Characterization of tick antigens inducing host immune resistance. I. Immunization of guinea pigs with Amblyomma americanum-derived salivary gland extracts and identification of an important salivary gland protein antigen with guinea pig anti-tick antibodies

Guinea pigs immunized by subcutaneous injection of an emulsion of incomplete Freund's adjuvant (IFA) containing tick salivary gland extract antigens (SGA) from partially fed female ticks expressed a significant level of tick rejection when challenged 17 days later. This level of tick rejection was similar to animals actively sensitized by tick feeding and challenged at the same time. SGA emulsified with complete Freund's adjuvant (CFA) or administered with saline was ineffective. However, ticks that fed on animals immunized with SGA+IFA or SGA+CFA expressed significant reductions in engorgement weight. SGA was active when prepared with or without protease inhibitors. The minimum effective immunizing dose of SGA was between 100 and 280 micrograms per animal. Extracts made from salivary gland-derived cement material (CA) from partially fed female ticks administered at 50 micrograms in IFA induced levels of tick rejection comparable to animals immunized with 280 micrograms of SGA+IFA. Sodium dodecylsulfate polyacrylamide gel electrophoresis (SDS/PAGE) of 35S- and 125I-radiolabeled SGA and CA extracts immunoprecipitated by guinea pig anti-tick serum that transferred immune resistance demonstrated a unique protein of 20,000 m.w. Serum from animals immunized with SGA+IFA (successful immunization) recognized this same protein, whereas serum from animals immunized with SGA+CFA (unsuccessful immunization) did not. The results of this study suggest that a 20,000 m.w. protein derived from the tick salivary gland may be responsible for the induction and perhaps elicitation of host immune resistance responses to Amblyomma americanum ticks.     

Immunology of interactions between ticks and laboratory animals

There is good reason to believe that the resistance to ixodid ticks acquired by guinea pigs, rabbits and mice is immunologically mediated. One proposed mechanism for this resistance, which may well be common to all these laboratory animals, involves cutaneous hypersensitivity reactions. Basophils accumulate at tick attachment sites in the skin of resistant animals and degranulate in response to tick salivary antigens, releasing histamine and other mediators. The mediators may directly cause ticks to cease salivating and feeding and then to detach, or they may induce reflex grooming reactions by the host, leading to the removal of ticks from the itching skin.There are gaps in the evidence supporting this hypothesis, and it is likely that other modes of tick resistance remain to be described. However, it should be recognized that, although there have been a few details added to the story in the last fifty years, William Trager's original classic observations and conclusions still stand as the core of the current dogma.     

Acquired resistance to ixodid ticks induced by tick cement antigen

Antisera from guinea pigs made resistant to infestation with an ixodid tick of east and central Africa,Rhipicephalus appendiculatus, were used to identify the tick antigens they recognized by immunoblotting. Most of the antigens were found in tick salivary glands and in tick attachment cement. Antisera fromR. appendiculatus-resistant guinea pigs also recognized some salivarygland antigens in ticks of other species (R. pulchellus, R. evertsi, Amblyomma variegatum andA. gemma). Antibodies against the most strongly recognizedR. appendiculatus antigen, a 20-kDa molecule, were only poorly reactive with similar-sized molecules in the other ticks. A 94-kDa antigen, which appeared to have broader cross-reactivity, was purified fromR. appendiculatus attachment cement, and a monospecific rabbit serum was raised against it. This antiserum clearly recognized a molecule of similar molecular weight inR. pulchellus andR. evertsi. Intravenous inoculation of rabbits with the purified molecule elicited delayed-type hypersensitivity to the antigen. The hypersensitive rabbits demonstrated resistance to feeding ofR. appendiculatus ticks but slight enhanced feeding ofR. pulchellus ticks. These results are discussed with respect to their relevance for artificial induction of tick-feeding resistance.     

A comparison of the immunosuppressive effects of salivary gland extracts from two laboratory strains of Boophilus microplus

This study addresses three questions related to the immune response of cattle to tick salivary gland extracts. Firstly, is there a difference in the inhibition of proliferation of Concanavalin A (ConA) stimulated bovine lymphocytes induced by salivary gland extracts of the N and Y strains of Boophilus microplus? Second, is there a difference in the development rate of the Y and N tick strains? Third, does the host affect the inhibitory effect of salivary gland extract on the proliferation of ConA stimulated lymphocytes from the two tick strains? Salivary gland extract of the Y strain inhibited in vitro proliferation of lymphocytes stimulated by ConA significantly more than that of the N strain, when each strain was raised on different animals. A difference in the development rate was observed between the tick strains when raised on the same animal, with female ticks of the Y strain developing faster and reaching a greater fully engorged weight than ticks of the N strain. The difference in their rate of development did not appear to contribute to a difference in inhibitory effects of the salivary gland extracts and there was no difference between the inhibitory effects of salivary gland extracts from both strains. However, when Y strain ticks were raised on different animals, there was a significant difference in the inhibition of lymphocyte proliferation between the two salivary gland extracts. Therefore, it was concluded that there is no difference between the inhibitory effects of the two tick strains and that the host has an influence on salivary gland extract composition of B. microplus and its inhibitive properties.     

Rejection of ticks from guinea pigs by anti-hapten-antibody-mediated degranulation of basophils at cutaneous basophil hypersensitivity sites: role of mediators other than histamine

Previous studies have established that recruitment of basophils to sites of tick feeding in guinea pigs is required to effect immune resistance. In the current study, actively sensitized guinea pigs treated three times daily with H-1 (mepyramine) and H-2 (cimetidine) histamine receptor antagonists, during the challenge tick infestation period, expressed normal resistance to Amblyomma americanum larvae. Similarly, naive guinea pigs treated with anti-histamines four times daily, beginning 7 days before transfer of immune serum and tick challenge and continuing through the tick infestation period, also expressed normal antibody-mediated resistance to A. americanum. These results indicated that histamine was not an important basophil mediator of the resistance response. Ticks allowed to feed on tissue rich in basophils that were induced by sensitization and subsequent local challenge with non-tick protein antigen, keyhole limpet hemocyanin (KLH), expressed normal yield. Ticks that fed on similar tissue rich in basophils induced by sensitization and challenge with KLH, in which the basophils expressed anti-picryl specificity due to systemic passive transfer of anti-picryl antibodies, were rejected when basophils were induced to degranulate by i.v. challenge with picryl antigen at 6 hr (29% rejection), 12 hr (18% rejection), 24 hr (22% rejection), and 48 hr (37% rejection) post-tick attachment. However, basophil degranulation at 18, 72 and 96 hr post-tick attachment had no adverse effect on tick feeding. These hosts were protected from systemic anaphylaxis by treatment with the anti-histamine mepyramine. Release of histamine occurred at tick feeding sites, but vasoactive effects were blocked by mepyramine treatment as evidenced by a lack of increased vascular permeability (bluing) at these sites compared with non-tick-infested tissues, or to cutaneous basophil hypersensitivity (CBH) sites of animals not protected with mepyramine. These results indicate that local recruitment and subsequent degranulation of basophils via immune mechanisms dependent on non-tick antigens can lead to tick rejection, and that basophil-derived mediators other than histamine are involved in this immune resistance response to A. americanum ticks. The identity of the crucial basophil mediator(s) is not known. The significant susceptibility of ticks to basophil-mediator release at 6 to 12 hr and 24 to 48 hr post-attachment coincides with the tick attaching and fast-feeding phases, respectively, suggesting that these phases of tick parasitism are particularly susceptible to the effect of basophil mediators other than histamine.     

人肝脏特异的F抗原分离纯化及其抗血清制备

取新鲜的人肝脏,充分洗涤,制备匀浆,上清液经Sephadex-G200、DE52层析,聚丙烯酰胺凝胶电泳,得到电泳纯Ｆ抗原,并免疫制备抗血清.     

Cutaneous and systemic cellular responses induced by the feeding of the argasid tick Ornithodoros parkeri

Carolyn M. Johnston and Stephen J. Brown 1985. Cutaneous and systemic cellular responses induced by the feeding of the argasid tick Ornithodoros parkeri. International Journal for Parasitology15: 621–628. Initial feeding by Ornithodoros parkeri ticks induced a significant blood basophilia in guinea pigs, with a minimal cutaneous basophil response. Hosts challenged 14 days later, however, exhibited significantly depressed blood basophil levels associated with a marked accumulation of these cells at tick feeding sites in the tissue. Blood eosinophil levels in primary and secondary hosts were comparable, but eosinophil levels at tick feeding sites in challenged animals were significantly greater than levels in primary hosts. Furthermore, challenge tick feeding resulted in the activation of primary tick feeding sites on the opposite flank that became erythematous 90 min after challenge and indurated within 24 h. Histologically, these activated primary feeding sites 90 min after challenge on the opposite flank were marked by a dominant eosinophil response (314 ± 128 cells, 59% of the infiltrate) with a marked basophil component (145 ± 67 cells, 28% of the infiltrate) that resembled the active challenge feeding sites 24 h after infestation (24 ± 52 cells, 76% of the infiltrate); 90 min after challenge active feeding sites had a weak basophil response (2 ± 1 cells) similar to uninfested controls. These results suggest the chronic nature of tick bites with an apparent continual recruitment of basophils that is probably a result of slow antigen release over time by appropriately sensitized antigen presenting cells. Primary tick feeding sites in guinea pigs previously exposed to Xenopsylla cheopis fleas, on the opposite flank, contained a marked eosinophilia (63 ± 25 cells) compared to primary tick feeding sites in naive guinea pigs (2 ± 0 cells); suggesting the possibility of cross reactivity between flea and tick antigens     

Factors influencing the toxicity of salivary gland extracts of Ixodes holocyclus Neumann

A bioassay using mice was developed to compare the toxin content of extracts of salivary glands of I. holocyclus at various stages of feeding. The quantity of toxin increased rapidly from the third day of feeding. Toxin production continued and increased in ticks removed after 3–5 days on mice and held at 30°C at 92% RH for 24 h, whereas no toxin was detected in the salivary glands of ticks fed for 3 days and treated similarly. It is suggested that major physiological changes occur in the salivary glands of I. holocyclus on the third day, which once stimulated continue independently of feeding. Toxin production in ticks was not suppressed by passively immunizing mice with anti-tick toxin but was in ticks fed upon hosts with a previous experience of tick feeding.Thus, to obtain salivary glands containing high concentrations of toxin for chemical analysis, it is necessary for salivary glands to develop 5 days from the initial attachment of the tick to a host with no previous experience of tick feeding. This can be achieved by passively immunizing mice against toxin, thus enabling the tick to feed 5 days without killing the mouse or by keeping the tick for 24 h at 30°C at 92% RH following the death of the mouse on the fourth day.     

Rhipicephalus appendiculatus feeding on rabbits and cattle: Salivary-gland responses to varying host resistance

AdultRhipicephalus appendiculatus ticks were fed as three sequential infestations on both rabbits and cattle. The feedings at first infestation on naive hosts were optimum for the ticks, whereas at third infestation the hosts were resistant, as expressed by reduced tick feeding performance. Ticks from naive and resistant hosts were examined for histological differences of salivary glands. In ticks fed on resistant rabbits there was a large increase in the synthesis of glycoprotein secretory granules in thec ₁ cells compared with ticks fed on naive rabbits. In ticks fed on naive and resistant cattle, the activity of thec ₁ cells was less than in ticks fed on naive and resistant rabbits. It was concluded that the salivary glands are able to respond selectively to conditions at the feeding site, and that this may be advantageous to the tick.     

Comparative sialomics between hard and soft ticks: implications for the evolution of blood-feeding behavior

Ticks evolved various mechanisms to modulate their host's hemostatic and immune defenses. Differences in the anti-hemostatic repertoires suggest that hard and soft ticks evolved anti-hemostatic mechanisms independently, but raise questions on the conservation of salivary gland proteins in the ancestral tick lineage. To address this issue, the sialome (salivary gland secretory proteome) from the soft tick, Argas monolakensis, was determined by proteomic analysis and cDNA library construction of salivary glands from fed and unfed adult female ticks. The sialome is composed of approximately 130 secretory proteins of which the most abundant protein folds are the lipocalin, BTSP, BPTI and metalloprotease families which also comprise the most abundant proteins found in the salivary glands. Comparative analysis indicates that the major protein families are conserved in hard and soft ticks. Phylogenetic analysis shows, however, that most gene duplications are lineage specific, indicating that the protein families analyzed possibly evolved most of their functions after divergence of the two major tick families. In conclusion, the ancestral tick may have possessed a simple (few members for each family), but diverse (many different protein families) salivary gland protein domain repertoire.     

Alteration of arachidonate levels in tick salivary glands by dietary modification of host blood lipids

Tick saliva contains prostaglandins of the 2-series, believed to facilitate bloodmeal acquisition. Because ticks cannot synthesize the prostaglandin precursor, arachidonic acid, investigations were undertaken to study the uptake, incorporation, and distribution of arachidonic acid in the salivary glands of the lone star tick in vitro and in vivo. Uptake of [³H]arachidonate by isolated salivary glands was reduced in the presence of low concentrations of arachidonic or eicosapentaenoic acids, but much higher, non-physiological concentrations of oleic and linoleic acids were required to inhibit [³H]arachidonate uptake. The incorporation of [³H]arachidonate into triglycerides increased at high concentrations of arachidonic or eicosapentaenoic acid, but not at any concentration of oleic or linoleic acid. Eicosatetraynoic acid greatly inhibited [³H]arachidonate uptake and increased intracellular unesterified [³H]arachidonic acid. Guinea pigs fed hydrogenated coconut oil, safflower/primrose oil, or fish oil exhibited altered blood lipids; notably increased levels of eicosapentaenoic acid when fed fish oil. Salivary gland lipids in ticks fed on these hosts were also altered. Ticks parasitizing fish oil-fed guinea pigs contained high levels of eicosapentaenoic acid with a 30% reduction in arachidonate levels. The results demonstrated that eicosapentaenoic acid in the host diet had profound effects on arachidonate assimilation by tick salivary glands, which could lead to altered prostaglandin content in tick saliva. © 1996 Wiley-Liss, Inc.     

Dot-ELISA assessment of guinea pig antibody responses to repeated Dermacentor andersoni infestations

Acquired resistance to ixodid tick infestation is expressed by cattle and laboratory animals. Humoral factors appear to be involved in host acquired resistance to tick bite; however, specific immune responses have yet to be fully characterized. This study examined tick resistance expressed by Hartley guinea pigs upon repeated infestation with Dermacentor andersoni, and describes longitudinal development of antigen specific immunoglobulin over approximately 180 days. Guinea pigs were infested either 4 times with D. andersoni adults, or twice with nymphs. Both infestation groups, adults and nymphs, demonstrated a significant level of resistance to re-infestation, following initial exposure. Dot enzyme-linked immunosorbent assay (Dot-ELISA) was employed to detect antibody reactive with D. andersoni salivary gland antigens (SGA). Animals infested with adults had antibody that increased at a relatively constant rate until the fourth infestation, which was differentiated by a sharp increase in titer, that was maintained for approximately 2 wk. Guinea pigs that received nymph infestations had SGA-specific antibody; however, titers were lower than those in the adult infestation group. Antibody levels continued to increase approximately 80 days beyond the final (second) infestation for this group. A direct correlation between resistance and antibody titer was not evident, since resistance was relatively stable after the second infestation in both infestation groups, and tick-specific immunoglobulin levels continually increased.     

Rhipicephalus appendiculatus: Larval feeding sites in guinea pigs actively sensitized and receiving immune serum

Histological analyses of larval Rhipicephalus appendiculatus feeding sites in naive and actively sensitized guinea pigs were made at 6, 24, 48, 72, and 96 hr post-tick attachment. As primary feedings progressed the cavity at the entrance of the ticks mouthparts into the uppermost dermis, and the surrounding cellular infiltrate (lesion) both increased. Early (6 hr) lesions were dominated by eosinophils (46% of the infiltrate), neutrophils predominated at 24 (55%) and 48 hr (68%), eosinophils again predominated at 72 hr (44%), and finally basophils were dominant at 96 hr (78%). At sites of secondary feedings in animals expressing acquired resistance, lesion size increased as tick feeding progressed and at each observation time was at least twice that observed in primary feedings. Dermal cavities at the site of entrance of the ticks mouthparts were occasional in occurrence and were reduced in size indicating altered tick feeding. Basophils were dominant at all observation times ranging from 61 to 91% of the infiltrate. The second cell type of significance was the eosinophil, ranging in abundance from 7 to 21%. Recipients of immune serum had a smaller cellular infiltrate around feeding ticks, but basophils were also dominant. Basophils appear to be the principal host cell involved in acquired resistance to tick feeding as indicated by the profound cutaneous basophil reaction that characterized the immune response to larval ticks both in actively and passively sensitized hosts. The finding of significant eosinophil accumulations at tick feeding sites of both hosts indicates that these cells may also contribute to acquired resistance.     

Leukocyte-migration inhibition in guinea pigs. I. Correlation with skin test reactivity and macrophage-migration inhibition.

Fifteen guinea pigs, immunized with one of three soluble antigens, repeatedly demonstrated inhibition of leukocyte migration and positive skin tests to the immunizing antigens. An additional five animals immunized with ovalbumin demonstrated inhibition of macrophage migration as well as direct and indirect inhibiton of leukocyte migration. Only one of fifteen animals demonstrated inhibition of leukocyte migration and none had a positive skin test with an antigen to which it had not been sensitized, indicating that the assay is antigen specific.     

Purification and cloning of a novel antimicrobial peptide from salivary glands of the hard tick, Ixodes sinensis

A novel antimicrobial peptide named as ixosin-B was isolated from the salivary glands of the hard tick, Ixodes sinensis, by gel filtration, ion exchange chromatography and reverse-phase high-performance liquid chromatography (RP-HPLC). Its amino acid sequence was determined as QLKVDLWGTRSGIQPEQHSSGKSDVRRWRSRY by Edman degradation. The cDNA encoding ixosin-B was cloned by cDNA library screening. The predicted protein from the cDNA sequence composed of 89 amino acids including mature ixosin-B. Purified ixosin-B exerted its antimicrobial activities against bacteria and fungi. No similarity was found by BLAST search to any database entries and, thus, our findings describe a novel antimicrobial peptide. It is also the fourth family of antimicrobial peptide from hard ticks.     

A novel antimicrobial peptide from salivary glands of the hard tick, Ixodes sinensis

A novel antimicrobial peptide named as ixosin was isolated from the salivary glands of the hard tick, Ixodes sinensis, by gel filtration, ion exchange chromatography and reverse-phase high-performance liquid chromatography (RP-HPLC). Its amino acid sequence was determined as GLHKVMREVLGYERNSYKKFFLR by Edman degradation and its molecular weight was 2870.5 analyzed by fast atom bombardment (FAB) mass spectrometry. This is the first antimicrobial peptide from ticks that lacks cysteine in its primary structure. The cDNA encoding ixosin was cloned by cDNA library screening. The predicted protein from the cDNA sequence composed of 79 amino acids including mature ixosin. Purified ixosin exerted its antimicrobial activities against bacteria and fungi. No similarity was found by BLAST search to any database entries and, thus, our findings describe a novel antimicrobial peptide.     

中华硬蜱凝血酶抑制剂的分离纯化与活性

通过凝胶过滤和反相高压液相层析。从200只半饱吸血的中华硬蜱(Ixodide sinesis)唾液腺中分离纯化得到一凝血酶抑制剂。用飞行质谱测定其分子量为6．356kDa,与其他蜱类来源的凝血酶抑制剂分子量不同,提示为一新蛋白分子。该抑制剂对凝血酶有强烈的抑制活性,对激活的第X因子和胰蛋白酶有微弱的抑制活性。其发现将为发展疫苗、生物控制中华硬蜱提供资料和目标抗原。     

Ixodes dammini: salivary anaphylatoxin inactivating activity

Saliva of the tick, Ixodes dammini, antagonizes anaphylatoxin, abolishing both the effects of anaphylatoxin on guinea pig ileum preparations regularly stimulated with histamine and the local edema caused by intradermal injection of anaphylatoxin into guinea pigs. Saliva of these ticks, however, did not modify polymorphonuclear leukocyte aggregation induced by anaphylatoxin. Bradykinin and lysil-bradykinin were inactivated, but angiotensin I, angiotensin II, and substance P were not affected. Amino acids were released rapidly following incubation of saliva with bradykinin, but slowly from des-arg-9-bradykinin. These results suggest the presence of a salivary carboxypeptidase with specificity for terminal basic amino acids. Such activity may inactivate anaphylatoxin and bradykinin at the site of tick attachment.