High Mannose Type Carbohydrate-based HIV/AIDS Vaccine

高甘露糖型碳水化合物艾滋病疫苗

• 批准号: 7560025
• 负责人: Yu Geng
• 金额: $ 30万
• 依托单位: PROSCI, INC.
• 依托单位国家: 美国
• 财政年份: 2008
• 资助国家: 美国
• 起止时间: 2008-02-01 至 2010-12-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7560025
• 关键词: Adjuvant; Animals; Antibodies; Antibody Formation; Antigens; Binding; Blocking Antibodies; CD209 gene; Carbohydrates; Cell Surface Receptors; Cells; Clinical Trials; Cross Reactions; Cyanovirin-N; Dendritic Cells; Dose; Drug Formulations; Enzyme-Linked Immunosorbent Assay; Epitopes; Gene Deletion; Gene Family; Glycoproteins; Goals; HIV; HIV Envelope Protein gp120; HIV Infections; HIV vaccine; HIV-1; Humoral Immunities; Immune; Immune Sera; Immunization; Immunization Schedule; Immunofluorescence Immunologic; Infection; Link; Mammalian Cell; Mannose; Measures; Membrane; Monoclonal Antibodies; Mucous Membrane; Oryctolagus cuniculus; Pathway interactions; Peptides; Play; Polysaccharides; Principal Investigator; Procedures; Proteins; Role; Route; SIV; Saccharomyces cerevisiae; Serum; Site; Specificity; Structure; T-Lymphocyte; Testing; Upper arm; Vaccines; Virus; Western Blotting; Yeasts; base; cross reactivity; density; design; env Gene Products; env Glycoproteins; glycosylation; immunogenicity; improved; inhibitor/antagonist; mutant; neutralizing antibody; novel; novel vaccines; pandemic disease; pre-clinical; public health relevance; success; transmission process; vaccine candidate; yeast protein

DESCRIPTION (provided by applicant): Although humoral immunity is a critical component in an effective HIV/AIDS vaccine to control the rampant spread of HIV-1, few of the vaccine candidates currently in preclinical and clinical trials appear to elicit broadly neutralizing antibodies. Several lines of evidences show that high mannose type carbohydrates on the HIV-1 glycoprotein gp120 are a novel and promising target to develop broadly neutralizing antibodies. First, high mannose glycans on gp120 play a critical role in HIV transmission and infection through interaction with immune cells, including dendritic cells. Second, one of the few broadly neutralizing HIV monoclonal antibodies, 2G12, recognizes a conformational epitope of high mannose type glycans on gp120. Third, a potent inhibitor of HIV, Cyanovirin-N, binds to terminal a1,2-linked mannose residues on high mannose glycans. Last, the carbohydrates on gp120 are well exposed and conserved among different HIV-1 subtypes and strains. To target the high mannose glycans on gp120, we have created N-glycosylation mutants of S. cerevisiae, identified several yeast glycoproteins that cross-react with 2G12, elicited immune sera that cross-react with Env glycoproteins of HIV-1 and SIV, and neutralized HIV-1 pseudoviruses. The gp120 binding and pseudovirus neutralization activities of these sera are broad, but the antibody titer and neutralization potency of the immune sera need to be improved. We hypothesize that higher levels of Mana1,2Man-specific antibodies with stronger gp120 binding and neutralizing activities can be induced in some of the proposed multiple groups of animals immunized with this new vaccine formulation. The Specific Aims are, (1) optimization of immunization procedures with the whole cells from triple mutant yeast of S. cerevisiae to elicit stronger gp120 cross-reactive and neutralizing antibodies; and (2) analyses of antigenicity and immunogenicity of 2G12 cross-reactive yeast glycoproteins, and elicitation of potent and broadly neutralizing antibodies using a prime-boost strategy. If success, this novel formulation of immunogen from yeast mutant strain will be a safe, cheap, and effective HIV/AIDS vaccine against a broad range of HIV-1 primary isolates. PUBLIC HEALTH RELEVANCE: Although humoral immunity is a critical component in an effective HIV/AIDS vaccine to control the rampant spread of HIV-1, few of the vaccine candidates currently in preclinical and clinical trials appear to elicit broadly neutralizing antibodies. Several lines of evidences show that high mannose type carbohydrates on the HIV-1 glycoprotein gp120 are a novel and promising target to develop broadly neutralizing antibodies. First, high mannose glycans on gp120 play a critical role in HIV transmission and infection through interaction with immune cells, including dendritic cells. Second, one of the few broadly neutralizing HIV monoclonal antibodies, 2G12, recognizes a conformational epitope of high mannose type glycans on gp120. Third, a potent inhibitor of HIV, Cyanovirin-N, binds to terminal a1,2-linked mannose residues on high mannose glycans. Last, the carbohydrates on gp120 are well exposed and conserved among different HIV-1 subtypes and strains. To target the high mannose glycans on gp120, we have created N-glycosylation mutants of S. cerevisiae, identified several yeast glycoproteins that cross-react with 2G12, elicited immune sera that cross-react with Env glycoproteins of HIV-1 and SIV, and neutralized HIV-1 pseudoviruses. The gp120 binding and pseudovirus neutralization activities of these sera are broad, but the antibody titer and neutralization potency of the immune sera need to be improved. We hypothesize that higher levels of Mana 1,2Man-specific antibodies with stronger gp120 binding and neutralizing activities can be induced in some of the proposed multiple groups of animals immunized with this new vaccine formulation. The Specific Aims are, (1) optimization of immunization procedures with the whole cells from triple mutant yeast of S. cerevisiae to elicit stronger gp120 cross-reactive and neutralizing antibodies; and (2) analyses of antigenicity and immunogenicity of 2G12 cross-reactive yeast glycoproteins, and elicitation of potent and broadly neutralizing antibodies using a prime-boost strategy. If success, this novel formulation of immunogen from yeast mutant strain will be a safe, cheap, and effective HIV/AIDS vaccine against a broad range of HIV-1 primary isolates.

描述（由申请人提供）：尽管体液免疫是有效HIV/AIDS疫苗中控制HIV-1猖獗传播的关键成分，但目前临床前和临床试验中的候选疫苗似乎很少能引发广泛中和抗体。多项证据表明，HIV-1糖蛋白gp 120上的高甘露糖型碳水化合物是开发广泛中和抗体的一个新的和有前途的靶点。首先，gp 120上的高甘露糖聚糖通过与免疫细胞（包括树突状细胞）的相互作用在HIV传播和感染中发挥关键作用。其次，为数不多的广泛中和HIV单克隆抗体之一2G 12识别gp 120上高甘露糖型聚糖的构象表位。第三，HIV的有效抑制剂Cyanovirin-N与高甘露糖聚糖上的末端a1，2连接的甘露糖残基结合。最后，gp 120上的碳水化合物在不同的HIV-1亚型和毒株中充分暴露和保守。为了靶向gp 120上的高甘露糖聚糖，我们已经创建了S.酿酒酵母，鉴定了几种与2G 12交叉反应的酵母糖蛋白，引发了与HIV-1和SIV的Env糖蛋白交叉反应的免疫血清，并中和了HIV-1假病毒。这些血清的gp 120结合和假病毒中和活性是广泛的，但免疫血清的抗体滴度和中和效力需要改进。 我们假设，在用这种新疫苗制剂免疫的一些拟议的多组动物中，可以诱导更高水平的Mana 1，2 Man特异性抗体，具有更强的gp 120结合和中和活性。本研究的具体目的是：（1）优化S.酵母糖蛋白的抗原性和免疫原性分析，以及使用初免-加强策略引发有效和广泛中和的抗体。如果成功，这种来自酵母突变株的免疫原的新制剂将是一种安全、廉价和有效的HIV/AIDS疫苗，可对抗广泛的HIV-1主要分离株。公共卫生相关性：虽然体液免疫是有效的HIV/AIDS疫苗的关键组成部分，以控制HIV-1的猖獗传播，目前在临床前和临床试验中的疫苗候选人很少出现广泛的中和抗体。多项证据表明，HIV-1糖蛋白gp 120上的高甘露糖型碳水化合物是开发广泛中和抗体的一个新的和有前途的靶点。首先，gp 120上的高甘露糖聚糖通过与免疫细胞（包括树突状细胞）的相互作用在HIV传播和感染中发挥关键作用。其次，为数不多的广泛中和HIV单克隆抗体之一2G 12识别gp 120上高甘露糖型聚糖的构象表位。第三，HIV的有效抑制剂Cyanovirin-N与高甘露糖聚糖上的末端α 1，2-连接的甘露糖残基结合。最后，gp 120上的碳水化合物在不同的HIV-1亚型和毒株中充分暴露和保守。为了靶向gp 120上的高甘露糖聚糖，我们已经创建了S.酿酒酵母，鉴定了几种与2G 12交叉反应的酵母糖蛋白，引发了与HIV-1和SIV的Env糖蛋白交叉反应的免疫血清，并中和了HIV-1假病毒。这些血清的gp 120结合和假病毒中和活性是广泛的，但免疫血清的抗体滴度和中和效力需要改进。我们推测，在用这种新疫苗制剂免疫的一些拟议的多组动物中，可以诱导更高水平的具有更强gp 120结合和中和活性的Mana 1，2 Man特异性抗体。本研究的具体目的是：（1）优化S.酵母糖蛋白的抗原性和免疫原性分析，以及使用初免-加强策略引发有效和广泛中和的抗体。如果成功，这种来自酵母突变株的免疫原的新制剂将是一种安全、廉价和有效的HIV/AIDS疫苗，可对抗广泛的HIV-1主要分离株。