LC/MS/MS identification of 20-hydroxyecdysone in a scorpion (Liocheles australasiae) and its binding affinity to in vitro-translated molting hormone receptors

Recent advances in mass spectrometry (MS) technology have facilitated the detection and quantification of minor components in organisms and the environment. In this study, we successfully identified 20-hydroxyecdysone (20E) in first instar nymphs (7 days after hatching) of the scorpion Liocheles australasiae, using tandem mass spectrometry combined with high-performance liquid chromatography (LC/MS/MS). This substance was not found in adults after the fifth stage. Other possible molting hormone candidates such as makisterone A (MaA) and ponasterone A (PoA), both of which are reported to be the molting hormones of a few arthropod species, were not detected in this scorpion. The ligand-receptor binding of 20E and its analogs was quantitatively evaluated against the in vitro-translated molting hormone receptor, the heterodimer of ecdysone receptor (EcR) and the retinoid X receptor (RXR) of L. australasiae (LaEcR/LaRXR). The concentrations of ecdysone (E), MaA, 20E, and PoA that are required to inhibit 50% of [(3)H]PoA binding to the LaEcR/LaRXR complex were determined to be 1.9, 0.69, 0.05, and 0.017 μM, respectively. The activity profiles of these 4 ecdysteroids are consistent with those obtained for the molting hormone receptors of several insects. The binding of a non-steroidal E agonist, tebufenozide, to EcR was not observed even at high concentrations, indicating that the structure of the ligand-binding pocket of LaEcR is not favorable for interaction with tebufenozide.     

Isolation of a cDNA for an octopamine-like, G-protein coupled receptor from the cattle tick, Boophilus microplus.

Octopamine is a biogenic amine neurotransmitter of invertebrates that binds to a G-protein coupled receptor that has seven transmembrane domains. Formamidine pesticides like amitraz are highly specific agonists of the octopamine receptor. Amitraz is used extensively to control the cattle tick, Boophilus microplus, and many other ticks but now there are strains of ticks that are resistant to amitraz. We have isolated a cDNA from the cattle tick, B. microplus, that belongs to the biogenic amine family of receptors. The predicted amino acid sequence from this cDNA is most similar to octopamine receptors from insects. The nucleotide sequence of this gene from amitraz-resistant and amitraz-susceptible cattle ticks was identical. Thus, a point mutation/s did not confer resistance to amitraz in the strains we studied. Alternative explanations for resistance to amitraz in B. microplus are discussed.     

Four serine proteinase inhibitors (serpin) from the brown ear tick,Rhiphicephalus appendiculatus; cDNA cloning and preliminary characterization

While development of an anti-Boophilus microplus vaccine is advanced and practical, work on other economically important ticks such as Rhipicephalus appendiculatus is still in its infancy. Guess PCR primers, designed from a consensus amino acid sequence (NAVYKFG) motif were used with rapid amplification of cDNA ends (RACE) to clone four cDNAs encoding serine proteinase inhibitors (serpin) from the brown ear tick Rhipicephalus appendiculatus. The four genes designated as R. appendiculatus serpin (RAS) -1 to -4 encode polypeptides of 378, 380, 398 and 486 amino acids long, respectively. Sequence comparison of RAS-1 to -4 predicted amino acid sequences to the serpin-like hypothetical protein from Ixodes ricinus (Leboulle et al., 2002) revealed closer structural similarities among tick serpins. Expression analysis by RT-PCR showed that RAS-1 to -4 are expressed in other tick organs in addition to salivary glands and midguts. Except for RAS-3 whose expression level appears to be equivalent in all tick organs, RAS-1, -2 and -4 are predominantly expressed in the salivary glands. We have discussed our findings with reference to development of vaccines against R. appendiculatus.     

A novel nuclear receptor superfamily member in Xenopus that associates with RXR, and shares extensive sequence similarity to the mammalian vitamin D3 receptor.

We report the isolation of xONR1, a novel member of the nuclear receptor superfamily from Xenopus laevis. xONR1 shares a high degree of amino acid sequence identity with the mammalian receptor for 1 alpha, 25-dihydroxy vitamin D3, particularly within the DNA-binding domain, although it does not bind this ligand. xONR1 DNA binding is stimulated by association with retinoid X receptor gamma (RXR gamma).     

Cloning and sequencing of putative calreticulin complementary DNAs from four hard tick species

Calreticulin (CRT) is a calcium-binding protein and has many functions in eukaryotic cells. CRT is possibly involved in parasite host immune system evasion. To better understand the molecular basis of CRT in ticks, we cloned and sequenced 4 full-length complementary DNAs (cDNAs) from the hard tick species, Dermacentor variabilis, Haemaphysalis longicornis, Ixodes scapularis, and Rhipicephalus sanguineus, using the technique of rapid amplification of cDNA ends. The deduced amino acid sequences share high identities (between 77 and 98%) with 3 known tick CRT sequences. The major characteristics of known CRTs are observed in all 4 of our deduced tick CRTs. These include 3 major domains, a signal peptide sequence at the beginning of the coding region, 2 triplets of conserved regions, cysteine sites providing disulfide bridges for N-terminal folding, and a nuclear localization signal. Remarkably, the replacement of the endoplasmic reticulum retention signal KDEL by HEEL, which is believed to be associated with secretion of CRT into the host during feeding and was previously recorded only in 2 ticks and a hookworm, is also present in all 4 of our tick putative CRTs. In addition, the CRT gene is potentially useful for tick phylogenetic reconstruction.     

Detection of phytoecdysteroids by gustatory sensilla on chelicerae of the brown dog tick Rhipicephalus sanguineus

Ecdysteroids are polyhydroxylated steroids that act as moulting hormones in arthropods and regulate several important life‐cycle processes. Phytoecdysteroids are ecdysteroid analogues produced by some plants that disrupt the growth and development of insects feeding on them, and can be perceived by the taste receptors of insects. The present study tested the hypothesis that the blood‐feeding tick Rhipicephalus sanguineus (Latreille, 1806) (Acari: Ixodidae) is capable of detecting phytoecdysteroids. By recording from the chelicerae, six phytoecdysteroids are tested: α‐ecdysone, 20‐hydroxyecdysone, ponasterone A, makisterone A, inokosterone and pterosterone. In unfed ticks, makisterone A and pterosterone elicit frequencies of neural impulses higher than in a negative control (a KCl solution at 10^?3m ), with detection thresholds of 10^?6m and 10^?12m , respectively. The spike amplitudes of the responses to these compounds, and also for 20‐hydroxyecdysone and ponasterone A, are higher than in the control, indicating that a different neurone may be involved: perhaps a deterrent cell, as observed in insects. In fed ticks, only pterosterone at 10^?4m remains active. In behavioural attachment assays, no difference is observed between electrophysiologically active compounds and the negative control. These results show the capability of R. sanguineus ticks to detect phytoecdysteroids, although they do not clarify the role of ecdysteroids in tick biology, for which further studies are required.     

Profile of the ecdysteroid hormone and its receptor in the salivary gland of the adult female tick, Amblyomma hebraeum

We examined the hemolymph ecdysteroid titer (by radioimmunoassay) and profile of the ecdysteroid receptor (EcR/USP; by [3H]ponasterone A binding, gel mobility shift assay, Western blot) in the salivary gland of the ixodid tick, Amblyomma hebraeum Koch (Acari: Ixodidae) throughout the tick feeding period and first 6 days post-engorgement. Throughout the slow phase of feeding, the hemolymph ecdysteroid titer was approximately 18 pg/microliter. The titer peaked at approximately 52 pg/microliter during the rapid phase of feeding, falling back to approximately 22 pg/microliter on the day of engorgement. Ecdysteroid titer rose again to approximately 750 pg/microliter by day 6 post-engorgement. EcR was undetectable by any of the three assays in unfed ticks. Following the onset of feeding, there appeared both specific ponasterone A binding and two major EcR bands detected by Western blot analysis. Both measurements were sustained throughout the feeding period, but declined after detachment when the salivary glands were degenerating. After ticks reached about 100 mg (by which time most females are mated), a discrete DNA-binding band was shown by gel mobility shift assay using Drosophila hsp27 EcRE as a probe. Moreover, the band intensified when hemolymph ecdysteroid titer reached its peak during the rapid phase of feeding; it declined along with decreasing EcR/USP levels, and with specific ligand binding activity following engorgement. This study suggests a role for the small hemolymph ecdysteroid peak during the rapid phase of feeding in initiating salivary gland degeneration.     

Drosophila ultraspiracle modulates ecdysone receptor function via heterodimer formation.

The vertebrate retinoid X receptor (RXR) has been implicated in the regulation of multiple hormonal signaling pathways through the formation of heteromeric receptor complexes that bind DNA with high affinity. We now demonstrate that ultraspiracle (usp), a Drosophila RXR homolog, can substitute for RXR in stimulating the DNA binding of receptors for retinoic acid, T3, vitamin D, and peroxisome proliferator activators. These observations led to the search and ultimate identification of the ecdysone receptor (EcR) as a Drosophila partner of usp. Together, usp and EcR bind DNA in a highly cooperative fashion. Cotransfection of both EcR and usp expression vectors is required to render cultured mammalian cells ecdysone responsive. These results implicate usp as an integral component of the functional EcR. By demonstrating that receptor heterodimer formation precedes the divergence of vertebrate and invertebrate lineages, these data underscore a central role for RXR and its homolog usp in the evolution and control of the nuclear receptor-based endocrine system.     

Improvement of ecdysone receptor gene switch for applications in plants: Locusta migratoria retinoid X receptor (LmRXR) mutagenesis and optimization of translation start site

Gene switches have potential applications for the regulation of transgene expression in plants and animals. Recently, we have developed a two-hybrid ecdysone receptor (EcR) gene switch using chimera 9 [CH9, a chimera between helices 1-8 of Homo sapiens retinoid X receptor (HsRXR) and helices 9-12 of Locusta migratoria RXR (LmRXR)] as a partner for Choristoneura fumiferana EcR (CfEcR). As CH9 includes a region of human RXR, public acceptance of this gene switch for use in genetically modified crops may be an issue. The current studies were conducted to identify an LmRXR mutant that could replace CH9 as a partner for CfEcR. The amino acid identity between LmRXR and HsRXR is fairly high. However, there are a few amino acid residues that are different between these two proteins. LmRXR mutants were produced by changing the amino acids in the helices 1-8 that are different between LmRXR and HsRXR to HsRXR residues. Screening of these mutants in tobacco protoplasts identified a triple mutant, A62S:T81H:V123I (SHILmRXR), that performed as well as CH9. The performance of the EcR gene switch was further improved by optimizing the translational start site (Kozak sequence, AACAATGG) of the transgene. The EcR gene switch containing SHILmRXR and the modified translation start site supported very low background activity in the absence of a ligand and a higher induced activity in the presence of a ligand in tobacco protoplasts, as well as Arabidopsis thaliana transgenic plants. At 16-80 nm methoxyfenozide, the induction of luciferase activity was better than that observed with the CfEcR:CH9 switch.     

Disrupting the Amblyomma americanum (L.) CD147 receptor homolog prevents ticks from feeding to repletion and blocks spontaneous detachment of ticks from their host

The CD147 receptor is a cell-surface glycoprotein in the IgG family that plays pivotal roles in intercellular interactions involved with numerous physiological and pathological processes such as extracellular matrix remodeling. We previously found an Amblyomma americanum (Aam) tick CD147 receptor homolog among genes that were up regulated in response to tick feeding stimuli. This study characterizes an AamCD147 receptor protein that is 72–83% conserved in other tick species and possess characteristic CD147 receptor sequence features: an extracellular (EC) region containing two IgG domains, a transmembrane and the cytoplasmic domains. Likewise, the AamCD147 EC domain folds into secondary structures that are consistent to the human homolog: an amino-terminus β-barrel that is linked to 2-carboxy-terminus β-sheets with consensus disulfide bonds conserved in each of the 2 domains. CD147 receptor signaling and regulatory mechanisms are putatively conserved in ticks as revealed by in silico analysis that show presence in the tick genome of CD147 receptor signaling protein homologs, cyclophilin (CyP) A and B, and chaperones that transport it to the plasma membrane, caveolin-1 and CyP60. The AamCD147 receptor has a dichotomous expression pattern of where it is up regulated in response to feeding in the salivary gland but remains constant at the midgut and ovary levels suggesting that it may regulate different functions in different tick organs. We speculate that biological functions of the AamCD147 receptor are essential to tick feeding success as revealed by RNAi-mediated silencing that caused ticks to obtain smaller blood meals, of which ～69% were below threshold to trigger spontaneous detachment of ticks from the host. These ticks showed unusual cuticle tenderness and assumed a reddish coloration, a phenomenon that has been attributed to tick midgut damage allowing red blood cells to leak into tick hemolymph. On the basis of the CD147 receptor being linked to tissue growth regulation in mammals, we speculate that silencing of the AamCD147 receptor blocked progression of the tick intermolt growth, a process that precedes tick engorgement and their spontaneous detachment of from the host to end feeding. The results are discussed in context of advances in tick molecular physiology.     

The influence of heterodimer partner ultraspiracle/retinoid X receptor on the function of ecdysone receptor

A pair of nuclear receptors, ecdysone receptor (EcR) and ultraspiracle (USP), heterodimerize and transduce ecdysteroid signals. The EcR and its nonsteroidal ligands are being developed for regulation of transgene expression in humans, animals and plants. In mammalian cells, EcR:USP heterodimers can function in the absence of ligand, but EcR/retinoid X receptor (EcR:RXR) heterodimers require the presence of ligand for activation. The heterodimer partner of EcR can influence ligand sensitivity of EcR so that the EcR/Locusta migratoria RXR (EcR:LmRXR) heterodimers are activated at lower concentrations of ligand when compared with the concentrations of ligand required for the activation of EcR/Homo sapiens RXR (EcR:HsRXR) heterodimers. Analysis of chimeric RXRs containing regions of LmRXR and HsRXR and point mutants of HsRXR showed that the amino acid residues present in helix 9 and in the two loops on either end of helix 9 are responsible for improved activity of LmRXR. The EcR:Lm-HsRXR chimera heterodimer induced reporter genes with nanomolar concentration of ligand compared with the micromolar concentration of ligand required for activating the EcR:HsRXR heterodimer. The EcR:Lm-HsRXR chimera heterodimer, but not the EcR:HsRXR heterodimer, supported ligand-dependent induction of reporter gene in a C57BL/6 mouse model.