Microarray analysis of gene expression changes in feeding female and male lone star ticks,Amblyomma americanum (L)

A collection of EST clones from female tick Amblyomma americanum salivary glands was hybridized to RNA from different feeding stages of female tick salivary glands and from unfed or feeding adult male ticks. In the female ticks, the expression patterns changed dramatically upon starting feeding, then changed again towards the end of feeding. On beginning feeding, genes possibly involved in survival on the host increased in expression as did many housekeeping genes. As feeding progressed, some of the survival genes were downregulated, while others were upregulated. When the tick went into the rapid feeding phase, many of the survival genes were downregulated, while a number of transport‐associated genes and genes possibly involved in organ degeneration increased. In the males, the presence of females during feeding made a small difference, but feeding made a larger difference. Males showed clear differences from females in expression, as well. Protein synthesis genes were expressed more in all male groups than in the partially fed females, while the putative secreted genes involved in avoiding host defenses were expressed less. © 2009 Wiley Periodicals, Inc.     

Amblyomma americanum: identification of tick salivary gland antigens from unfed and early feeding females with comparisons to Ixodes dammini and Dermacentor variabilis

Salivary gland antigens involved in host resistance to tick feeding by Amblyomma americanum (lone star tick) have been identified. Gland extracts from unfed and partially fed 12-, 48-, 72-, 96-, and 120-hr females and their corresponding midgut tissues were analyzed by immunoblotting with sera from naturally immune and hyperimmune sheep and rabbits. Polypeptides at 90, 75, 58, 45, 33, and 23 kDa from the salivary glands of A. americanum females were consistently observed with antibodies from both sheep and rabbits. No antigens unique to tick midgut tissue were detected with immune sera. Female Dermacentor variabilis and Ixodes dammini shared 90- and 45-kDa salivary gland antigens with A. americanum, and these may represent conserved polypeptides. We speculate that some of the salivary gland antigens represent components of tick cement, while others are playing some other yet undetermined role in tick feeding.     

Macrophage migration inhibitory factor expression and protein localization in <Emphasis Type="Italic">Amblyomma americanum</Emphasis> (Ixodidae)

Amblyomma americanum (L.) ticks continue to emerge as disease vectors in many areas of the United States. Tick macrophage migration inhibitory factor (MIF) was first identified in A. americanum females and has been demonstrated to inhibit macrophage movement to the same extent as human MIF. This study was conducted to further characterize and elucidate the physiological role for MIF in tick feeding. A relative quantitative PCR assay was developed to determine the level of MIF gene expression during tick feeding. In addition, RNAi techniques were used to silence MIF prior to blood feeding. Physiological parameters of tick engorgement weight, length of feeding interval, and egg masses were observed to check for phenotypic manifestations of RNA silencing. Specific tick MIF antibody was used to localize MIF protein in frozen tick tissue sections. Tissue specific gene expression indicated that the midgut tissues were the most highly enriched for the MIF. Levels of gene expression did not parallel MIF protein pools seen in tissue sections. Of particular importance was the finding that unfed tick salivary glands appear to contain vesicles that are specific for MIF protein. This is the first demonstration of a pool of MIF that could be secreted during the first hours of tick feeding. While MIF silencing was demonstrated at the molecular level, no physiological phenotype was apparent. The MIF protein pools already available in the tissues may be sufficient to accomplish female tick feeding. Our studies show that the most prominent source of MIF during tick feeding is the midgut tissue. Future studies will address the role of MIF in blood feeding and nutrient digestion in the immature life stages of the tick.     

Immunohistochemical localization of adenosine 3':5'-cyclic monophosphate in female ixodid tick Amblyomma americanum (L.) salivary glands

Localization of adenosine 3':5'-cyclic monophosphate (cyclic AMP) in alveoli of salivary glands of female Amblyomma americanum (L.) was accomplished with an indirect immunofluorescent technique. Little cyclic AMP fluorescence was seen in Type I alveoli in glands of unfed females but considerable fluorescence was seen in Type I alveoli of glands obtained from females that had fed. The most intense cyclic AMP fluorescence was observed in complex granular cells of Type II and III alveoli in glands of unfed females and glands from females in early stages of tick feeding. In the latter stages of tick feeding an increase in fluorescence in Type III alveoli was observed in cells near the lumen, possibly adluminal interstitial or transformed granular cells.     

Ultrastructural aspects of saliva production by the granule-secreting acini of the tick Ixodes persulcatus females

Fine structure of salivary glands was investigated in the tick Ixodes persulcatus females. Ultrastructure of II and III acini in unfed and feeding females is described. Changes in size and structure of the secretory products during feeding are demonstrated.     

“Male factors” in ticks: their role in feeding and egg development

Summary

Female ticks of the family Ixodidae utilize their salivary glands as the major organs for fluid balance, secreting back into the host a dilute saliva. Feeding is composed of three phases: a preparatory phase (1–2 days) during which the tick establishes the feeding lesion, a slow phase (~7 days) during which body weight increases 10-fold, and a rapid phase (~1 day) in which body weight increases a further 10-fold. Following engorgement, the salivary glands are resorbed by an autolytic process triggered by an ecdysteroid hormone. If a female is removed from the host prior to repletion, her subsequent behaviour depends mostly on two factors: the degree of engorgement achieved and whether or not she has mated. If removed during the preparatory or slow phase of engorgement, the salivary glands are not resorbed, the tick will lay virtually no eggs and she will reattach to a host if given the opportunity, all of this irrespective of whether she is virgin or mated. If removed during the rapid phase of engorgement, however, mated females will not reattach to a host even if given the opportunity. Instead, they will resorb the salivary glands within 4 days post-removal and lay a batch of eggs. Virgin females removed after exceeding 10-fold the unfed weight likewise refuse to resume feeding if given the opportunity, but salivary gland reabsorption is delayed (to 8 days post-removal); if any eggs are laid, they are infertile. A number of chemical “factors” entering the female during copulation influence her feeding behaviour and egg development. Here we discuss the complexities of these interactions and suggest how they might be adaptive to ticks in nature.     

Comparison of differentially expressed genes in the salivary glands of male ticks,Amblyomma americanum and Dermacentor andersoni

Genes expressed differentially in the salivary glands of unfed and fed male ticks, Amblyomma americanum (L.), were identified, cloned and sequenced, and some were compared with those expressed in the salivary glands of Dermacentor andersoni. Total protein and RNA increased sixfold in the salivary glands of fed male A. americanum, while in fed male D. andersoni salivary glands, RNA increased approximately 3.5 times. Feeding D. andersoni in the presence of females increased total RNA by 25% over those fed in the absence of females. Complementary DNAs were synthesized from RNA obtained from unfed and fed ticks and amplified using RNA arbitrarily primed polymerase chain reaction (RAP-PCR) with three different primers in separate reactions. Differential display showed clear banding differences between the fed and the unfed ticks in A. americanum and D. andersoni. Sixty-one cDNA fragments that appeared to be from differentially expressed genes in A. americanum were isolated, cloned and sequenced. Hybridization reactions with labeled cDNA probes confirmed the differential expression of many of the genes in unfed and fed ticks' salivary glands; however, many of the bands contained more than one fragment and some of the fragments isolated from apparently differential bands were not specific. Sequences for 28 of the cDNA fragments (150-600 nucleotides in length) demonstrated similarity to genes in the databases, but nine of these were similar to sequences of unknown function. Some of the gene fragments identified may be important to tick feeding or tick salivary gland physiology, including a histamine-binding protein, an organic ion transporter, an apoptosis inhibitor, a cathepsin-B-like cysteine protease, proteins involved in gene regulation and several proteins involved in protein synthesis. Cross-hybridization of identified cDNAs from A. americanum with cDNA probes synthesized from D. andersoni total RNA did not show significant similarity between the two species.     

<Emphasis Type="Italic">In vitro</Emphasis> splenocyte proliferation responses of BALB/c mice to salivary gland extracts of three ixodid tick species (Acari: Ixodidae)

In vitro proliferation and cytokine production were investigated in BALB/c mice splenic cell cultures that were stimulated with concanavalin A (ConA) and lipopolysaccharide (LPS) and simultaneously exposed to salivary gland extracts (SGE) of unfed and partially fed adult ixodid ticks (Ixodes ricinus, Rhipicephalus appendiculatus, Amblyomma variegatum). Generally, tick SGE enhanced proliferation of unstimulated splenocytes and SGE of unfed ticks suppressed mitogen induced proliferation. Partially fed R. appendiculatus and A. variegatum suppressed ConA responses, while partially fed I. ricinus stimulated both ConA and LPS induced proliferation. A. variegatum and R. appendiculatus females slightly enhanced LPS responses 2 days after attachment but suppressed them at the end of the slow feeding phase. In 72 h ConA induced cell cultures, interferon gamma (IFN-γ) production was suppressed by SGE of all ticks, interleukin (IL)-10 production was enhanced by unfed I. ricinus and partially fed A. variegatum males and IL-5 production was enhanced by feeding R. appendiculatus females and A. variegatum males. The study revealed variability in the responsiveness of murine splenocytes to SGE of different ixodid tick species, whereby patterns of host immunomodulation within one tick species differed between sexes and changed during feeding.     

Preparation of monoclonal antibodies against salivary gland immunogens of femaleRhipicephalus evertsi evertsi

The preparation of monoclonal antibodies raised against antigens of salivary gland extracts of femaleRhipicephalus evertsi evertsi is reported. Nine hybridoma cell lines were established of which eight secreted IgG3 and one IgG1. The immune response was biased towards immunogens unique to the prefed stage of the tick salivary glands by prior cyclophosphamide suppression of the immune response against unfed tick salivary glands. Immunoblots of salivary gland antigens, separated by SDS-PAGE showed reactivity with three of the monoclonal antibodies, all of which had identical specificity for antigens unique to prefed salivary extracts. Each of these monoclonal antibodies identified two prominent bands with relative molecular masses corresponding to 23 and 46 and a third minor band with molecular mass of 70 kDa.     

Biochemical differentiation of lone star tick,Amblyomma americanum (L), salivary glands: Effects of attachment,feeding and mating

Salivary glands of female Amblyomma americanum (L.) are stimulated to differentiate by attachment to a host, subsequent feeding and mating. Incorporation of [³H]uridine into ribosomal and transfer RNAs as well as the synthesis of poly(A⁺)mRNA and protein parallel the pattern of increasing enzymatic activity and secretory ability of the glands. Unfed ticks contained 3.5 ± 0.47 ng poly(A⁺)mRNA/gland pr. By the second day of feeding this had increased more than 5-fold. The greatest amount of poly(A⁺)mRNA found in rapid-feeding phase females (body wt > 100 mg) was 370 ± 80 ng/gland pr. Poly(A⁺)mRNA mass doubles on the final day of feeding, just as the ticks exceeded 100 mg in wt. Ticks attached 1 to 10 days had increasingly greater amounts of salivary monosomes, 60 and 40S ribosomal subunits, and polysomes. Polysomal mass/gland pr also attained its maximum above 100 mg tick wt at the slow/rapid-feeding phase boundary; exceeding by 20 times that of unfed ticks. Degenerating glands from replete ticks continued to synthesize protein. In vitro incorporation of [³H]leucine was greatest within 24 h of attachment. Fluorographs of [³H]leucine labeled protein showed that mating caused a drop in incorporation after the 4th day of feeding. Glands from unmated females attached the same number of days continued to incorporate [³H]leucine at higher levels than those from mated females.     

Further investigations on the action of ecdysteroids on the salivary glands of the female tickAmblyomma americanum

Two phytecdysteroids (abutasterone, makisterone A) and five synthetic ecdysteroid analogues, all at 1 g/ml, were tested on salivary glands from the female tick,Amblyomma americanum L. (Acari:Ixodiae), held in organ culture for four days. All of these substances caused a significant reduction in fluid secretory competence of salivary glands in vitro. This constitutes further evidence that the structural requirements for causing salivary-gland degeneration in ticks are similar to those generally required for ecdysteroid activity in other arthropods. Although vertebrate steroids are known to augment fluid secretory competence by salivary glands in organ culture, -estradiol was not able to attenuate the degenerating effect of 20-hydroxyecdysone, supporting the suggestion that ecdysteroids and vertebrate steroids have distinct sites/mechanisms of action on this tissue.     

Developmental changes in morphology and toxin content of the salivary gland of the australian paralysis tick Ixodes holocyclus

Binnington K.C. and Stone B.F. 1981. Developmental changes in morphology and toxin content of the salivary gland of the Australian paralysis tick Ixodes holocyclus.International Journal for Parasitology11: 343–351. Histological study of the salivary gland of female I. holocyclus has shown that 2 of the 4 cell types present are richest in granules in the unfed stage but have discharged these granules after an attachment period of 24 h. The presence of a toxin in homogenates of salivary glands from unfed females and its absence after 24 h of attachment may be associated with the loss of granules from these 2 cell types shortly after attachment. Another cell type shows a gradual increase in granule content throughout feeding and a fourth, a peak in granule content after an attachment period of 120 h. The latter cell type may produce the paralysing toxin since ticks do not paralyse the host until they have fed for about this time and homogenised glands are most toxic at 120–144 h.     

Evidence that developmental changes in type III acini in the tickAmblyomma hebraeum (Acari: Ixodidae) are initiated by a hemolymph-borne factor

During feeding, certain cells in the salivary gland type III acini of the ixodid tickAmblyomma hebraeum Koch undergo major developmental changes. We induced many of these changes in the ablumenal interstitial cells (AbIC), adlumenal interstitial cell (AdIC), and f-cells of type III acini, by transplanting the salivary gland of the unfed female to the hemocoel of a feeding female. In transplants, AbICs enlarged and formed a labyrinth of extracellular spaces. Extensions of AbICs pushed into the AdIC. Autophagic vacuoles were common in AbICs. The f-cells also enlarged and developed autophagic vacuoles. Complex interdigitation occurred between the f-cells and the AbIC. In transplants, the labyrinth was not as extensive as that of fed unoperated females or of operated females. The AdIC, AbIC, and f-cells did not undergo as extensive a development in unoperated fed males as the same cells did in unoperated fed females. In males AbICs did not develop an extensive labyrinth, and the f-cells did not develop beyond a secretory phase. No autophagic vacuoles were observed in any of these cells. When male salivary glands were transplanted into feeding females, AdIC, AbICs and f-cells developed an ultrastructure similar to the same cells in female transplants. Cells from salivary glands of unfed females cultured for 2 days in TC medium 199 resembled the same cells from control unfed salivary glands. The selectivity of these changes supports the conclusion that a hemolymph-borne salivary gland development factor initiated this development.     

Molecular cloning of cAMP-dependent protein kinase catalytic subunit isoforms from the lone star tick, Amblyomma americanum (L.)

The salivary glands of ixodid ticks are central to tick feeding and to survival during off-host periods. They produce and secrete a number of molecules critical to maintaining the complex host-vector interface and to maintaining osmotic balance. We have previously shown that a cyclic AMP-dependent protein kinase (cAPK) is involved in the mechanism of salivary gland secretion. We have now cloned cDNAs encoding three isoforms of the catalytic subunit (cAPK-C) of the cAPK from Amblyomma americanum, which are probably produced from alternative RNA processing of a single cAPK-C gene. The cDNAs contain unique N-termini of variable lengths that are linked to a common region containing the alpha A helix, catalytic core, and a C-terminal tail. The common region is highly similar to both insect and vertebrate cAPK-Cs. We have examined mRNA profiles in whole ticks and in isolated salivary glands throughout feeding and find that a single cAPK-C isoform is expressed in the salivary glands of both unfed and feeding females.     

Effects of octopamine on fluid secretion by isolated salivary glands of a feeding ixodid tick

Octopamine elicited a dose-related secretory response by salivary glands isolated from the feeding female tick Amblyomma americanum. Half-maximal stimulation occurred at about 60 μM. Phentolamine (10 μM) failed to inhibit the octopamine-mediated response; however, thioridazine (50 μM) inhibited both octopamine (1,000 μM) and dopamine-stimulated (0.1 μM) secretion. Maximal stimulation by dopamine (1.0 μM) showed no further increase in the rate of secretion after adding octopamine (1,000 or 0.1 μM). Glands responded to octopamine (100 μM) with rates significantly lower than controls following exposure to amphetamine (1,000 μM). Octopamine receptors do not appear to mediate the secretory response, and octopamine may stimulate secretion by releasing catecholamines from presynaptic neurons. These results support the hypothesis that dopamine is the natural transmitter mediating fluid secretion in the feeding tick salivary gland.