Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0021051 (immunodeficiency)
 71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated the induction of protective mucosal immunity to human immunodeficiency virus type 1 (HIV-1) isolate 89.6 by intranasal (i.n.) immunization of mice with gp120 and gp140 together with interleukin-12 (IL-12) and cholera toxin subunit B (CTB) as adjuvants. It was found that both IL-12 and CTB were required to elicit mucosal antibody responses and that i.n. immunization resulted in increased total, immunoglobulin G1 (IgG1), and IgG2a anti-HIV-1 antibody levels in serum; increased total, IgG1, IgG2a, and IgA antibody expression in bronchoalveolar lavage fluids; and increased IgA antibody levels in vaginal washes. Levels of anti-HIV-1 antibodies in both sera and secretions were higher in groups immunized with gp140 than in those immunized with gp120. However, only gp120-specific mucosal antibodies demonstrated neutralizing activity against HIV-1 89.6. Taken together, the results show that IL-12 and CTB act synergistically to enhance both systemic and local mucosal antibody responses to HIV-1 glycoproteins and that even though gp140 induces higher antibody titers than gp120, only gp120-specific mucosal antibodies interfere with virus infectivity.
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PMID:Intranasal vaccination using interleukin-12 and cholera toxin subunit B as adjuvants to enhance mucosal and systemic immunity to human immunodeficiency virus type 1 glycoproteins. 1271 51

Passive antibody studies unequivocally demonstrate that sterilizing immunity against lentiviruses is obtainable through humoral mechanisms. In this regard, DNA vaccines represent an inexpensive alternative to subunit vaccine for mass vaccination programs designed to induce such responses to human immunodeficiency virus type I (HIV-1). At present, however, this vaccine modality has proven relatively ineffective at inducing humoral responses. In this report, we describe the immunogenicity of DNA vaccines that direct the coincident expression of the cholera toxin catalytic domain (CTA1) with that of the human immunodeficiency virus type I gp120 through genes either encoded in individual plasmids or in a single dicistronic plasmid. In BALB/cJ mice, coincident expression of CTA1 in either a separate plasmid or in the dicistronic plasmid in the DNA vaccines induced serum IgG responses to gp120 that were at least 1000-fold greater, and remained elevated longer than, the analogous responses in mice vaccinated with a DNA vaccine that expressed gp120 alone. In addition, mice vaccinated with CTA1 and gp120 produced significantly more gp120-specific IFN-gamma ELISPOTs than mice vaccinated with the gp120 DNA vaccine. Combined, these data show that the adjuvant properties of cholera toxin can be harnessed in DNA vaccine modalities.
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PMID:Immunogenicity of DNA vaccines that direct the coincident expression of the 120 kDa glycoprotein of human immunodeficiency virus and the catalytic domain of cholera toxin. 1280 65

To enhance mucosal immune responses using simian-human immunodeficiency virus-like particles (SHIV VLPs) as a mucosal HIV vaccine, we have produced phenotypically mixed, chimeric influenza HA/SHIV 89.6 VLPs and used them to immunize C57B/6J mice intranasally. Systemic and mucosal antibody responses, as well as cytotoxic T cell (CTL) responses, were compared in groups immunized with SHIV 89.6 VLPs or HA/SHIV 89.6 VLPs. Intranasal immunizations were given using VLPs either with or without the addition of the mucosal adjuvant cholera toxin. Total serum IgG, IgG1 and IgG2a, and IgA in saliva, vaginal lavage, lung wash, and fecal extracts were evaluated by enzyme-linked immunosorbent assay (ELISA). The level of serum IgG production to HIV Env was highest in the group immunized with chimeric HA/SHIV 89.6 VLPs. Similarly, mucosal IgA production was also enhanced in the mucosal HA/SHIV 89.6 VLP-immunized group. Analysis of the IgG1/IgG2a ratio indicated that a Th1-oriented immune response resulted from these VLP immunizations. High levels of serum IgG and mucosal IgA against influenza virus were also detected in mice immunized with HA/SHIV VLPs. HA/SHIV 89.6 VLP-immunized mice also showed significantly higher CTL responses than those observed in SHIV 89.6 VLP-immunized mice. Furthermore, a Major Histocompatibility Complex (MHC)-class-I-restricted T cell activation ELISPOT assay showed elevated interferon-gamma, interleukin-2, and interleukin-12 production in HA/SHIV 89.6 VLP-immunized mice, indicating that phenotypically mixed HA/SHIV 89.6 VLPs can enhance both humoral and cellular immune responses at multiple mucosal sites. Therefore, chimeric HA-containing VLPs represent a potential approach for mucosal immunization for prevention of HIV infection.
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PMID:Enhancement of mucosal immune responses by chimeric influenza HA/SHIV virus-like particles. 1284 73

Aspects of the generation and maintenance of mucosal immunity against human immunodeficiency virus type 1 (HIV-1) were examined. Mice were immunized either intranasally or intrarectally with recombinant HIV-1 Gag p24 protein plus cholera toxin. Nasal immunization generated strong nasal IgA responses but low vaginal IgA, whereas rectal immunization yielded good vaginal IgA responses but poor nasal responses. Nasal immunization resulted in strong Gag-specific cytotoxic T lymphocyte (CTL) activity in nasal-associated lymphoid tissue (NALT), posterior cervical lymph nodes (pCLNs), and the spleen, but not in mesenteric lymph nodes (MLNs). Rectal immunization induced weak Gag-specific CTLs in the MLNs only, indicating distinct compartmentalization of the upper and lower mucosa. Combining nasal and rectal immunizations overcame their respective deficiencies. CTL memory after the third nasal immunization was found to persist for up to 6 months in the draining pCLNs, but was gradually lost from the NALT induction site. Analysis of the T cell receptor Vbeta usage of Gag-specific CD8(+) T cells in lymphoid tissues of intranasally immunized mice indicated that the memory CTLs in the pCLNs are generated from a few clones in NALT. The memory CTL clones also appear to be poor killers whereas the NALT clones from which the pCLN clones appear to originate are potent killers. Our results support the view that CTL activity is determined by the level and duration of antigen stimulation and that in NALT, CTLs develop as effector memory T cells with high avidity, whereas the pCLNs sequester the memory T cells with low avidity but longer survival.
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PMID:Studies on the generation and maintenance of mucosal cytotoxic T lymphocytes against human immunodeficiency virus type 1 Gag in mice. 1288 56

Secretory immunity protects against mucosal transmission of viruses, as demonstrated with the oral poliovirus vaccine. In a previous study we showed that this immunity could be induced in mice by injection of a fusion peptide consisting of an unnatural peptide-like sequence (PADRE) and a viral epitope (ELDKWASLW). PADRE is a T-helper-cell epitope able to bind most major histocompatibility complex class II molecules of different haplotypes in mice and humans and to increase antibody responses. ELDKWA is a well-known consensual sequence of gp41 involved in a key structure of human immunodeficiency virus (HIV) type 1. Here, the antibody response to the native form of ELDKWA was mainly of the immunoglobulin A isotype and selectively occurred in mucosa. Adjuvants, such as cholera toxin and cytosine polyguanine, were useless and even competed with PADRE for the response. Interestingly, these antibodies were cross-reactive with the three major variants of the epitope, as shown both by direct enzyme-linked immunosorbent assay and by inhibition. This unconventional route of mucosal immunization allows control of the administered dose. The lack of adjuvant and the cross-reactivity of the antibodies increase the safety and the spectrum of the candidate vaccine, respectively. The drug-like nature of the construct suggests further improvements by synthesis of more antigenic sequences. The reasonable cost of short peptides at the industrial level and their purity make this approach of interest for future vaccines against mucosal transmission of HIV or other pathogens.
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PMID:Impairment by mucosal adjuvants and cross-reactivity with variant peptides of the mucosal immunity induced by injection of the fusion peptide PADRE-ELDKWA. 1460 74

A cDNA encoding the simian-human immunodeficiency virus (SHIV 89.6p) Tat regulatory element protein was fused to the c-terminus of the cholera toxin B subunit gene (ctxB-tat) and introduced into Solanum tuberosum cells by Agrobacterium tumefaciens-mediated transformation methods. The fusion gene was detected in the genomic DNA of transformed potato leaf cells by PCR DNA amplification. Synthesis and assembly of the CTB-Tat fusion protein into oligomeric structures of pentamer size was detected in transformed tuber extracts by immunoblot analysis. The binding of CTB-Tat fusion protein pentamers to intestinal epithelial cell membrane glycolipid receptors was quantified by G(M1)-ganglioside enzyme-linked immunosorbent assay (G(M1)-ELISA). Based on the ELISA results, CTB-Tat fusion protein made up about 0.005-0.007% of total soluble tuber protein or approximately 4.6mg per 100g potato tuber tissue. The synthesis and assembly of CTB-Tat monomers into biologically active oligomers in transformed potato tuber tissues demonstrates the feasibility of using viral pathogen antigens synthesized in edible plants for mucosal immunization against HIV-1 infection.
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PMID:Synthesis and assembly of a cholera toxin B subunit SHIV 89.6p Tat fusion protein in transgenic potato. 1513 8

A cDNA fragment encoding the V3 loop of human immunodeficiency virus type-1 (HIV-1) envelope glycoprotein gp120 was fused to the cholera toxin B subunit gene (CTB-gp120) and transferred into Solanum tuberosum cells by Agrobacterium tumefaciens-mediated transformation. The CTB-gp120 fusion gene was detected in genomic DNA from transformed potato leaves by PCR DNA amplification. Synthesis and assembly of the CTB-gp120 fusion protein into oligomeric structures of pentamer size was detected in transformed tuber extracts by immunoblot analysis. The binding of CTB-gp120 fusion protein pentamers to intestinal epithelial cell membrane glycolipid receptors was quantified by GM1-ganglioside enzyme-linked immunosorbent assay (GM1-ELISA). The ELISA results indicated that CTB-gp120 fusion protein made up 0.002-0.004% of the total soluble tuber protein. Synthesis of CTB-gp120 monomers and their assembly into biologically active oligomers in transformed potato tuber tissues demonstrates for the first time the expression of HIV-1 gp120 in plants and emphasizes the feasibility of using edible plant-based vaccination for protection against HIV-1 infection.
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PMID:HIV-1 gp120 V3 cholera toxin B subunit fusion gene expression in transgenic potato. 1529 98

A deoxyribonucleic acid (DNA) fragment encoding the cholera toxin B subunit (CTB) was linked 5' to the simian immunodeficiency virus (SIVmac) Gag p27 capsid gene (CTB-Gag). The fusion gene was transferred into Solanum tuberosum cells by Agrobacterium tumefaciens-mediated transformation methods and transformed plants regenerated. The CTB-Gag gene fusion was detected in transformed potato leaf genomic DNA by polymerase chain reaction-mediated DNA amplification. The results of immunoblot analysis with anti-CTB and anti-Gag antibodies verified the synthesis of biologically active CTB-Gag fusion protein in transformed leaf and tuber tissues. Synthesis and assembly of the CTB-Gag fusion protein into oligomeric structures of pentamer size was confirmed by GM1-ganglioside-enzyme-linked immunosorbent assay (GM1-ELISA) of transformed potato tuber tissue extracts. The binding of CTB-Gag fusion protein oligomers to intestinal epithelial cell membrane receptors quantified by GM1-ELISA showed that CTB-Gag fusion protein made up approx 0.016-0.022% of the total soluble tuber protein. The synthesis of CTB-Gag monomers and their assembly into biologically active CTB-Gag fusion protein oligomers in potato tuber tissues provides the opportunity for employment of the carrier and adjuvant properties of CTB for the development of edible plant-based subunit mucosal vaccines for enhanced mucosal immunity against SIV in macaques.
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PMID:Synthesis and assembly of SIVmac Gag p27 capsid protein cholera toxin B subunit fusion protein in transgenic potato. 1545 61

Fifty years ago, the age-old scourge of infectious disease was receding in the developed world in response to improved public health measures, while the advent of antibiotics, better vaccines, insecticides and improved surveillance held the promise of eradicating residual problems. By the late twentieth century, however, an increase in the emergence and re-emergence of infectious diseases was evident in many parts of the world. This upturn looms as the fourth major transition in human-microbe relationships since the advent of agriculture around 10,000 years ago. About 30 new diseases have been identified, including Legionnaires' disease, human immunodeficiency virus (HIV)/acquired immune deficiency syndrome (AIDS), hepatitis C, bovine spongiform encephalopathy (BSE)/variant Creutzfeldt-Jakob disease (vCJD), Nipah virus, several viral hemorrhagic fevers and, most recently, severe acute respiratory syndrome (SARS) and avian influenza. The emergence of these diseases, and resurgence of old ones like tuberculosis and cholera, reflects various changes in human ecology: rural-to-urban migration resulting in high-density peri-urban slums; increasing long-distance mobility and trade; the social disruption of war and conflict; changes in personal behavior; and, increasingly, human-induced global changes, including widespread forest clearance and climate change. Political ignorance, denial and obduracy (as with HIV/AIDS) further compound the risks. The use and misuse of medical technology also pose risks, such as drug-resistant microbes and contaminated equipment or biological medicines. A better understanding of the evolving social dynamics of emerging infectious diseases ought to help us to anticipate and hopefully ameliorate current and future risks.
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PMID:Social and environmental risk factors in the emergence of infectious diseases. 1557 34

Natural toxins are the product of a long-term evolution, and have captured crucial events in the most essential and vital processes of living organisms. They can attack components of the protein synthesis machinery (as in the case of Diphteria and Shiga toxins, and Ribosome inactivating proteins), actin polymerization (Clostridium botulinum type C, C2, toxins and Enterotoxin A), signal transduction pathways (Cholera toxin, Heat-labile enterotoxins, Pertussis and Adenylate cyclase toxins), intracellular trafficking of vesicules (for Tetanus and Botulinum neurotoxin type C) as well as immune and/or inflammatory responses (Pyrogenic exotoxins, Cholera and Pertussis toxins). Of interest is the fact that several bacterial and vegetal toxins can either kill selectively cells infected with the human immunodeficiency virus (HIV) or exert inhibitory effects on its life cycle. In particular both pertussis toxin (PTX) and its nontoxic B-oligomeric component (PTX-B) can block the infectious process in vitro at multiple levels, by preventing the entry of CCR5-dependent (R5) HIV strains and by inhibiting both R5 and CXCR4-dependent HIVs at post-entry level(s). In addition, some toxins possess immunostimulating properties that have been exploited in terms of adjuvancy and induction of specific cytotoxic T lymphocytes responses to different vaccine preparations, including some experimental vaccine against HIV infection. Thus, toxins may represent a relatively unexplored exhibition of powerful biological agents that could either prevent infection or attack HIV-infected cells.
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PMID:Bacterial toxins: potential weapons against HIV infection. 1610 45


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