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影响脑啡肽样肽作用于阿片受体的电子、空间和疏水因素。

Electronic, steric, and hydrophobic factors influencing the action of enkephalin-like peptides on opiate receptors.

作者信息

Do K Q, Fauchère J L, Schwyzer R, Schiller P W, Lemieux C

出版信息

Hoppe Seylers Z Physiol Chem. 1981 Jun;362(6):601-10. doi: 10.1515/bchm2.1981.362.1.601.

DOI:10.1515/bchm2.1981.362.1.601
PMID:6268518
Abstract

The requirements of opiate receptors for electronic, steric, and hydrophobic properties of the amino acids in Pos. 4 and 5 of enkephalin-like peptides were studied. A series of [D-Ala2]-enkephalins containing carboranylalanine, adamantylalanine, t-butylglycine and p-nitrophenylalanine were synthesized and their pharmacological activities in the guinea pig ileum and their naloxone displacement in rat brain homogenates determined. An electronegative (-E) aromatic character of the amino acid in Pos. 4 strongly enhanced potency, overruling steric effects. The enhancement was not caused by exceptional enzyme resistance. Amino acid in Pos. 5 contributed to potency mainly through its effect on overall hydrophobicity. The two C-terminal amino acids seem to function as potentiator and address elements in the enkephalins.

摘要

研究了阿片受体对脑啡肽样肽第4和第5位氨基酸的电子、空间和疏水性质的要求。合成了一系列含有碳硼烷丙氨酸、金刚烷丙氨酸、叔丁基甘氨酸和对硝基苯丙氨酸的[D-Ala2]-脑啡肽,并测定了它们在豚鼠回肠中的药理活性以及在大鼠脑匀浆中的纳洛酮置换情况。第4位氨基酸的电负性(-E)芳香特性强烈增强了效力,超过了空间效应。这种增强不是由特殊的酶抗性引起的。第5位氨基酸主要通过其对整体疏水性的影响来影响效力。脑啡肽中的两个C末端氨基酸似乎分别起到增强剂和定位元件的作用。

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