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TLQP-21 and C3aR, a Novel Receptor/Ligand Interaction in Neuropathic Pain

TLQP-21 和 C3aR，神经性疼痛中的新型受体/配体相互作用

基本信息

批准号：
9282731
负责人：
LYUDMILA H VULCHANOVA
金额：
$ 33.18万
依托单位：
UNIVERSITY OF MINNESOTA
依托单位国家：
美国
项目类别：
财政年份：
2014
资助国家：
美国
起止时间：
2014-06-01 至 2019-05-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/9282731
关键词：
Ablation Address Afferent Neurons Antibodies Area Astrocytes Attenuated Behavioral Binding Brain C3AR1 gene Complement 3a Data Development Disease Genetic Hyperalgesia Hypersensitivity Imagery Knowledge Lead Ligands Maintenance Mediating Mediator of activation protein Messenger RNA Microglia Molecular Neuraxis Neuronal Plasticity Neurons Neuropeptides Pain Peptides Perception Peripheral Pharmacology Publishing Reporting Research Role Signal Transduction Slice Small Interfering RNA Spinal Spinal Cord Spinal cord posterior horn System Testing Therapeutic VGF protein chronic pain dorsal horn extracellular immune activation in vivo injured knock-down nerve injury neurophysiology new therapeutic target novel novel strategies novel therapeutic intervention painful neuropathy public health relevance receptor response transmission process

项目摘要

DESCRIPTION (provided by applicant): Peripheral neuropathic pain results from maladaptive changes in the central nervous system that are initiated by abnormal activity of injured sensory neurons. Increasing evidence indicates that neuroplasticity in the spinal cord contributes to the development and maintenance of neuropathic pain. Our published and preliminary data indicate that peptides derived from the neurosecretory protein VGF (non-acronymic) may function as sensory neuron signals that initiate and maintain sensitization of spinal neurons after nerve injury [3]. The proposed studies will focus on the spinal signaling mechanisms of the VGF-derived peptide TLQP-21 and will build upon the identification this year of C3aR1 (complement 3a receptor) as a receptor for TLQP-21. Our preliminary data show that endogenous TLQP-21 contributes to nerve injury-induced hypersensitivity and that TLQP-21 induced hyperalgesia is blocked by C3aR1 inhibition. These findings implicate C3aR1 as a novel therapeutic target for the inhibition of spinal neuropathic pain transmission. The objective of this application is to establish the TLQP21/C3aR1 system as an essential functional component of neuropathic pain. The central hypothesis of this proposal is that TLQP-21 activation of C3aR1 in dorsal horn of spinal cord establishes and maintains neuropathic pain. Specific aim 1 will test the hypothesis that the spinal effects of TLQP-21 are mediated by C3aR1 and that C3aR1 is involved in the establishment of neuropathic pain. The proposed studies will (1) characterize pharmacologically the ligand-receptor relationship of TLQP-21 and C3aR1 in spinal cord, (2) determine whether the spinal effects of TLQP-21 are dependent on C3aR1 activation, and (3) determine whether C3aR1 contributes to behavioral signs of neuropathic pain. Specific aim 2 will test the hypothesis that nerve injury increases expression of C3aR1 in neurons, microglia, and/or astrocytes. These studies will examine the effects of nerve injury on spinal C3aR1 using (1) expression analysis, and (2) antibody- independent visualization of TLQP-21/C3aR1 binding in dorsal horn. Specific aim 3 will address the hypothesis that neurophysiological responses to TLQP-21/C3aR1 activation in dorsal horn are enhanced after nerve injury. These studies will examine the effects of nerve injury on (1) TLQP-21 modulation of neuronal activity in dorsal horn using in vivo extracellular recording, and (2) TLQP-21 evoked Ca2+ transients in spinal cord slices. At the completion of these studies we will have determined the relationship of TLQP-21 to C3aR1 and their role in the development and maintenance of neuropathic pain. Such information will have a significant impact because it will define the TLQP-21/C3aR1 as a potential pharmacotherapeutic target for neuropathic pain. The knowledge acquired from this research will greatly advance the field of chronic pain and may extend to other therapeutic areas related to neuroplasticity.

描述（由申请人提供）：周围神经性疼痛是由受损感觉神经元异常活动引发的中枢神经系统的不适应变化引起的。越来越多的证据表明，脊髓的神经可塑性有助于神经性疼痛的发展和维持。我们发表的和初步的数据表明，神经分泌蛋白VGF衍生的肽可能作为感觉神经元信号，在神经损伤[3]后启动和维持脊髓神经元的致敏。拟议的研究将集中于vgf衍生肽TLQP-21的脊髓信号传导机制，并将建立在今年C3aR1（补体3a受体）作为TLQP-21受体的基础上。我们的初步数据表明，内源性TLQP-21参与神经损伤诱导的过敏反应，TLQP-21诱导的痛觉过敏被C3aR1抑制所阻断。这些发现暗示C3aR1是抑制脊髓神经性疼痛传递的一个新的治疗靶点。本应用的目的是建立TLQP21/C3aR1系统作为神经性疼痛的基本功能组成部分。本研究的中心假设是TLQP-21在脊髓背角C3aR1的激活建立并维持神经性疼痛。特异性目的1将验证TLQP-21的脊柱效应是由C3aR1介导的，并且C3aR1参与神经性疼痛的建立。拟开展的研究将(1)从药理学上表征TLQP-21和C3aR1在脊髓中的配体受体关系，(2)确定TLQP-21对脊髓的作用是否依赖于C3aR1的激活，以及(3)确定C3aR1是否有助于神经性疼痛的行为体征。特异性目标2将验证神经损伤增加神经元、小胶质细胞和/或星形胶质细胞中C3aR1表达的假设。这些研究将通过(1)表达分析和(2)抗体独立可视化TLQP-21/C3aR1在背角结合来研究神经损伤对脊髓C3aR1的影响。具体目的3将解决神经损伤后对TLQP-21/C3aR1激活的神经生理反应增强的假设。这些研究将研究神经损伤对(1)TLQP-21对背角神经元活动的调节，以及(2)TLQP-21在脊髓切片中诱发Ca2+瞬态的影响。在这些研究完成后，我们将确定TLQP-21与C3aR1的关系及其在神经性疼痛的发展和维持中的作用。这些信息将产生重大影响，因为它将TLQP-21/C3aR1定义为神经性疼痛的潜在药物治疗靶点。从这项研究中获得的知识将极大地推进慢性疼痛领域，并可能扩展到与神经可塑性相关的其他治疗领域。