Translational studies of hookworm infection in Ghana

加纳钩虫感染的转化研究

基本信息

批准号：
10446294
负责人：
MICHAEL CAPPELLO
金额：
$ 79.65万
依托单位：
YALE UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2022
资助国家：
美国
起止时间：
2022-02-22 至 2027-01-31
项目状态：
未结题

来源：
https://reporter.nih.gov/project-details/10446294
关键词：
Africa Africa South of the Sahara African Aftercare Age Albendazole Ancylostoma (genus)Anemia Animal Model Antibodies Antibody Response Antigens Behavioral Biology Blood Chronic Clinical Collaborations Communicable Diseases Communities Complex Country Coupled DNA Data Development Disease Drug Exposure Drug Monitoring Drug resistance Effectiveness Enrollment Epidemiology Evolution Exposure to Foundations Future Genes Genetic Genetic Models Genetic Variation Genomics Ghana Goals Growth HIV Hamsters Helminths Hookworm Infections Hookworms Human Immune response Impaired cognition Impairment In Vitro Infection Infrastructure Institutes Intestines Kinetics Laboratories Legal patent Malaria Malnutrition Maternal and Child Health Mediating Medical Research Methods Mitochondria Modeling Monitor Morbidity - disease rate Mucous Membrane Mutation Necator americanus Nematoda Nutritional Organizational Objectives PTGS1 gene Parasites Pathogenesis Pattern Persons Pharmaceutical Preparations Pilot Projects Play Population Population Genetics Predisposition Prevalence Primary Infection Proteins Proteomics Public Health Reagent Reporting Reproducibility Research Research Personnel Resistance Resources Risk Risk Factors Role Soil Study Subject Techniques Technology Tuberculosis Universities Vaccination World Health Organization base benzimidazole beta Tubulin disease transmission egg experience experimental study feeding field study genetic architecture genomic tools human data human disease human population genetics immunopathology in vivo innovation insight low and middle-income countries neglected tropical diseases next generation sequencing novel novel strategies nutrition pressure resistance frequency response secretory protein tool translational study vaccine development vaccine efficacy vaccine response

项目摘要

PROJECT SUMMARY Hookworm infection is a leading cause of malnutrition and growth delay in poor countries, especially in sub- Saharan Africa where millions of people are infected with Necator americanus. Data from human studies suggest chronic hookworm infection also impairs routine vaccine efficacy and exacerbates other globally important, co-endemic infectious diseases. Current strategies to control hookworm rely primarily on Mass Drug Administration of standard anthelminthic drugs, although recent evidence calls into question the long-term effectiveness of this approach to control and eliminate hookworm in endemic populations. Since 2007, Yale University and the Noguchi Memorial Institute for Medical Research at the University of Ghana have collaborated to characterize the epidemiology of hookworm infection in endemic communities. The longitudinal field study proposed in Aim 1 will further probe the epidemiology of hookworm by defining risk factors for infection, response to deworming, and reinfection following treatment in the Bono East Region, Ghana. Experiments outlined in Aim 2 will be focused on characterizing changes in the frequency of resistance associated mutations in the N. americanus β-tubulin gene using Next Generation Sequencing methods, as well as the impact of drug pressure on genetic diversity and the population genetics of human hookworms in Beposo. Critical to the detailed study of hookworm pathogenesis is the availability of a facile animal model that is both reproducible and accurately reflects the major clinical features of human disease. Little is known about N. americanus strains originating from populations in Africa, resulting in a significant gap in our understanding of hookworm biology, genomics and evolution. Building on experience in maintaining the laboratory model of Ancylostoma ceylanicum hookworms, field isolates of N. americanus cultured from study subjects in Ghana in 2019 have been used to establish patent infections in hamsters. In the experimental studies outlined in Aim 3, clinical parameters and the kinetics of primary infection with the Ghana strain of N. americanus will be fully characterized in the hamster model. Cellular, humoral and mucosal antibody responses to primary infection, reinfection and vaccination with hookworm proteins will be defined. In addition, novel proteomic methods will be applied to define human antibody profiles that correlate with infection status, intensity and risk of reinfection. The overarching goals of the research outlined in this proposal are (1) to identify factors associated with hookworm infection among people living in Beposo, Ghana, (2) to characterize the impact of deworming pressure on drug resistance markers and genetic diversity of hookworms in Ghana and (3) to characterize the first laboratory adapted African strain of N. americanus and optimize its utility for the study of human hookworm epidemiology, pathogenesis and vaccine development. Results from these innovative studies will enhance our understanding of hookworm pathogenesis in Africa and inform future development of public health tools to reduce the global burden of this neglected tropical disease.

项目概要钩虫感染是贫穷国家营养不良和生长迟缓的主要原因，特别是在亚健康国家。撒哈拉非洲地区有数百万人感染美洲钩虫。来自人类研究的数据。表明慢性钩虫感染也会损害常规疫苗的功效并使全球其他疾病恶化目前控制钩虫的策略主要依靠大众药物。使用标准驱虫药物，尽管最近的证据对长期效果提出质疑自 2007 年以来，这种方法在流行人群中控制和消除钩虫的有效性，耶鲁大学。大学和加纳大学野口纪念医学研究所合作描述了流行社区钩虫感染的流行病学特征。目标 1 中提出的实地研究将通过确定钩虫的危险因素来进一步探讨钩虫的流行病学。加纳博诺东部地区的感染、驱虫反应以及治疗后的再感染。目标 2 中概述的实验将侧重于表征电阻频率的变化还使用下一代测序方法对美洲 N. americanus β-微管蛋白基因进行相关突变药物压力对人类钩虫遗传多样性和群体遗传学的影响 Beposo。对钩虫发病机制进行详细研究的关键是获得一种简便的动物模型。既可重复又准确地反映了人们对人类疾病知之甚少的主要临床特征。美洲猪笼草菌株源自非洲种群，导致我们的理解存在重大差距建立在维持钩虫实验室模型的经验基础上。锡兰钩虫（Ancylostoma ceylanicum hookworms），从加纳研究对象中培养的美洲钩虫现场分离株 2019 年已被用来在仓鼠中建立明显的感染。在目标 3 中概述的实验研究中，美洲猪笼草加纳株的临床参数和原发感染动力学将得到充分研究仓鼠模型中对原发感染的细胞、体液和粘膜抗体反应的特征，此外，还将定义新的蛋白质组学方法。用于定义与感染状态、强度和再感染风险相关的人类抗体谱。本提案中概述的研究的总体目标是（1）确定与加纳贝波索居民的钩虫感染情况，(2) 描述驱虫的影响加纳钩虫耐药标记和遗传多样性面临的压力，以及 (3) 描述钩虫的特征第一个实验室改造了美洲钩虫的非洲菌株，并优化了其在人类钩虫研究中的效用这些创新研究的结果将增强我们的流行病学、发病机制和疫苗开发。了解非洲钩虫的发病机制，并为未来公共卫生工具的开发提供信息减轻这种被忽视的热带疾病的全球负担。