Kayoko Yamaji

A genome-wide analysis of genes and gene families involved in innate immunity of Bombyx mori

A genome-wide analysis of innate immunity-related genes and gene families was conducted using the silkworm, Bombyx mori. We identified orthologs for a large number of genes involved in insect immunity that have been reported from Drosophila melanogaster (Diptera), Anopheles gambiae (Diptera), Apis mellifera (Hymenoptera) and Tribolium castaneum (Coleoptera). B. mori has a unique recognition gene and antimicrobial peptide genes that are not present in the Drosophila, Anopheles, Apis and Tribolium genomes, suggesting a lineage-specific gene evolution for lepidopteran insects. The comparative analysis of the insect immune repertoires indicated a dynamic and flexible gene expansion in recognition, modulation and effector mechanisms due to different selection pressures. Differential gene regulation by different bacterial species was found in PGRP and Serpin genes, suggesting that Bombyx has a highly selective gene regulation system depending on bacterial species.

Longistatin is an unconventional serine protease and induces protective immunity against tick infestation

Classical serine proteases use the conserved Ser/His/Asp catalytic triad to hydrolyze substrates. Here, we show that longistatin, a salivary gland protein with two EF-hand domains from the vector tick Haemaphysalis longicornis, does not have the conserved catalytic triad, but still functions as a serine protease. Longistatin was synthesized in and secreted from the salivary glands of ticks, and is injected into host tissues during the acquisition of blood-meals. Longistatin hydrolyzed fibrinogen, an essential plasma protein in the coagulation cascade, and activated plasminogen, into its active form plasmin, a serine protease that dissolves fibrin clots. Longistatin efficiently hydrolyzed several serine protease-specific substrates showing its specificity to the amide bond of Arg. Longistatin did not hydrolyze synthetic substrates specific for other groups of proteases. The enzyme was active at a wide range of temperatures and pHs, with the optimum at 37°C and pH 7. Its activity was efficiently inhibited by various serine protease inhibitors such as phenylmethanesulfonyl fluoride (PMSF), aprotinin, antipain, and leupeptin with the estimated IC(50) of 278.57 μM, 0.35 μM, 41.56 μM and 198.86 μM, respectively. In addition, longistatin was also potently inhibited by Zinc (Zn(2+)) in a concentration-dependent manner with an IC(50) value of 275 μM, and the inhibitory effect of Zn(2+) was revived by ethylenediaminetetra acetic acid (EDTA). Immunization studies revealed that longistatin sharply induced high levels of protective IgG antibodies against ticks. Immunization with longistatin reduced repletion of ticks by about 54%, post engorgement body weight by >11% and molting of nymphs by approximately 34%; thus, the vaccination trial was approximately 73% effective against tick infestation. Taken together, our results suggest that longistatin is a new potent atypical serine protease, and may be an interesting candidate for the development of anti-tick vaccines.

Hemoglobinase activity of a cysteine protease from the ixodid tick Haemaphysalis longicornis

We report here the molecular characterization and possible function of a cysteine protease (termed HlCPL-A) identified in the midgut of the hard tick Haemaphysalis longicornis. HlCPL-A is a 333 amino acid protein belonging to the papain family of the cysteine protease. A construct encoding proHlCPL-A was expressed in Escherichia coli and purified as both procathepsin L and active processed cathepsin L forms. The HlCPL-A gene expression was up-regulated by blood-feeding process. HlCPL-A exhibited substrate specificity against synthetic peptidyl substrates (Z-Phe-Arg-MCA and Z-Arg-Arg-MCA; k(cat)/K(m)=0.19 and 0.0023 M(-1) S(-1), respectively). The proteolytic activity of HlCPL-A was inhibited by leupeptin, antipain and E-64 but was unaffected by pepstatin. HlCPL-A was capable of degrading bovine hemoglobin at pH 3.2 to 5.6. These results suggest that HlCPL-A may play important roles in the digestion of host hemoglobin in ticks.

Longistatin, a novel EF-hand protein from the ixodid tick Haemaphysalis longicornis, is required for acquisition of host blood-meals☆

Calcium and the EF-hand Ca(++)-binding proteins have been undisputedly recognised as the key players in almost all aspect of cell functions, starting from the cells birth, during mitosis to its end with apoptosis. But in a few exceptional cases the EF-hand proteins are secreted from the cells and play their crucial roles extracellularly. Here, to our knowledge for the first time, we have identified and characterised an EF-hand Ca(++)-binding protein from the salivary glands of the ixodid tick, Haemaphysalis longicornis, herein called longistatin. Longistatin possesses two EF-hand domains which conserve canonical structure and bind with Ca(++). Both the recombinant and endogenous proteins were stained with Rutheninum red. Reverse-transcription PCR data showed that longistatin-specific transcript was expressed in all life-cycle stages of H. longicornis and was up-regulated only in blood-fed ticks. Organ-specific transcription analysis revealed a salivary gland-specific expression of the gene which peaked at 96-120 h of feeding when ticks acquired full blood-meals and become engorged but its expression declined sharply as they detached and dropped off the host. Consistently, endogenous protein was localised in the salivary glands of adult ticks and in the lumen of the functional acini of the salivary glands. Furthermore, longistatin was detected in feeding lesions at the site of attachment of ticks on the host. These results suggest that longistatin is synthesised in, and is secreted from, the salivary glands and may have functional roles in the feeding process of ixodid ticks.

Leucine aminopeptidase, HlLAP, from the ixodid tick Haemaphysalis longicornis, plays vital roles in the development of oocytes.

Female ixodid ticks are amazing invertebrate animals which efficiently convert a large amount of nutrients derived from their ingested blood meals into eggs. Although oocyte development (vitellogenesis) in ticks is triggered by a blood meal and is assumed to be supported by nutrition derived from ovarian cells connecting oocytes, little is known about the ovarian molecules processing nutrient materials for the vitellogenesis. In this study, we have suggested a putative function of leucine aminopeptidase (HlLAP) in the ovary of parthenogenetic adult ixodid tick Haemaphysalis longicornis regarding a negative output of reproduction following disruption of HlLAP gene by RNA interference. Endogenous HlLAP was shown to be localized in the ovarian cells, including ovarian epithelial and pedicel cells which were assumed to provide nutrients for the developing oocytes. Histological studies demonstrated that a majority of immature oocytes in HlLAP gene knockdown ticks were transformed into abnormal morpho-histological oocytes with vacuolated cytoplasm and/or condensed nucleus. Taken together, a reduction of the numbers of laid eggs in the HlLAP gene knockdown ticks may be due to the degeneration of immature oocytes following deprivation of nutrients such as amino acids supplied not only by midgut HlLAP but also by the ovarian HlLAP. Regulation of the tick molecules involved in nutrient metabolism for the reproduction, including blood digestion and vitellogenesis, would help in controlling the tick population and tick-borne pathogens.

A Kunitz-type proteinase inhibitor from the midgut of the ixodid tick, Haemaphysalis longicornis, and its endogenous target serine proteinase.

Although previous studies strongly suggested the involvement of serine proteases in blood digestion in the midgut of ticks, the regulating molecules of these proteinases are still unidentified. A novel Haemaphysalis longicornis Kunitz-type serine proteinase inhibitor with a single Kunitz-domain (HlMKI) has been identified and its co-localization with a midgut-derived serine proteinase (HlSP) within the epithelial cells has been demonstrated. Recombinant HlMKI inhibited the hydrolytic activity of HlSP, suggesting that HlMKI is a possible inhibitor of HlSP and may be part of a regulatory system of midgut serine proteinases.

A hemocyte-derived Kunitz-BPTI-type chymotrypsin inhibitor, HlChI, from the ixodid tick Haemaphysalis longicornis, plays regulatory functions in tick blood-feeding processes.

Inhibitors of proteases play key roles in the biological processes of vertebrate and invertebrate animals, including arthropod parasites. Here, we describe a cDNA that encodes a functionally active chymotrypsin inhibitor of the BPTI/Kunitz family of serine protease inhibitors from the hemocytes of the ixodid tick, Haemaphysalis longicornis, herein called HlChI. HlChI sequence is evolutionarily conserved and contains six cysteine residues and three disulfide bonds with a calculated molecular weight of 9.1 kDa. HlChI-specific mRNA was expressed in all developmental stages of ticks and the expression was up-regulated by hosts blood-feeding processes. Endogenous HlChI was localized mainly in the hemocytes. HlChI potently inhibited bovine pancreatic α-chymotrypsin for hydrolyzing the fluorogenic substrate (IC(50) 8.32 nM, K(d) 5.35 ± 1.01 nM) and bovine casein digestion. However, HlChI weakly inhibited bovine pancreatic trypsin and could not affect the porcine elastase activity, suggesting its narrow specificity to chymotrypsin. HlChI was stable over the pH range 2-11 and heating up to 70 °C at pH 8. HlChI was highly stable to 8 M urea and 2% SDS at pH 8.0, when treated for 24 h at 37 °C. However, 0.2 M 2-mercaptoethanol caused complete but reversible inactivation of HlChI. Knockdown of HlChI gene by RNA interference (RNAi) caused death of the feeding ticks, failure of ticks to engorge and significantly reduced body weight gain. RNAi also resulted in significantly decreased egg conversion ratio and fecundity. These results suggest that HlChI is a chymotrypsin-specific inhibitor with high stability and may play regulatory functions in hosts blood-feeding processes and tick reproduction.

Semi-artificial mouse skin membrane feeding technique for adult tick, Haemaphysalis longicornis

BackgroundAn in vitro artificial feeding technique for hard ticks is quite useful for studying the tick-pathogen interactions. Here, we report a novel semi-artificial feeding technique for the adult parthenogenetic tick, Haemaphysalis longicornis, using mouse skin membrane.FindingsSkin with attached adult ticks was removed from the mouse body at 4 to 5 days post-infestation for the construction of the feeding system. This system supplied with rabbit blood was kept in >95% relative humidity at 30°C during the feeding, and ticks were fully engorged (artificially engorged, AE) within 12 to 48 h. For comparison, ticks were fed to engorgement solely on rabbit or mouse for 5 days as controls (naturally engorged on rabbit, NEr, or mouse, NEm). Blood digestion-related gene expression in the midgut and reproductive fitness were compared. Body weight, egg mass weight, egg conversion ratio, and hatchability of eggs did not show any significant differences. We analyzed transcription profiles of selected genes assayed by quantitative RT-PCR and revealed similar patterns of expression between NEr and AE but some differences between NEm and AE or NEm and NEr.ConclusionsOur results demonstrate that this semi-artificial feeding technique mimics natural feeding processes of ticks and can be utilized as a standardized method to inoculate pathogens, especially Babesia protozoa, into H. longicornis and possibly other tick species as well.

Synchronous development of Eimeria tenella in chicken caeca and utility of laser microdissection for purification of single stage schizont RNA.

Eimeria tenella is recognized worldwide as a significant pathogen in the poultry industry. However, a lack of methods for isolating developing schizonts has hindered the use of transcriptome analyses to discover novel and developmentally regulated genes. In the present study, we characterized the long-term successive development of E. tenella in infected chicken caeca and assessed the utility of laser microdissection (LMD) for the isolation of schizont RNA. Developmental stages, including those of the first, second, and third-generation schizonts and gametocytes, were synchronous. Using LMD, only the mature second-generation schizonts were successfully excised from the lamina propria, and non-degraded RNA was purified from the schizonts. E. tenella-specific genes were amplified by reverse transcription polymerase chain reaction (RT-PCR). These results augment our understanding of the E. tenella life cycle, and reveal LMD as a potentially useful tool for gene expression analyses of the intracellular stages of E. tenella.

HlCPL-A, a cathepsin L-like cysteine protease from the ixodid tick Haemaphysalis longicornis, modulated midgut proteolytic enzymes and their inhibitors during blood meal digestion

Ticks employ a battery of proteases to digest the contents of host blood meals. Host hemoglobin degradation is facilitated by proteolytic networks in the midgut, the first major region of the body where ingested blood comes into contact with the ticks internal tissues. Our previous studies indicated that HlCPL-A, a cathepsin L-like cysteine protease isolated from the midgut of the ixodid tick Haemaphysalis longicornis, is a potent hemoglobinase, and plays important roles in the digestion of blood acquired from a host. In this paper, we report the effects of silencing of the HlCPL-A gene in H. longicornis using RNA interference (RNAi). We observed that the survival of HlCPL-A-silenced ticks was reduced compared with that of controls during blood digestion, most likely due to the compromised ability of ticks to digest blood. The morphological analysis results of midgut lumen were different between HlCPL-A-silenced ticks and controls, indicating that HlCPL-A plays a crucial role in hemolysis in the midgut of ticks. The expression level was analyzed using quantitative RT-PCR-based endogenous expression approach. Compared to that in malE double stranded RNA (dsRNA)-treated ticks, in the midgut of HlCPL-A dsRNA-treated ticks, some proteases and inhibitors related to the hemoglobin digestive cascade were up-regulated while the others were down-regulated. These results suggest that HlCPL-A is related to the multi-enzyme cascade and protease network for hemoglobin digestion. These findings suggest that the hemoglobin digestive cascade may assemble in the midgut of ticks.