Cellular Pharmacology of Kappa Opiod Receptor

Kappa 阿片受体的细胞药理学

基本信息

批准号：
8459584
负责人：
LEE-YUAN LIU-CHEN
金额：
$ 27.66万
依托单位：
TEMPLE UNIV OF THE COMMONWEALTH
依托单位国家：
美国
项目类别：
财政年份：
2004
资助国家：
美国
起止时间：
2004-05-01 至 2014-04-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8459584
关键词：
14-3-3 Proteins ATP phosphohydrolase Abbreviations Absence of pain sensation Adenylate Cyclase Adrenergic Receptor Affect Agonist Amino Acids Anabolism Anti-Anxiety Agents Applications Grants Autophagocytosis Binding Binding Proteins Brefeldin A C-terminal Cell Line Cell Surface Receptors Cell membrane Cell surface Cells Cellular biology Chemicals Chinese Hamster Ovary Cell Coat Protein Complex I Coatomer Protein Cocaine Complementary DNA Coupled Cyclodextrins Diuresis Dominant-Negative Mutation Down-Regulation Dynorphin A Ear Embryo Endocytosis Pathway Endoplasmic Reticulum Endosomes Enhancers Epitopes Equilibrium Event Familiarity Family G Protein-Coupled Receptor Genes G-Protein-Coupled Receptors GTP-Binding Proteins Glutathione S-Transferase Golgi Apparatus Hemagglutinin Horseradish Peroxidase Human Immune response Kidney Light Lipids Lysosomes MAP Kinase Gene Masks Mediating Membrane Microtubule-Associated Proteins Mitogen-Activated Protein Kinases Modification Molecular Chaperones Mus N-ethylmaleimide-sensitive protein Neurotensin Receptors Neurotransmitters Opioid Opioid Receptor Pain Pathway interactions Peptides Pertussis Toxin Pharmaceutical Preparations Pharmacology Phosphoproteins Physiological Play Polyacrylamide Gel Electrophoresis Prostaglandin Receptor Protein Family Proteins Proto-Oncogene Proteins c-raf Quality Control Rattus Recycling Regulation Research Rhodopsin Role Signal Transduction Signaling Molecule Sodium Dodecyl Sulfate-PAGE Sorting - Cell Movement Specificity Stimulus Tail Techniques Testing Transcription Coactivator Transmembrane Domain Visceral Water Yeasts base craving delta opioid receptor dysphoria ezrin glycosylation golgi associated, gamma adaptin homologous, ADP-ribosylation factor interacting protein in vivo insight member moesin mu opioid receptors mutant natural hypothermia novel programs protein complex radixin protein receptor receptor binding receptor expression research study response sodium-hydrogen exchanger regulatory factor sortilin trafficking trans-Golgi Network

项目摘要

The ¿ opioid receptor (KOPR) is one of the three major types (¿, ¿ and ¿) of opioid receptors that mediate effects of opioids in vivo. Activation of KOPR produces analgesia, dysphoria, water diuresis, hypothermia and modulation of immune responses. KOPR antagonists may be potentially useful for curbing cocaine craving and as anti-depressants and anti-anxiety agents. KOPR, a member of the 7TMR family, is coupled through pertussis toxin-sensitive G proteins to a variety of effectors. For 7TMRs. the capacity of agonists to modulate downstream signaling molecules depends on the availability of the receptors on cell surface. The number of cell surface 7TMRs reflects a balance between biosynthesis and endocytosis pathways. The post-activation endocytic events have been well-documented; however, regulation along the biosynthesis pathway is much less understood. The focus of this grant application is to characterize the regulation of the KOPR trafficking along the biosynthesis pathway, in particular by the proteins GEC1, sortilin and 14-3-3 proteins, which we found to interact with the KOPR and to be involved in KOPR export trafficking. The central hypothesis is that the export trafficking is regulated by molecules interacting with the KOPR. The specific aims are as follows. (1) To delineate mechanisms underlying GEC1-promoted expression and trafficking of the KOPR. The hypothesis that GEC1 enhances KOPR expression by enhancing ATPase activity of NSF, but not by membrane association by lipid conjugation will be tested. (2) To investigate the role of 14-3-3 in the trafficking and cellular pharmacology of the KOPR. The hypothesis is that 14-3-3 proteins bind to KOPR C-terminal domain and/or i3 loop, which masks COPI binding, allowing the KOPR to sort to plasma membranes. (3) To examine the interaction of the KOPR with sortilin and its functional consequences. The hypothesis to be tested is that sortilin binding to the KOPR sorts the receptor to endosomes and lysosomes and this represents a novel post-ER quality control mechanism. We will also examine if the interactions of the KOPR with these proteins affect signaling and regulation. The proposed studies will provide better understanding of cell biology of the KOPR and provide mechanistic insights into regulation of export of the KOPR. In addition, such understanding will have important implications for other membrane bound receptors since these regulatory mechanisms of export are likely to be applicable to some other proteins.

«阿片受体（KOPR）是介导的三种主要类型（�，€和€）之一阿片类药物在体内的作用。 Kopr的激活产生镇痛，烦躁不安，水利尿，体温过低和免疫反应的调节。 KOPR拮抗剂可能对可卡因渴望有可能有用并作为抗抑郁药和抗焦虑药。 Kopr是7TMR家族的成员，耦合百日咳毒素敏感的G蛋白具有各种作用。对于7TMR。激动剂调节的能力下游信号分子取决于接收器在细胞表面上的可用性。数量细胞表面7TMR反映了生物合成和内吞作用途径之间的平衡。激活后内吞事件已得到充分记录；但是，沿着生物合成途径的调节很大不了解。该赠款申请的重点是表征对Kopr贩运的监管沿着生物合成途径，特别是蛋白质GEC1，Tortilin和14-3-3蛋白，我们发现与Kopr相互作用并参与KOPR出口贩运。中心假设是出口运输受到与KOPR相互作用的分子调节。具体目标如下。（1）描绘了KOPR的GEC1促进表达和运输的基础机制。假设GEC1通过增强NSF的ATPase活性增强KOPR的表达，但不是通过将测试通过脂质结合的膜关联。（2）调查14-3-3在贩运中的作用和KOPR的细胞药理学。假设是14-3-3蛋白与KOPR C末端结合域和/或i3循环，掩盖了COPI结合，从而使Kopr分类为质膜。（3）到检查KOPR与Tortilin及其功能后果的相互作用。假设是测试的是与Kopr结合接收器与内体和溶酶体的结合，这是代表一种新型的后质量控制机制。我们还将检查KOPR的相互作用是否这些蛋白质会影响信号传导和调节。拟议的研究将为您更好地理解 KOPR的细胞生物学，并为调节KOPR的调节提供了机械见解。此外，这样的理解将对其他膜约束接收器具有重要意义出口的调节机制可能适用于其他某些蛋白质。