Differential DNA methylation profiles of peripheral blood mononuclear cells in allergic asthmatic children following dust mite immunotherapy.

BACKGROUND/PURPOSE: Allergen-specific immunotherapy (SIT) is now considered curative to allergic diseases such as asthma. Mechanistically, our previous work showed DNA hypermethylation of cytokine genes, in T-helper cells, in allergic asthmatic children treated with allergen-SIT. In this study, we extended to work to assess possible changes in the DNA methylomes of peripheral blood mononuclear cells (PBMCs), isolated from mite allergen-SIT asthmatic children, to explore further the underlying methylation changes. METHODS: Thirteen allergic asthmatic children who received Der p-SIT, 12 non-SIT allergic asthmatic controls, and 12 healthy controls were enrolled. Bisulfite-converted DNA from Der p-stimulated PBMCs was analyzed using Human Methylation 450 k BeadChip. Pyrosequencing and quantitative real-time PCR were used to validate the DNA methylation levels and the gene expression of individual samples. RESULTS: We identified 108 significantly differentially methylated regions (DMRs) unique to Der p-treated PBMCs, with 53 probes linked to demethylated DMRs, and 55 probes linked to methylated DMRs. Three associated genes (BCL6, HSPG2, and HSP90AA1), of selected DMRs, were subjected to bisulfite pyrosequencing. Of these, BCL6 showed significant hypomethylation, while HSPG2 and HSP90AA1 were hypermethylated in SIT group, compared to the AA group. Furthermore, SIT group had significantly higher gene expression of BCL6 and lower gene expression of HSPG2. KEGG pathway analysis further revealed DMR genes involved in ECM-receptor interactions, asthma, and antigen processing and presentation pathways. CONCLUSIONS: Several DNA regions showed DNA methylation altered by Der p specific immunotherapy, indicating desensitization-associated methylomes. Genes belonging to these SIT-altered pathways may represent therapeutic targets for better clinical management of asthma.

Modulation of stress and immune response by Amblyomin-X results in tumor cell death in a horse melanoma model.

We have investigated Amblyomin-X-treated horse melanomas to better understand its mode of action through transcriptome analysis and the in vivo model. Amblyomin-X is a Kunitz-type homologous protein that selectively leads to the death of tumor cells via ER stress and apoptosis, currently under investigation as a new drug candidate for cancer treatment. Melanomas are immunogenic tumors, and a better understanding of the immune responses is warranted. Equine melanomas are spontaneous and not so aggressive as human melanomas are, as this study shows that the in vivo treatment of encapsulated horse melanoma tumors led to a significant reduction in the tumor size or even the complete disappearance of the tumor mass through intratumoral injections of Amblyomin-X. Transcriptome analysis identified ER- and mitochondria-stress, modulation of the innate immune system, apoptosis, and possibly immunogenic cell death activation. Interactome analysis showed that Amblyomin-X potentially interacts with key elements found in transcriptomics. Taken together, Amblyomin-X modulated the tumor immune microenvironment in different ways, at least contributing to induce tumor cell death.

Venoms of Iranian Scorpions (Arachnida, Scorpiones) and Their Potential for Drug Discovery.

Scorpions, a characteristic group of arthropods, are among the earliest diverging arachnids, dating back almost 440 million years. One of the many interesting aspects of scorpions is that they have venom arsenals for capturing prey and defending against predators, which may play a critical role in their evolutionary success. Unfortunately, however, scorpion envenomation represents a serious health problem in several countries, including Iran. Iran is acknowledged as an area with a high richness of scorpion species and families. The diversity of the scorpion fauna in Iran is the subject of this review, in which we report a total of 78 species and subspecies in 19 genera and four families. We also list some of the toxins or genes studied from five species, including Androctonus crassicauda, Hottentotta zagrosensis, Mesobuthus phillipsi, Odontobuthus doriae, and Hemiscorpius lepturus, in the Buthidae and Hemiscorpiidae families. Lastly, we review the diverse functions of typical toxins from the Iranian scorpion species, including their medical applications.

TsNTxP, a non-toxic protein from Tityus serrulatus scorpion venom, induces antinociceptive effects by suppressing glutamate release in mice.

Neuropathic pain is a common type of chronic pain caused by trauma or chemotherapy. However, this type of pain is undertreated. TsNTxP is a non-toxic protein isolated from the venom of the scorpion Tityus serrulatus, and it is structurally similar to neurotoxins that interact with voltage-gated sodium channels. However, the antinociceptive properties of this protein have not been characterized. The purpose of this study was to investigate the antinociceptive effects of TsNTxP in acute and neuropathic pain models. Male and female Swiss mice (25-30 g) were exposed to different models of acute pain (tail-flick test and nociception caused by capsaicin intraplantar injection) or neuropathic pain (chronic pain syndrome induced by paclitaxel or chronic constriction injury of the sciatic nerve). Hypersensitivity to mechanical or cold stimuli were evaluated in the models of neuropathic pain. The ability of TsNTxP to alter the release of glutamate in mouse spinal cord synaptosomes was also evaluated. The results showed that TsNTxP exerted antinociceptive effects in the tail-flick test to a thermal stimulus and in the intraplantar capsaicin administration model. Furthermore, TsNTxP was non-toxic and exerted antiallodynic effects in neuropathic pain models induced by chronic constriction injury of the sciatic nerve and administration of paclitaxel. TsNTxP reduced glutamate release from mouse spinal cord synaptosomes following stimulation with potassium chloride (KCl) or capsaicin. Thus, this T. serrulatus protein may be a promising non-toxic drug for the treatment of neuropathic pain.

Anti-tumoral effect of scorpion peptides: Emerging new cellular targets and signaling pathways.

Scorpion toxins have been the subject of many studies exploring their pharmacological potential. The high affinity and the overall selectivity to various types of ionic channels endowed scorpion toxins with a potential therapeutic effect against many channelopathies. These are diseases in which ionic channels play an important role in their development. Cancer is considered as a channelopathy since overexpression of some ionic channels was highlighted in many tumor cells and was linked to the pathology progression. Interestingly, an increasing number of studies have shown that scorpion venoms and toxins can decrease cancer growth in vitro and in vivo. Furthermore through their ability to penetrate the cell plasma membrane, certain scorpion toxins are able to enhance the efficiency of some clinical chemotherapies. These observations back-up the applicability of scorpion toxins as potential cancer therapeutics. In this review, we focused on the anti-cancer activity of scorpion toxins and their effect on the multiple hallmarks of cancer. We also shed light on effectors and receptors involved in signaling pathways in response to scorpion toxins effect. Until now, the anticancer mechanisms described for scorpion peptides consist on targeting ion channels to (i) inhibit cell proliferation and metastasis; and (ii) induce cell cycle arrest and/or apoptosis through membrane depolarization leading to hemostasis deregulation and caspase activation. Putative targets such as metalloproteinases, integrins and/or growth factor receptors, beside ion channels, have been unveiled to be affected by scorpion peptides.

The Biological and Biophysical Properties of the Spider Peptide Gomesin.

This review summarises the current knowledge of Gomesin (Gm), an 18-residue long, cationic anti-microbial peptide originally isolated from the haemocytes of the Brazilian tarantula Acanthoscurria gomesiana. The peptide shows potent cytotoxic activity against clinically relevant microbes including Gram-positive and Gram-negative bacteria, fungi, and parasites. In addition, Gm shows in-vitro and in-vivo anti-cancer activities against several human and murine cancers. The peptide exerts its cytotoxic activity by permeabilising cell membranes, but the underlying molecular mechanism of action is still unclear. Due to its potential as a therapeutic agent, the structure and membrane-binding properties, as well as the leakage and cytotoxic activities of Gm have been studied using a range of techniques. This review provides a summary of these studies, with a particular focus on biophysical characterisation studies of peptide variants that have attempted to establish a structure-activity relationship. Future studies are still needed to rationalise the binding affinity and cell-type-specific selectivity of Gm and its variants, while more pre-clinical studies are required to develop Gm into a therapeutically useful peptide.

A mutant of the Buthus martensii Karsch antitumor-analgesic peptide exhibits reduced inhibition to hNav1.4 and hNav1.5 channels while retaining analgesic activity.

Scorpion toxins can kill other animals by inducing paralysis and arrhythmia, which limits the potential applications of these agents in the clinical management of diseases. Antitumor-analgesic peptide (AGAP), purified from Buthus martensii Karsch, has been proved to possess analgesic and antitumor activities. Trp38, a conserved aromatic residue of AGAP, might play an important role in mediating AGAP activities according to the sequence and homology-modeling analyses. Therefore, an AGAP mutant, W38G, was generated, and effects of both AGAP and the mutant W38G were examined by whole-cell patch clamp techniques on the sodium channels hNav1.4 and hNav1.5, which were closely associated with the biotoxicity of skeletal and cardiac muscles, respectively. The data showed that both W38G and AGAP inhibited the peak currents of hNav1.4 and hNav1.5; however, W38G induced a much weaker inhibition of both channels than AGAP. Accordingly, W38G exhibited much less toxic effect on both skeletal and cardiac muscles than AGAP in vivo The analgesic activity of W38G and AGAP were verified in vivo as well, and W38G retained analgesic activity similar to AGAP. Inhibition to both Nav1.7 and Nav1.8 was involved in the analgesic mechanism of AGAP and W38G. These findings indicated that Trp38 was a key amino acid involved in the biotoxicity of AGAP, and the AGAP mutant W38G might be a safer alternative for clinical application because it retains the analgesic efficacy with less toxicity to skeletal and cardiac muscles.

A pilot study of the effect of pullulan-conjugated Der f 2 allergen-specific immunotherapy on canine atopic dermatitis.

BACKGROUND: Dermatophagoides farinae is a major and common environmental house dust mite involved in canine atopic dermatitis (CAD). A formulation of recombinant protein Der f 2 is available in Japan for immunotherapy in dogs. HYPOTHESIS/OBJECTIVES: To evaluate the efficacy of a recombinant allergen based on Der f 2-pullulan for the treatment of cAD. METHODS: Dogs (n = 15) with atopic dermatitis were administered Der f 2 conjugated with pullulan (-P). Two dogs were eliminated because of death unrelated to the treatment during the study. The remaining 13 cases were included in the analysis. Clinical signs were evaluated with the Canine Atopic Dermatitis Lesion Index (CADLI) and pruritus levels were evaluated from 0 to 10 with a pruritus Visual Analog Scale (PVAS). RESULTS: The mean ± standard deviation (SD) of CADLI [before allergen-specific immunotherapy (pre-ASIT) 21.9 ± 9.7; 60 days post-ASIT 9.8 ± 8.4 and 120 days post-ASIT 9.7 ± 8.2] and the mean ± SD of PVAS [pre-ASIT 7.2 ± 1.2; post-ASIT (60 days) 2.6 ± 2.2 and post-ASIT (120 days) 3.1 ± 2.5] significantly decreased after treatment (Dunnett's test, P < 0.05). Furthermore, the total doses of oral glucocorticoids in the two months pre-ASIT significantly decreased in comparison with two months post-ASIT (123 ± 72.6 mg vs. 70.0 ± 84.3 mg; Dunnett's test, P < 0.05). CONCLUSIONS AND CLINICAL IMPORTANCE: The results indicate the effectiveness of Der f 2-P recombinant protein in the treatment of dogs with CAD and testing positive to D. farinae.

Allergens of Blomia tropicalis: An Overview of Recombinant Molecules.

Allergic diseases are considered a major problem for healthcare systems in both developed and developing countries. House dust mites are well-known triggers of allergic manifestations. While the Dermatophagoides genus is widely distributed globally, Blomia tropicalis is the most prominent mite species in the tropical and subtropical regions of the world. Over the last decades, an increase in sensitization rates to B. tropicalis has been reported, leading to increased research efforts on Blomia allergens. In fact, 8 new allergens have been identified and characterized to different degrees. Here, we provide an overview of recent developments concerning the identification and production of recombinant Blomia allergens, as well as their structural and immunological characterization. Although considerable progress has been achieved, detailed molecule-based studies are still needed to better define the clinical relevance of Blomia allergens. Thus, the establishment of a well-standardized and fully characterized panel of allergens remains a challenge for the development of better diagnosis and therapy of allergic diseases induced by B. tropicalis.

Joannsin, a novel Kunitz-type FXa inhibitor from the venom of Prospirobolus joannsi.

The repugnatorial glands of millipedes release various defensive chemical secretions. Although varieties of such defensive secretions have been studied, none of them is protein or peptide. Herein, a novel factor Xa (FXa) inhibitor named joannsin was identified and characterised from repugnatorial glands of Prospirobolus joannsi. Joannsin is composed of 72 amino acid residues including six cysteines, which form three intra-molecular disulfide bridges. It is a member of Kunitz-type protease inhibitor family, members of which are also found in the secretory glands of other arthropods. Recombinant joannsin exhibited remarkable inhibitory activity against trypsin and FXa with a Ki of 182.7 ± 14.6 and 29.5 ± 4.7 nM, respectively. Joannsin showed strong anti-thrombosis functions in vitro and in vivo. Joannsin is the first peptide component in millipede repugnatorial glands to be identified and is a potential candidate and/or template for the development of anti-thrombotic agents. These results also indicated that there is Kunitz-type protease inhibitor toxin in millipede repugnatorial glands as in other arthropods secretory glands.

δ-Ctenitoxin-Pn1a, a Peptide from Phoneutria nigriventer Spider Venom, Shows Antinociceptive Effect Involving Opioid and Cannabinoid Systems, in Rats.

PnTx4(6-1), henceforth renamed δ-Ctenitoxin-Pn1a (δ-CNTX-Pn1a), a peptide from Phoneutria nigriventer spider venom, initially described as an insect toxin, binds to site 3 of sodium channels in nerve cord synaptosomes and slows down sodium current inactivation in isolated axons in cockroaches (Periplaneta americana). δ-CNTX-Pn1a does not cause any apparent toxicity to mice, when intracerebroventricularly injected (30 µg). In this study, we evaluated the antinociceptive effect of δ-CNTX-Pn1a in three animal pain models and investigated its mechanism of action in acute pain. In the inflammatory pain model, induced by carrageenan, δ-CNTX-Pn1a restored the nociceptive threshold of rats, when intraplantarly injected, 2 h and 30 min after carrageenan administration. Concerning the neuropathic pain model, δ-CNTX-Pn1a, when intrathecally administered, reversed the hyperalgesia evoked by sciatic nerve constriction. In the acute pain model, induced by prostaglandin E2, intrathecal administration of δ-CNTX-Pn1a caused a dose-dependent antinociceptive effect. Using antagonists of the receptors, we showed that the antinociceptive effect of δ-CNTX-Pn1a involves both the cannabinoid system, through CB1 receptors, and the opioid system, through µ and δ receptors. Our data show, for the first time, that δ-Ctenitoxin-Pn1a is able to induce antinociception in inflammatory, neuropathic and acute pain models.

Ixodes scapularis dystroglycan-like protein promotes Borrelia burgdorferi migration from the gut.

The causative agent of Lyme borreliosis, Borrelia burgdorferi, is transmitted by Ixodes ticks. During tick feeding, B. burgdorferi migrates from the tick gut to the salivary glands from where transmission to the host occurs. B. burgdorferi-interacting tick proteins might serve as vaccine targets to thwart B. burgdorferi transmission. A previous screening for B. burgdorferi-interacting Ixodes scapularis gut proteins identified an I. scapularis putative dystroglycan protein (ISCW015049). Here, we describe the ISCW015049's protein structure and its cellular location in the tick gut in relation to B. burgdorferi migration. Secondly, in vivo B. burgdorferi-tick attachment murine models were performed to study the role of ISCW015049 during B. burgdorferi migration and transmission. In silico analysis confirmed that ISCW015049 is similar to dystroglycan and was named I. scapularis dystroglycan-like protein (ISDLP). Confocal microscopy of gut tissue showed that ISDLP is expressed on the surface of gut cells, is upregulated during tick feeding, and is expressed significantly higher in infected ticks compared to uninfected ticks. Inhibition of ISDLP by RNA interference (RNAi) resulted in lower B. burgdorferi transmission to mice. In conclusion, we have identified a dystroglycan-like protein in I. scapularis gut that can bind to B. burgdorferi and promotes B. burgdorferi migration from the tick gut. Key messages: B. burgdorferi exploits tick proteins to orchestrate its transmission to the host. B. burgdorferi is able bind to an I. scapularis dystroglycan-like protein (ISDLP). Inhibition of ISDLP in ticks results in lower B. burgdorferi transmission to mice. ISDLP is a potential target to prevent Lyme borreliosis.

Neutralizing effect of hemolymph from the shore crab, Thalamita crenata, on paralytic shellfish toxins.

Several species of crabs are resistant to paralytic shellfish toxins (PSTs) and/or pufferfish toxin, tetrodotoxin, regardless of toxification by the toxins. The shore crab Thalamita crenata, which inhabits Leizhou Peninsula, China, is tolerant to PST toxicity, and the hemolymph has neutralizing effects against the lethal activity of PST. In the present study, we investigated the PST neutralizing factors in the hemolymph from T. crenata and successfully separated PST-binding proteins by PST-ligand affinity chromatography. The neutralization factors, obtained in the fraction with a molecular weight over 10 kDa by ultrafiltration, were susceptible to proteases such as alcalase, animal complex proteases, pancreatin, and papain. The PST-binding protein had high dose-dependent neutralization effects on PST toxicity. The PST-binding activity of the protein was stable at 25 °C and then decreased with an increase in temperature; heating at 65 °C for 60 min eliminated the initial activity by two-thirds. The PST-binding activity was strongly inhibited in the presence of Mg(2+) and Ca(2+), but not Na(+) and K(+). The PST-binding capability of the protein differed among PST components in descending order of neosaxitoxin, gonyautoxins 1 and 4, saxitoxin, and gonyautoxins 2 and 3, suggesting a structure-activity relationship in PST binding.

Clinical and cytokine responses to house dust mite sublingual immunotherapy.

BACKGROUND: Cytokine responses accompanying sublingual immunotherapy (SLIT) responder phenotypes have not previously been reported. OBJECTIVE: To investigate clinical and cytokine responses of house dust mite (HDM) sensitive patients with allergic rhinitis receiving HDM SLIT or placebo for 2 years. METHODS: Sixty adults were randomized to receive SLIT or placebo. Clinical symptoms were measured using the Total 5 Symptom Score (TSS5) and Juniper Rhinitis Quality of Life Questionnaire. HDM specific IgE, IgG, skin prick tests, and HDM-stimulated release of interleukin (IL) 5 and interferon γ (IFN-γ) in peripheral blood mononuclear cells was studied at 0, 6, 12, and 24 months and IL-13, IL-4, and IL-10 at 0 and 24 months. RESULTS: A total of 32 of 39 SLIT and 16 of 21 placebo patients completed the study. There was significant clinical improvement in both the SLIT and placebo groups. Median T5SS decreased from 14.75 to 5.25 in the SLIT group (P < .001) and 12.7 to 6.0 in the placebo group (P = .003). The median quality-of-life score also decreased in the SLIT group (P < .001) and the placebo group (P < .001). A subgroup analysis of patients found a 60% or greater improvement (on the T5SS and the Juniper Rhinitis Quality of Life Questionnaire) in the good responders group and a 30% to 59% improvement or no improvement in the intermediate responders group. This subgroup analysis also found more good responders in the SLIT group (47%) compared with the placebo group (25%; P = .07). Significant decreases in the IL-5/IFN-γ (P < .001), IL-13/IFN-γ (P < .001), and IL-4/IFN-γ (P = .03) ratios were found in the combined good clinical improvement group at 24 months. CONCLUSION: A good clinical response (≥60% improvement in both TSS5 and quality of life) is associated with significant decreases in IL-5, IL-13, and IL-4 relative to IFN-γ during 2 years of SLIT therapy for HDMs.

[Experimental study on the Der f 1 mRNA molecules derived from dermatophagoides farinae for specific immunotherapy on murine model of asthma].

OBJECTIVE: To investigate the effect of Der f 1 mRNA molecules for specific immunotherapy on murine model of asthma. METHODS: Fifty BALB/c mice were randomly divided into 5 groups: PBS group, Der f 1 sensitization group, Der f 1 specific immunotherapy (SIT) group, beta-actin mRNA SIT group, and Derf 1 mRNA SIT group. On days 0, 7 and 14, mice in PBS group received PBS injection; mice in the other groups were intraperitoneally injected with 10 microg Derf 1. At day 21, the mice in the 4 experimental groups were challenged with a 30-min inhaled dose of Der f 1 (100 microg/ml) for 7 successive days. Two weeks after the final sensitization, the mice in the above five groups were im- munized by intradermal injection with PBS, 1 microg Der f 1, 10 microg Der f 1, 2 microg beta-actin mRNA, and 2 microg Der f 1 mRNA, respectively for 3 times at one-week intervals. Two weeks after the last intradermal injection, all mice were sacrificed and bronchoalveolar lavage fluid (BALF) was collected. ELISA was performed to detect the levels of IFN-gamma and IL-13 in BALF, the number of eosinophils in the BALF was recorded. Splenocytes were prepared, and cultured with Der f 1 al- lergen (10 Jg/ml) for 72 h. Splenocytes of PBS group was cultured without Derf 1 allergen. The levels of IFN-gamma and IL-13 in splenocyte culture supernatant were measured by ELISA, as well as serum antibody levels of total IgE, allergen- specific IgE (sIgE), sIgG1, and sIgG2a. Lung sections were stained in hematoxylin and eosin, and observed under the microsope. RESULTS: Except for PBS group, mice in the other 4 group showed symptoms of acute asthma attack. Com- pared with Derf 1 sensitization group [(897.56 +/- 105.73) pg/ml] and beta-actin mRNA SIT group [(219.47 +/- 64.72) pg/ml], the level of IFN-gamma in BALF from Der f 1 mRNA SIT group [(897.56 +/- 105.73) pg/ml] and Derfl SIT group [(864.48 +/- 70.62)pg/ml] significantly increased (P<0.01). However, the level of IL-13 in BALF from Derf 1 mRNA SIT group [(241.64 +/- 31.41) pg/ml] and Derf 1 SIT group [(321.94 +/- 41.07)pg/ml] was significantly lower than that of Der f 1 sensitization group [(520.62 +/- 43.77) pg/ml] and beta-actin mRNA SIT group [(507.22 +/- 42.26) pg/ml](P<0.01). The number of eosinophils in Der f 1 mRNA SIT group [(1.33 +/- 0.44) x 10(5)/ml] and Der f 1 SIT group [(1.48 +/- 0.39) x 10(5)/ml] was also lower than that of Der f 1 sensitization group [(3.54 +/- 0.52)x10(5)/ml] and beta-actin mRNA SIT group [(2.98-0.53) x 10(5)/ml] (P<0.01). The levels of IFN-GAMMA and IL-13 in splenocyte culture supernatant showed that IFN-gamma level in Der f 1 mRNA SIT group [(420.91+69.92) pg/ml] and Der f 1 SIT group [(334.92 +/- 43.72) pg/ml] was significantly higher than that of Der f 1 sensitization group[(123.75 +/- 5.48) pg/ml] and beta-actin mRNA SIT group[(128.84 +/- 59.00) pg/ml] (P<0.01). However, IL-13 level of Der f 1 mRNA SIT group [(268.51 +/- 40.42) pg/ml] and Der f 1 SIT group [(285.26 +/- 62.21) pg/ml] was significantly lower than that of Derf 1 sensitization group [(613.89 +/- 51.54) pg/ml] and beta-actin mRNA SIT group [(524.05 +/- 39.12) pg/ml] (P<0.01). Compared with Der f 1 sensitization group [total IgE: (94.34 +/- 11.66) ng/ml, sIgE: (65.67 +/- 9.47) ng/ml, sIgG1: (75.18 +/- 9.52) ng/ml, sIgG2a: (2.81 +/- 1.17) ng/ml] and beta-actin mRNA SIT group[total IgE: (86.48 +/- 10.26) ng/ml, sIgE: (62.36 +/- 8.35) ng/ml, sIgG1: (69.51 +/- 8.98) ng/ml, IgG2a: (1.06 +/- 0.11) ng/ml], the serum antibody levels of total IgE [(33.72 +/- 9.78) ng/ml], sIgE [(22.76 +/- 8.09) ng/ml], sIgG1 [(17.87 +/- 7.59) ng/ml] of Der f 1 mRNA SIT group decreased significantly (P<0.01), whereas the level of IgG% [(7.74 +/- 0.88) ng/ml] increased (P<0.01). Compared with Der f 1 sensitization group, the asthmatic symptoms were relieved after immunization with Der f 1 mRNA for specific immunotherapy, including intact structure of respiratory and alveolar epithelial cells, decreased inflammatory cell infiltration, and similar to those in Der f 1 SIT group. However, the breakage and detachment of bronchial epithelial cells occurred in beta-actin mRNA SIT group. CONCLUSION: Derf 1 mRNA vaccine can correct Th1 and Th2 imbalance.

Design of a ProDer f 1 vaccine delivered by the MHC class II pathway of antigen presentation and analysis of the effectiveness for specific immunotherapy.

Dermatophagoides farinae (Der f 1) is one of leading cause for allergic asthma, and allergen-specific immunotherapy (SIT) is currently recognized as the only etiological therapy to ameliorate asthmatic symptom. The current study was designed on the major histocompatibility complex (MHC) class II pathway, invariant chain (Ii)-segment hybrids as vaccine basis to explore the efficacy of Der f 1 hybrid vaccine by virtue of Ii as carrier in enhancing the protective immune response to asthma. Initially, we engineered a fused molecule, DCP-IhC-ProDer f 1, to deliver ProDer f 1 antigen via specific dendritic cell-targeting peptides to dendritic cells (DCs). Then the DCP-IhC-ProDer f 1 was immunized to the asthmatic models of murine induced by ProDer f 1 allergen. The findings showed that the cytokine repertoire in the murine model was shifted after SIT, including stronger secretion of IFN-γ and IL-10, and a decreased production of IL-4 and IL-17. ELISA determination revealed that the hybrid displayed weak IgE and IgG1 reactivities, and IgG2a levels were elevated. Furthermore, DCP-IhC-ProDer f 1 treatment inhibited inflammatory cell infiltration in the lung tissues. Our results suggest that the DCP-Ihc-ProDer f 1 may be used as a candidate SIT against asthma.

[[Expression of house dust mite allergens Der f1 and Der f2 in Nicotiana benthamiana leaves].

The class E immunoglobulins (IgE) is known to recognize conformational epitopes and therefore the native conformation of recombinant allergens is essential for their using in test-systems. Recombinant Dermatophagoides farinae house dust mite (HDM) allergens Der f1 and Der f2 were expressed in bacteria Escherichia coli and Nicotiana benthamiana plants. It has been shown that IgE in sera from children allergic to HDM recognizes Der f2 expressed both in E. coli and N. benthamiana. Mature form of Der f1 expressed in E. coli does not interact with IgE while the protein purified from N. benthamiana is able to recognize IgE as a native allergen.