流感新型黏膜疫苗的研究

目的评价PorA、PorB和Class4对流感裂解疫苗的免疫增强作用,从中挑选出最有效的流感黏膜佐剂,为发展流感黏膜疫苗提供理论基础。方法流感三价裂解抗原按比例与PorA、PorB和Class4非共价结合,滴鼻免疫Balb／c小鼠3次,采取间接ELISA检测血清特异性IgG抗体及抗体亚型,检测鼻咽、肺、小肠和阴道冲洗液中IgA效价,采用血凝抑制试验检测血清中HAI效价。结果PorB重组蛋白佐剂组较无佐剂的流感裂解抗原组在提高小鼠早期免疫应答的同时诱导较强的系统免疫应答和黏膜免疫应答;PorA组也有黏膜佐剂的功能,但和无佐剂的流感裂解抗原组相比,差异无统计学意义。结论在蛋白体的三分子中,以PorB为佐剂的流感黏膜疫苗不仅提高了抗原的系统免疫应答,而且诱导了较强的小鼠呼吸道、生殖道的局部黏膜免疫应答,为流感黏膜疫苗的研制奠定了理论基础。     

Progress toward the development of a bacterial vaccine vector that induces high-titer long-lived broadly neutralizing antibodies against HIV-1

Conformationally constrained HIV-1 Env and gp120 immunogens induce broadly cross-reactive neutralizing antibodies. Thus, it is now feasible to rationally design an HIV-1 vaccine that affords protection through humoral mechanisms. This paper reviews our progress toward the development of an oral bacterial vaccine vector that is capable of delivering an HIV-1 DNA vaccine to host lymphoid tissues and inducing broadly neutralizing antibodies to HIV-1 in the mucosal and systemic immune compartments.     

肿瘤坏死因子受体超家族成员TROY的研究进展

TROY(TNFRSF expressed on the mouse embryo)是近年新发现的表达于小鼠胚胎的肿瘤坏死因子受体超家族成员.TROY在体内分布广泛,尤其高表达于胚胎和成熟的中枢神经系统.研究表明,TROY能与髓鞘抑制因子Nogo NgR1及脑内神经再生抑制因子(LINGO-1)形成功能受体复合物,参与中枢神经系统轴突生长抑制因子的信号转导;TROY还能诱导细胞副凋亡,促进某些细胞的增殖分化.本文就TROY在上述相关领域的研究进展作一综述.     

Commensal Streptococcus mitis is a unique vector for oral mucosal vaccination

The development of vaccine approaches that induce mucosal and systemic immune responses is critical for the effective prevention of several infections. Here, we report on the use of the abundant human oral commensal bacterium Streptococcus mitis as a delivery vehicle for mucosal immunization. Using homologous recombination we generated a stable rS. mitis expressing a Mycobacterium tuberculosis protein (Ag85b). Oral administration of rS. mitis in gnotobiotic piglets resulted in efficient oral colonization and production of oral and systemic anti-Ag85b specific IgA and IgG antibodies. These results support that the commensal S. mitis is potentially a useful vector for mucosal vaccination.     

Immunological characterization of a 17-kDa antigen from Cryptosporidium parvum recognized early by mucosal IgA antibodies

Cryptosporidium parvum antigens were characterized by immunoblot analysis of sera and intestinal secretions of BALB/c mice orally infected with 10(5) oocysts. A major band at 17 kDa under non-reduced conditions and at 18 kDa under reduced conditions was recognized by anti-C. parvum IgA and IgG in serum and intestinal secretions from day 15 post-infection. This recognition persisted throughout the experiment (day 30). Mouse-serum antibodies raised against the 17-kDa purified antigen (P17) showed no cross-reactivity with other C. parvum antigens. Immunofluorescence study revealed that this antigen is located on the sporozoite. It is suggested that this antigen could be a good candidate for studies of mucosal immune response to C. parvum and for vaccination.     

TWEAK,a member of the TNF superfamily,is a multifunctional cytokine that binds the TweakR/Fn14 receptor

The cytokine tumor necrosis factor-like weak inducer of apoptosis (TWEAK) was initially described as a member of the tumor necrosis factor (TNF) superfamily in 1997. TWEAK is a cell surface-associated type II transmembrane protein, but a smaller, biologically active form can also be shed into the extracellular milieu. There is one receptor currently known to bind TWEAK with physiological affinity, and it is a type I transmembrane protein that is referred to in the literature as either TWEAK receptor (TweakR) or fibroblast growth factor-inducible 14 (Fn14). TweakR/Fn14 is the smallest member of the TNF receptor (TNFR) superfamily described to date, and it appears to signal via recruitment of several different TNFR-associated factors. TWEAK has multiple biological activities, including stimulation of cell growth and angiogenesis, induction of inflammatory cytokines, and under some experimental conditions, stimulation of apoptosis. In this report, we summarize the results from recent studies focused on the TWEAK cytokine. Although these studies have contributed a significant amount of new information, numerous questions still remain regarding the role of TWEAK in both normal physiology and the pathogenesis of human disease.     

TNF-related weak inducer of apoptosis receptor,a TNF receptor superfamily member,activates NF-kappa B through TNF receptor-associated factors

TNF-related weak inducer of apoptosis (TWEAK) is a member of the TNF ligand family that induces angiogenesis in vivo. The TWEAK receptor (TweakR) is a recently identified member of the TNF receptor (TNFR) superfamily and is expressed on smooth muscle cells (SMCs) and endothelial cells (ECs). In this report we identify the TNF receptor-associated factor (TRAF) family of signal transducers as important components of TweakR-mediated NF-kappa B activation. Coimmunoprecipitation experiments suggested potential interactions between the cytoplasmic tail of TweakR with TRAFs 1, 2, 3, and 5. Dominant negative forms of TRAF2 and TRAF5 substantially inhibited TweakR-mediated NF-kappa B activation, suggesting a role of TRAFs in regulating smooth muscle and endothelial cell function. Using alanine-scanning analysis, we defined a TRAF-binding motif, PIEET, in TweakR that mediates TRAF binding and NF-kappa B activation. Furthermore, TweakR mutations within the TRAF-binding motif abolished TweakR-stimulated SMC migration, revealing a role for TRAFs in TweakR-induced activation events.     

Tumor necrosis factor (TNF) receptor superfamily member TACI is a high affinity receptor for TNF family members APRIL and BLyS

An expression cloning approach was employed to identify the receptor for B-lymphocyte stimulator (BLyS) and identified the tumor necrosis factor receptor superfamily member TACI as a BLyS-binding protein. Expression of TACI in HEK293T cells confers on the cells the ability to bind BLyS with subnanomolar affinity. Furthermore, a TACI-Fc fusion protein recognizes both the cleaved, soluble form of BLyS as well as the membrane BLyS present on the cell surface of a recombinant cell line. TACI mRNA is found predominantly in B-cells and correlates with BLyS binding in a panel of B-cell lines. We also demonstrate that TACI interacts with nanomolar affinity with the BLyS-related tumor necrosis factor homologue APRIL for which no clear in vivo role has been described. BLyS and APRIL are capable of signaling through TACI to mediate NF-kappaB responses in HEK293 cells. We conclude that TACI is a receptor for BLyS and APRIL and discuss the implications for B-cell biology.     

Hsp31, a member of the DJ-1 superfamily,is a multitasking stress responder with chaperone activity

Among different types of protein aggregation, amyloids are a biochemically well characterized state of protein aggregation that are associated with a large number of neurodegenerative diseases including Parkinson's disease, Alzheimer and Creutzfeldt-Jakob disease. Yeast, Saccharomyces cerevisiae is an insightful model to understand the underlying mechanism of protein aggregation. Many yeast molecular chaperones can modulate aggregation and misfolding of proteins including α-Syn and the Sup35 prion. Hsp31 is a homodimeric protein structurally similar to human DJ-1, a Parkinson's disease-linked protein, and both are members of the DJ-1/ThiJ/PfpI superfamily. An emerging view is that Hsp31 and its associated superfamily members each have divergent multitasking functions that have the common theme of responding and managing various types of cellular stress. Hsp31 has several biochemical activities including chaperone and detoxifying enzyme activities that modulate at various points of a stress pathway such as toxicity associated with protein misfolding. However, we have shown the protective role of Hsp31's chaperone activity can operate independent of detoxifying enzyme activities in preventing the early stages of protein aggregate formation and associated cellular toxicities. We provide additional data that collectively supports the multiple functional roles that can be accomplished independent of each other. We present data indicating Hsp31 purified from yeast is more active compared to expression and purification from E. coli suggesting that posttranslational modifications could be important for Hsp31 to be fully active. We also compare the similarities and differences in activities among paralogs of Hsp31 supporting a model in which this protein family has overlapping but diverging roles in responding to various sources of cellular stresses.     

HIV-1 Env vaccine comprised of electroporated DNA and protein co-administered with Talabostat

Selection of potent yet low reactogenic adjuvants for protein immunization is important for HIV-1 vaccine development. Immunogenicity of electroporated DNA (HIV env) and recombinant gp120, administered with either QS-21 or the orally administered immunomodulator, Talabostat, was evaluated in BALB/c mice. Electroporation of low dose DNA elicited Th1 cytokines and anti-envelope antibodies. Immunization with gp120 protein alone with or without Talabostat elicited lower Th1 and Th2 cytokine levels but comparable anti-gp120 antibodies to QS-21-formulated protein. Boosting of DNA-primed mice with gp120/Talabostat induced similar anti-gp120 antibody titers and slightly higher levels of Th1 and Th2 cytokines relative to QS-21-formulated protein. Induction of CD8⁺ and CD4⁺ T cells and functional CTL activity was noted. These results highlight the potential use of orally administered Talabostat for efficient protein boosting of antibody and T-cell responses primed by DNA.     

Monophosphoryl lipid A analogues with varying 3-O-substitution: synthesis and potent adjuvant activity

Structurally defined immunostimulatory adjuvants play important roles in the development of new generation vaccines. Here described are the syntheses of three monophosphoryl lipid A analogues (1-3) with different substitution at 3-O-position of the reducing sugar and their potent immunostimulatory adjuvant activity. The syntheses involve the preparation of glycosylation acceptors benzyl 3,4-di-O-benzyl-2-deoxy-2-[(R)-3-tetradecanoyloxytetradecanamido]-beta-D-glucopyranoside (16) and benzyl 3-O-allyl-4-O-benzyl-2-deoxy-2-[(R)-3-tetradecanoyloxytetradecanamido]-beta-D-glucopyranoside (17). The glycosylation reactions between the donor 4,6-di-O-benzylidene-2-deoxy-2-(2',2',2'-trichloroethoxycarbonylamino)-alpha-d-glucopyranosyl trichloroacetimidate (21) and acceptors 16 and 17 provide the desired beta-(1-->6)-linked disaccharides 22 and 23, respectively. Selective reductive ring opening of the 4,6-di-O-benzylidene group, installation of a phosphate group to the 4'-hydroxyl group, and the final global debenzylation produce the designed monophosphoryl lipid A analogues 1-3. All three synthetic analogues induce antigen specific T-cell proliferation and interferon-gamma (IFN-gamma) production in ex vivo experiments with a totally synthetic liposomal vaccine system. The immunostimulatory potency of compound 1-3 is in the same order of magnitude as that of the detoxified natural lipid A product isolated from Salmonella minnesota R595 (R595 lipid A). The substituent at the 3-O-position of the reducing sugar does not have much effect on the adjuvant activity of monophosphoryl lipid A analogues. The preliminary lethal toxicity study indicates that the 3-O-acylated hepta-acyl monophosphoryl lipid A may not be more toxic than its 3-O-deacylated hexa-acyl analogue.     

MAGE-F1, a novel ubiquitously expressed member of the MAGE superfamily

Most known members of the MAGE superfamily are expressed in tumors, testis and fetal tissues, which has been described as a cancer/testis or "CT" expression pattern. We have identified a novel member of this superfamily, MAGE-F1, which is expressed in all adult and fetal tissues tested. In addition to normal tissues, MAGE-F1 is expressed in many tumor types including ovarian, breast, cervical, melanoma and leukemia. MAGE-F1 is encoded on chromosome 3, identifying a sixth chromosomal location for a MAGE superfamily gene. The coding region of MAGE-F1 is contained within a single exon and includes a microsatellite repeat. Sequence analysis and expression profiles define a new class of ubiquitously expressed MAGE superfamily genes that includes MAGE-F1, MAGE-D1, MAGE-D2/JCL-1 and NDN. The finding that several MAGE genes are ubiquitously expressed suggests a role for MAGE encoded proteins in normal cell physiology. Furthermore, potential cross-reactivity to these ubiquitously expressed MAGE gene products should be considered in the design of MAGE-targeted immunotherapies for cancer.     

Immune expulsion of the trichostrongylid Cooperia oncophora is associated with increased eosinophilia and mucosal IgA

Previous experiments have shown that a primary infection with 100000 infective larvae of the trichostrongylid Cooperia oncophora allows discrimination between different type of responder animals based on the speed by which the parasite is expelled from the host. In most of the animals (intermediate responders) the expulsion occurs 35-42 days after infection. This experiment was carried out to investigate which mechanisms contribute to the clearance of the parasite from the intestine. Sequential necropsy of the animals 14, 28 and 42 days after infection together with a segmental division of the small intestine, allowed us to characterise essential components associated with development of immunity and expulsion of the parasite from its niche. The results show that during the patent phase of the infection the parasite preferentially resides in the proximal gut. Forty-two days after infection ongoing expulsion is characterised by a migration of the worms to the more distal part of the intestine. Expulsion of the adult worm population appears to be mast-cell independent and is associated with a significant increase in parasite-specific mucous IgA and IgG1 as well as with an influx of eosinophils in the intestinal lamina propria. Although we did not observe a specific lymphocyte recruitment into the intestinal mucosa, the accumulation of eosinophils seems to be mediated by CD4+ cells. We measured significant negative correlations between the number of eosinophils and the expulsion rate of the parasite expressed by sex ratio and ratio eggs per gram faeces. Parasite-specific mucosal IgA levels were negatively correlated to the fecundity of the worms, expressed as number of eggs per female worm. Our results describe the involvement of both eosinophils and mucosal IgA in the regulation of C. oncophora expulsion and suggest the development of a Th2 effector immune response.     

Defensins,lectins, mucins,and secretory immunoglobulin A: microbe-binding biomolecules that contribute to mucosal immunity in the human gut

In the intestine, the mucosal immune system plays essential roles in maintaining homeostasis between the host and microorganisms, and protecting the host from pathogenic invaders. Epithelial cells produce and release a variety of biomolecules into the mucosa and lumen that contribute to immunity. In this review, we focus on a subset of these remarkable host-defense factors – enteric α-defensins, select lectins, mucins, and secretory immunoglobulin A – that have the capacity to bind microbes and thereby contribute to barrier function in the human gut. We provide an overview of the intestinal epithelium, describe specialized secretory cells named Paneth cells, and summarize our current understanding of the biophysical and functional properties of these select microbe-binding biomolecules. We intend for this compilation to complement prior reviews on intestinal host-defense factors, highlight recent advances in the field, and motivate investigations that further illuminate molecular mechanisms as well as the interplay between these molecules and microbes.     

Immunoproteomically identified GBAA_0345, alkyl hydroperoxide reductase subunit C is a potential target for multivalent anthrax vaccine

Anthrax is caused by the spore‐forming bacterium Bacillus anthracis, which has been used as a weapon for bioterrorism. Although current vaccines are effective, they involve prolonged dose regimens and often cause adverse reactions. High rates of mortality associated with anthrax have made the development of an improved vaccine a top priority. To identify novel vaccine candidates, we applied an immunoproteomics approach. Using sera from convalescent guinea pigs or from human patients with anthrax, we identified 34 immunogenic proteins from the virulent B. anthracis H9401. To evaluate vaccine candidates, six were expressed as recombinant proteins and tested in vivo. Two proteins, rGBAA_0345 (alkyl hydroperoxide reductase subunit C) and rGBAA_3990 (malonyl CoA‐acyl carrier protein transacylase), have afforded guinea pigs partial protection from a subsequent virulent‐spore challenge. Moreover, combined vaccination with rGBAA_0345 and rPA (protective antigen) exhibited an enhanced ability to protect against anthrax mortality. Finally, we demonstrated that GBAA_0345 localizes to anthrax spores and bacilli. Our results indicate that rGBAA_0345 may be a potential component of a multivalent anthrax vaccine, as it enhances the efficacy of rPA vaccination. This is the first time that sera from patients with anthrax have been used to interrogate the proteome of virulent B. anthracis vegetative cells.     

Phg1p is a nine-transmembrane protein superfamily member involved in dictyostelium adhesion and phagocytosis

To identify the molecular mechanisms involved in phagocytosis, we generated random insertion mutants of Dictyostelium discoideum and selected two mutants defective for phagocytosis. Both represented insertions in the same gene, named PHG1. This gene encodes a polytopic membrane protein with an N-terminal lumenal domain and nine potential transmembrane segments. Homologous genes can be identified in many species; however, their function is yet to be elucidated. Disruption of PHG1 caused a selective defect in phagocytosis of latex beads and Escherichia coli, but not Klebsiella aerogenes bacteria. This defect in phagocytosis was caused by a decrease in the adhesion of mutant cells to phagocytosed particles. These results indicate that the Phg1 protein is involved in the adhesion of Dictyostelium to various substrates, a crucial event of phagocytosis and demonstrate the usefulness of a genetic approach to dissect the molecular events involved in the phagocytic process.