoparasites with an unique antigen.