Structural basis of ion channel function in Aquaporin-1

Aquaporin-1 离子通道功能的结构基础

• 批准号: 7151200
• 负责人: W Daniel Stamer
• 金额: $ 27.29万
• 依托单位: UNIVERSITY OF ARIZONA
• 依托单位国家: 美国
• 财政年份: 2000
• 资助国家: 美国
• 起止时间: 2000-04-01 至 2008-11-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7151200
• 关键词: AQP1 gene; Address; Amino Acids; Binding; Binding Sites; Brain; C-terminal; Cations; Collaborations; Complex; Cyclic GMP; Cyclic Nucleotides; Data; EphB2 Receptor; Epithelial Cells; Epithelium; Gated Ion Channel; Growth; Heart; Human Cloning; Ion Channel; Ions; Knowledge; Ligands; Liquid substance; Malignant Neoplasms; Measures; Mediating; Methods; Molecular; Mutagenesis; Oocytes; Organ; Outcome; Pathway interactions; Peripheral Nervous System; Permeability; Phosphorylation; Physiological; Property; Protein Biochemistry; Protein Kinase Interaction; Protein Tyrosine Kinase; Proteins; Proteomics; Rattus; Receptor Protein-Tyrosine Kinases; Regulation; Research; Research Personnel; Role; Signal Transduction; Site; Site-Directed Mutagenesis; Sodium Chloride; Structure; Structure of choroid plexus; System; Testing; Therapeutic Intervention; Tissues; Vascular System; Water; Water Movements; Work; base; cyclic-nucleotide gated ion channels; human disease; innovation; insight; mutant; novel; patch clamp; phosphoric diester hydrolase; protein protein interaction; response; voltage; voltage clamp

DESCRIPTION (provided by applicant): Permeability to both water and cations through Aquaporin-1 (AQP1) channels suggests an impressive multifunctional capacity. These channels are essential for osmotic water movement, and potentially important for cGMP-dependent signaling in brain choroid plexus and other tissues. Sequence similarity between (AQP1) and cyclic-nucleotide-gated (CNG) channels implicates the carboxy (C-) terminus as the binding domain. Our central hypothesis is that cGMP binds to the C-terminus and gates cationic current through a central pore in AQP1, and that ion channel activity is further governed by protein-kinase interactions. We use patch clamp, voltage clamp, site-directed mutagenesis, proteomic and protein biochemistry methods to address fundamental properties of AQPI in an oocyte expression system, and in choroid plexus, which abundantly expresses AQP1. Solved crystal structure data for AQP1 allow the informed selection of regions for mutagenesis and further analysis. The first aim is to evaluate the role of conserved residues in the C-terminal domain of cloned human AQP1 in the response to cGMP. In collaboration with Dr. J. Karpen, an expert in CNG channels, we will test for alterations in binding and channel activity in wild type and mutant AQP1 channels using a photoactivated covalent ligand. The second aim is to locate the ion pore, suggested by preliminary data to be in the center of the tetramer at the four-fold axis of symmetry. The third aim is to assess the roles of receptor tyrosine kinase-mediated phosphorylation and protein-protein interaction with the ephrin receptor EphB2 in governing activity of AQP1 ion channels. The fourth aim is to determine potential physiological relevance by discovering whether an AQP1 ionic conductance is present in rat choroid plexus (primary cultures), a tissue in which native AQP1 is abundantly expressed. Our work was the first to show that AQP1 is a gated ion channel. This property of cGMP-dependent ion channel activity may be significant to signaling in the brain, peripheral nervous system, vascular system and heart, and may in part enable pathophysiological growth in cancer, since these are tissues in which AQP1 is expressed. Discovery of the fundamental properties of AQP1 channels may open opportunities for therapeutic intervention in human diseases involving fluid and salt imbalance in the brain and other organs.

描述（由申请人提供）：水通道蛋白-1（AQP 1）通道对水和阳离子的渗透性表明其具有令人印象深刻的多功能能力。这些通道对于渗透水运动是必需的，并且对于脑脉络丛和其他组织中的cGMP依赖性信号传导具有潜在的重要性。（AQP 1）和环核苷酸门控（CNG）通道之间的序列相似性暗示羧基（C-）末端作为结合域。我们的中心假设是cGMP结合到C-末端并通过AQP 1的中心孔门控阳离子电流，并且离子通道活性进一步受蛋白质-激酶相互作用的支配。我们使用膜片钳，电压钳，定点突变，蛋白质组学和蛋白质生物化学方法来解决AQPI在卵母细胞表达系统中的基本特性，并在脉络丛中大量表达AQP 1。AQP 1的解析晶体结构数据允许明智地选择用于诱变和进一步分析的区域。 第一个目的是评估克隆的人AQP 1的C-末端结构域中的保守残基在响应cGMP中的作用。与CNG通道专家J. Karpen博士合作，我们将使用光活化共价配体测试野生型和突变型AQP 1通道中结合和通道活性的变化。第二个目的是定位离子孔，初步数据表明，在四重对称轴的四聚体的中心。第三个目的是评估受体酪氨酸激酶介导的磷酸化和蛋白质-蛋白质相互作用与ephrin受体EphB 2在AQP 1离子通道活性的管理中的作用。第四个目的是确定潜在的生理相关性，发现是否AQP 1离子电导存在于大鼠脉络丛（原代培养），组织中，天然AQP 1是丰富的表达。 我们的工作是第一个表明AQP 1是一个门控离子通道。cGMP依赖性离子通道活性的这种性质可能对脑、外周神经系统、血管系统和心脏中的信号传导具有重要意义，并且可能部分地使癌症的病理生理学生长成为可能，因为这些是表达AQP 1的组织。AQP 1通道的基本特性的发现可能为涉及脑和其他器官中的液体和盐不平衡的人类疾病的治疗干预提供机会。

项目成果

Structure, function and translational relevance of aquaporin dual water and ion channels.

• DOI: 10.1016/j.mam.2012.02.001
• 发表时间: 2012-10
• 期刊: MOLECULAR ASPECTS OF MEDICINE
• 影响因子: 10.6
• 作者: Yool, Andrea J.;Campbell, Ewan M.
• 通讯作者: Campbell, Ewan M.

Aquaporin-1 expression and conventional aqueous outflow in human eyes.

• DOI: 10.1016/j.exer.2008.06.018
• 发表时间: 2008-10
• 期刊: EXPERIMENTAL EYE RESEARCH
• 影响因子: 3.4
• 作者: Stamer, W. Daniel;Chan, Darren W. H.;Conley, Shannon M.;Coons, Serena;Ethier, C. Ross
• 通讯作者: Ethier, C. Ross

Single amino acids in the carboxyl terminal domain of aquaporin-1 contribute to cGMP-dependent ion channel activation.

• DOI: 10.1186/1472-6793-3-12
• 发表时间: 2003-10-15
• 期刊: BMC physiology
• 作者: Boassa D;Yool AJ
• 通讯作者: Yool AJ

Dominant-negative suppression of big brain ion channel activity by mutation of a conserved glutamate in the first transmembrane domain.

通过第一跨膜域中保守谷氨酸的突变对大脑离子通道活性的显性负抑制。

• DOI: 10.3727/000000006781510688
• 发表时间: 2007
• 期刊: Gene expression
• 作者: Yool,AndreaJ

Tetraethylammonium block of water flux in Aquaporin-1 channels expressed in kidney thin limbs of Henle's loop and a kidney-derived cell line.

在亨利环的肾脏薄肢和肾脏衍生的细胞系中表达的水通道蛋白-1通道中水通量的四乙基铵块。

• DOI: 10.1186/1472-6793-2-4
• 发表时间: 2002
• 期刊: BMC physiology
• 作者: Yool, Andrea J;Brokl, Olga H;Pannabecker, Thomas L;Dantzler, William H;Stamer, W Daniel
• 通讯作者: Stamer, W Daniel