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SYNTHETIC CHEMISTRY AND PHARMACOLOGY

合成化学与药理学

基本信息

批准号：
6495086
负责人：
PETER W SCHILLER
金额：
$ 18.07万
依托单位：
WEILL MEDICAL COLL OF CORNELL UNIV
依托单位国家：
美国
项目类别：
财政年份：
2001
资助国家：
美国
起止时间：
2001-09-01 至 2002-08-31
项目状态：
已结题

项目摘要

We propose to develop novel opioid peptide analogs and derivatives with minimal side effects for use in obstetric analgesia. The structural characteristics of the new compounds should be such that they (i) retain high selectivity for either mu or delta opioid receptors, (ii) are able to penetrate the blood-brain barrier (BBB) (systemic administration) or the dura mater (epidural administration), and (iii) cannot cross the placental barrier (PB). It is expected that analgesics with this kind of profile may be discovered through structural modifications that produce considerable variation in the physico-chemical properties of already existing, receptor-selective opioid peptides. As parent peptides we will use four mu-selective opioid tetra-and dipeptide agonists and two novel dipeptide delta agonists, all of which were recently developed in the P.I.'s laboratory. We intend to achieve better penetration of the BBB by rendering the peptides more lipophilic (passage via passive diffusion) or by increasing the number of positive charges they carry (passage via non- specific, absorptive endocytosis). It is expected that a certain degree of lipophilicity and/or a certain number and distribution of positive charges may enable a peptide analog to cross the BBB but not the PB. Lipophilicity will be enhanced through incorporation of highly hydrophobic, artificial amino acids into the peptide and/or attachment of lipophilic moieties to end groups, whereas positive charges will be introduced through N- or C- terminal extension with basic amino acids and/or through peptide bond reductions or reversals. The opioid receptor affinities and selectivities of the new analogs will be determined in binding assays based on displacement of mu-, delta- and k-selective radio-ligands from rat brain or guinea pig membrane binding sites. Opioid agonist contractions of the guinea pig ileum and of the vase deferentia of the mouse, rat, hamster and rabbit. The relative stability of the analogs against enzymatic degradation (rat brain peptidases) will be examined. Analgesic activities of the compounds will be determined in the mouse writhing assay, a test model permitting the detection of both peripheral and central atinocipeption, and in the mouse hot plate test which detects only centrally mediated analgesic effects. Promising compounds will be synthesized on a larger scale for pharmacological and pharmacokinetic studies using chronically-instrumented pregnant sheep model to be carried out in Dr. Szeto's laboratory. The same compounds will also be prepared in deuterated form as standards for quantitative MS analyses to be performed in Dr. Desiderio's laboratory.

我们建议开发新的阿片肽类似物和衍生物用于产科止痛的副作用最小。结构性的新化合物的特性应使它们(I)保持对Mu或Delta阿片受体具有高选择性，(Ii)能够穿透血脑屏障(BBB)(全身给药)或硬膜外注射(硬膜外注射)，以及(Iii)不能穿过胎盘屏障(PB)。预计具有这种特征的止痛药可能是通过结构修改发现的已经存在的物理化学性质的相当大的变化现有的受体选择性阿片肽。作为母体多肽，我们将使用四种MU选择性阿片类四肽和二肽激动剂和两种新的二肽三角洲激动剂，所有这些都是最近在 P.I.S实验室。我们打算通过以下方式更好地渗透血脑屏障使多肽更具亲脂性(通过被动扩散)或通过增加它们携带的正电荷的数量(通过非特异的、可吸收的内吞作用)。预计会有一定程度的亲油性和/或一定数量和分布的正电荷可以使多肽类似物穿过血脑屏障，但不能穿过PB。亲脂性将通过加入高度疏水的人造氨基酸进入多肽和/或亲脂性部分附着到端基，而正电荷将通过N-或C- 带有碱性氨基酸和/或通过肽键的末端延伸减少或逆转。阿片受体亲和力和选择性的新类似物将在结合分析中确定，基于 Mu、Delta和K选择性放射性配体在大鼠脑内的置换或豚鼠细胞膜结合部位。阿片类激动剂收缩豚鼠回肠和花瓶输精小鼠、大鼠、仓鼠和兔子。类似物对酶的相对稳定性将检测降解(大鼠脑多肽酶)。止痛活性的化合物将在小鼠扭体试验中确定，这是一种测试允许同时检测外周和中央的型号抑制，并在小鼠热板试验中仅检测到中枢介导的止痛作用。前景看好的化合物将是更大规模的药理和药代动力学合成慢性仪器化妊娠绵羊模型的研究在司徒博士的实验室里。同样的化合物也将在作为进行定量MS分析的标准的氢化形式在德西德里奥博士的实验室里。