MOLECULAR AND BIOCHEMICAL CHARACTERIZATION OF A SECRETED LIPASE IN LEISHMANIA

利什曼原虫分泌的脂肪酶的分子和生物化学特征

• 批准号: 7725145
• 负责人: ALISON M SHAKARIAN
• 金额: $ 9.33万
• 依托单位: UNIVERSITY OF RHODE ISLAND
• 依托单位国家: 美国
• 财政年份: 2008
• 资助国家: 美国
• 起止时间: 2008-05-01 至 2009-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7725145
• 关键词: Antimony; Biochemical; Biological; Biological Assay; Class; Computer Retrieval of Information on Scientific Projects Database; Cutaneous; Development; Disease; Environment; Enzymes; Esters; Funding; Genes; Grant; Growth and Development function; Hydrolysis; Infection; Institution; Leishmania; Leishmaniasis; Length; Life Cycle Stages; Lipase; Membrane; Molecular; Nutrient; Object Attachment; Organophosphates; Parasites; Prevention; Proteins; Protozoa; Range; Recombinant Proteins; Research; Research Personnel; Resources; Role; Signal Transduction; Source; System; Testing; Triglycerides; Ulcer; United States National Institutes of Health; Vaccines; Visceral; Work; design; inhibitor/antagonist; interest; mutant; preference; prevent; transmission process

This subproject is one of many research subprojects utilizing the resources provided by a Center grant funded by NIH/NCRR. The subproject and investigator (PI) may have received primary funding from another NIH source, and thus could be represented in other CRISP entries. The institution listed is for the Center, which is not necessarily the institution for the investigator. The proposed research is designed to contribute to the understanding of mechanisms of Leishmania survival, growth and development. The disease spectrum of leishmaniasis ranges from mild self-limiting cutaneous ulcers to a potentially fatal visceral infection, each dependant on the species of parasite with which one is infected. Proteins secreted by Leishmania are of interest because it is through these molecules that the parasites are able to sense, respond to and alter their environments. Such secreted proteins could make unique suitable targets for the development of new compounds to prevent or treat this diseases as currently there is no vaccine available for the prevention of transmission of these parasites and toxic antimony compounds are often used unsuccessfully for its treatment. Lipases are lipolytic enzymes that hydrolyze the ester bond of triglycerides. In other systems, lipase activity is involved in the reorganization of membrane structure, cell signaling or nutrient acquisition. These observations suggest that lipase activity is essential for Leishmania although presently the biological significance of this enzyme has not been proven experimentally. The working hypothesis, that lipase is essential to Leishmania, will be tested. The following approaches to determine the role of this enzyme in the parasite life cycle are planned: 1) The full-length copy of the lipase gene will be identified and characterized; the expression of lipase will be examined though out the parasite developmental life cycle and the phylogenic conservation of lipase among kinetoplastid protozoa will be determined. 2) Null-mutants deficient in lipase activity will be generated and tested for viability. 3) The lipase gene will be expressed as a recombinant protein and assayed for substrate preference. In addition, various classes of organophosphate inhibitors of lipase will be tested to determine the sensitivity of the leishmanial lipase to these compounds.

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