权益分类	功能权益	普通用户	{{item.name}}会员
{{category.name}}	{{benefitItem.name}}

Studies on Influenza B Virus BM2 Protein Ion Channel

乙型流感病毒BM2蛋白离子通道的研究

基本信息

批准号：
7369864
负责人：
LAWRENCE H PINTO
金额：
$ 27.39万
依托单位：
NORTHWESTERN UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2005
资助国家：
美国
起止时间：
2005-03-01 至 2010-02-28
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7369864
关键词：
Aerosols Affect Amantadine Antiviral Agents Bacteria Bathing Biochemical Biochemistry Biological Cells Cercopithecine Herpesvirus 1 Chemicals Chimeric Proteins Collaborations Coupled Cysteine Cytoplasmic Tail Drug Industry Drug effect disorder Endosomes Epidemic Exposure to Future Genome Human In Vitro Influenza Influenza A virus Influenza A virus M2 protein Influenza B virus Insecta Integral Membrane Protein Iodides Ion Channel Ion Channel Protein Ion Transport Ions Knowledge Laboratories Lipids M2 protein Mass Spectrum Analysis Measures Membrane Molecular Morbidity - disease rate Mutagenesis Mutate Mutation Pathogenicity Peptides Pharmaceutical Preparations Phase Phosphorylation Phosphorylation Site Procedures Property Proteins Protons Reagent Recombinants Relative (related person)Research Personnel Role Scanning Screening procedure Series Serine Simian B disease Structure System Testing Threonine Vesicle Viral Viral Genome Virion Virus Virus Diseases Virus Replication aqueous base design fitness influenzavirus inhibitor/antagonist mortality mutant novel pandemic disease pandemic influenza positional cloning programs protein function reconstitution research study small molecule solid state transmission process

项目摘要

DESCRIPTION (provided by the applicant): Influenza contributes substantially to worldwide morbidity and mortality. Influenza A virus has caused all human pandemics but influenza B virus infections occur annually and in some recent years they have constituted 50% of total influenza virus infections. The relative simplicity of using reverse genetics procedures to alter the genome of influenza A and B viruses to deliberately introduce pathogenicity determinants into the viral genome coupled with the aerosol transmission of influenza viruses, makes the viruses ideal candidates for use by bioterrorists to create epidemics and havoc. Recently, we discovered that the BM2 protein of influenza B virus is an oligomeric integral membrane protein with an ion channel activity. BM2 protein causes acidification of the virion interior that is required for virus uncoating in endosomes. The BM2 protein functions in a manner related to that of the influenza A virus M2 ion channel protein, the latter being the target of the anti-viral drug amantadine: the drug does not inhibit influenza B virus replication or the BM2 ion channel activity. The proposed experiments are designed to elucidate the important features of the structure and function of the BM2 protein and its role in the influenza B virus lifecycle. (1) We will characterize the BM2 protein using biochemistry, mutagenesis and reverse genetics. The phosphorylation state of the BM2 protein will be determined and the effect of specific mutations that affect BM2 function will be determined using reverse genetics procedures to introduce these mutations into influenza B virus. (2) The oligomeric state of the active form of the BM2 protein will be determined using mixtures of BM2 subunits with distinguishable properties. (3) The pore-lining residues of the BM2 channel will be identified using cysteine-scanning mutagenesis followed by biochemical and functional studies. (4) The mechanisms by which the activity of the BM2 protein is modulated will be studied. (5) We will develop systems for measuring the activity of recombinant BM2 protein in vitro in order to provide a useful means for the pharmaceutical industry to screen for antiviral compounds specific for BM2 and to use in biophysical experiments.

描述（由申请方提供）：流感是全球发病率和死亡率的主要原因。甲型流感病毒引起了所有人类大流行，但B流感病毒感染每年发生，近年来它们已占流感病毒感染总数的50%。使用反向遗传学程序改变甲型和B型流感病毒的基因组以故意将致病性决定簇引入病毒基因组中的相对简单性，加上流感病毒的气溶胶传播，使得病毒成为生物恐怖分子用来制造流行病和破坏的理想候选者。最近，我们发现流感B病毒的BM 2蛋白是具有离子通道活性的寡聚整合膜蛋白。BM 2蛋白会导致病毒粒子内部酸化，这是病毒在内体中脱壳所需的。BM 2蛋白以与甲型流感病毒M2离子通道蛋白相关的方式发挥功能，后者是抗病毒药物金刚烷胺的靶点：该药物不抑制B型流感病毒复制或BM 2离子通道活性。所提出的实验旨在阐明BM 2蛋白的结构和功能的重要特征及其在流感B病毒生命周期中的作用。(1)我们将使用生物化学、诱变和反向遗传学来表征BM2蛋白。将确定BM 2蛋白的磷酸化状态，并使用反向遗传学程序将影响BM 2功能的特定突变引入流感B病毒中，以确定这些突变的影响。(2)将使用具有可区分性质的BM 2亚基的混合物来确定BM 2蛋白的活性形式的寡聚状态。(3)将使用半胱氨酸扫描诱变，然后进行生物化学和功能研究，鉴定BM 2通道的孔衬残基。(4)将研究调节BM 2蛋白活性的机制。(5)我们将开发用于测量重组BM 2蛋白的体外活性的系统，以便为制药工业提供有用的手段来筛选针对BM 2的抗病毒化合物并用于生物物理实验。