Advancing a Lead Candidate Hantavirus Pulmonary Syndrome DNA Vaccine

推进主要候选汉坦病毒肺综合征 DNA 疫苗

• 批准号: 8849344
• 负责人: Jay Williams Hooper
• 金额: $ 71.23万
• 依托单位: GENEVA FOUNDATION
• 依托单位国家: 美国
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-05-16 至 2016-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8849344
• 关键词: Acute; Adult; Advanced Development; Age; Andes Virus; Animal Model; Animals; Biological Products; Case Fatality Rates; Categories; Containment; Country; Cyclic GMP; DNA; DNA Vaccines; Data; Development; Devices; Disease; Disease Progression; Disease model; Drug Delivery Systems; Electroporation; Endothelium; Future; Genes; Hamsters; Hantavirus; Hantavirus Pulmonary Syndrome; Human; Injection of therapeutic agent; Intensive Care Units; Jet Injections; Lead; Licensing; Licensure; Membrane Glycoproteins; Mesocricetus auratus; Modeling; Muscle; National Institute of Allergy and Infectious Disease; Needles; Oryctolagus cuniculus; Persons; Pharmaceutical Preparations; Phase; Plasmids; Pleural effusion disorder; Prevention; Pulmonary Edema; Reporting; Research; Respiratory distress; Shock; Sin Nombre virus; Symptoms; Technology; Testing; Therapeutic; Time; Tissues; Toxicology; United States; Vaccines; Virus; Virus Diseases; Woman; animal rule; base; efficacy testing; gene gun; human disease; immunogenicity; innovation; interest; men; neutralizing antibody; nonhuman primate; pathogen; plasmid DNA; pre-clinical; prevent; product development; research and development; research clinical testing; therapy development; time use; transmission process; vaccine development; viral DNA

DESCRIPTION (provided by applicant): The most lethal hantaviruses, including Andes virus (ANDV) and Sin Nombre virus (SNV), are those that cause hantavirus pulmonary syndrome (HPS). HPS is highly pathogenic in men and women of any age with a case-fatality rate of 30-40% even in modern intensive care units. Progression of the disease from first symptoms to respiratory distress and shock can be rapid. Reported person-to-person transmission during ANDV infection makes this virus especially dangerous. Strikingly, there are no drugs or vaccines licensed for the treatment or prevention of HPS anywhere in the world. Moreover, there are no HPS vaccines in advanced development anywhere in the world. We have developed a candidate HPS vaccine. The vaccine is a DNA vaccine consisting of two plasmids that encode the surface glycoproteins of ANDV and SNV. In proof-of-concept studies, we demonstrated that these DNA vaccines, delivered alone or in combination, elicit high-titer neutralizing antibodies and confer protection in animals. Much of our preliminary data has involved delivering the DNA vaccines using either a gene gun, or muscle electroporation. Recently, we tested delivery of the SNV DNA vaccine using the PharmaJet needle-free jet injection device. High-titer neutralizing antibodies were elicited in rabbits after a single boost. This finding is important because the PharmaJet device is relatively inexpensive and already is 510(k)-cleared by the FDA for injection of vaccines. Here, we propose to 1) test the HPS DNA vaccine delivered using the PharmaJet needle-free device for immunogenicity (neutralizing antibodies) in nonhuman primates, 2) manufacture HPS DNA vaccine plasmids as cGMP DNA, 3) conduct GLP preclinical toxicology testing of the HPS DNA vaccine, and 4) refine our HPS animal model for future use in 'Animal Rule' [21 CFR 601.90] efficacy testing. Our HPS animal model involves adult Syrian hamsters infected with ANDV. HPS in ANDV-infected hamsters closely resembles HPS in humans including: incubation time, rapid onset/progression, target tissue (endothelium), pulmonary edema, pleural effusion, and shock. When completed, this research will have advanced a lead-candidate HPS vaccine, delivered by needle-free technology, to a point where it will be ready for Phase 1 clinical testing. At the same time, an existing animal model of HPS would be refined and standardized for use in licensure strategies involving the 'Animal Rule.'

描述(申请人提供)：最致命的汉坦病毒，包括安第斯病毒(ANDV)和辛诺布雷病毒(SNV)，是那些引起汉坦病毒肺综合征(HPS)的病毒。HPS在任何年龄的男性和女性中都具有高度致病性，即使在现代重症监护病房，病死率也高达30%-40%。疾病从最初的症状发展到呼吸窘迫和休克的过程可能会很快。据报道，ANDV感染期间人与人之间的传播使这种病毒特别危险。值得注意的是，世界上任何地方都没有获得治疗或预防HPS的药物或疫苗的许可。此外，世界上任何地方都没有处于高级开发阶段的HPS疫苗。我们已经开发出一种候选的HPS疫苗。该疫苗是一种DNA疫苗，由编码ANDV和SNV表面糖蛋白的两个质粒组成。在概念验证研究中，我们证明了这些DNA疫苗，单独或联合使用，可以诱导动物产生高滴度的中和抗体，并提供动物保护。我们的大部分初步数据都涉及到使用基因枪或肌肉电穿孔来交付DNA疫苗。最近，我们使用PharmaJet无针喷射注射装置测试了SNV DNA疫苗的输送。一次免疫后，兔体内可产生高滴度的中和抗体。 这一发现很重要，因为PharmaJet设备相对便宜，并且已经获得了FDA批准的510(K)计划，可以注射疫苗。在这里，我们建议1)测试使用PharmaJet无针设备交付的HPS DNA疫苗在非人类灵长类动物中的免疫原性(中和抗体)，2)将HPS DNA疫苗质粒生产为cGMP DNA，3)对HPS DNA疫苗进行GLP临床前毒理学测试，以及4)完善我们的HPS动物模型，以便将来用于《动物规则》[21 CFR 601.90]疗效测试。我们的HPS动物模型涉及感染ANDV的成年叙利亚仓鼠。感染ANDV的仓鼠的HPS与人类的HPS非常相似，包括：潜伏期、快速发病/进展、靶组织(内皮)、肺水肿、胸腔积液和休克。当这项研究完成后，这项研究将推进通过无针技术提供的领先候选HPS疫苗，使其能够进行第一阶段临床测试。与此同时，现有的HPS动物模型将被改进和标准化，用于涉及“动物规则”的许可策略。