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1
Point mutation increases a form of the NK1 receptor with high affinity for neurokinin A and B and septide.点突变增加了一种对神经激肽A、B和七肽具有高亲和力的NK1受体形式。
Br J Pharmacol. 1998 Sep;125(2):393-401. doi: 10.1038/sj.bjp.0702070.
2
Radioiodinated substance P, neurokinin A, and eledoisin bind predominantly in NK1 receptors in guinea pig lung.放射性碘化P物质、神经激肽A和eledoisin主要结合于豚鼠肺中的NK1受体。
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3
Further evidence for the presence of "septide-sensitive" tachykinin binding sites in tissues possessing solely NK(1) tachykinin receptors.在仅拥有NK(1)速激肽受体的组织中存在“对septide敏感”的速激肽结合位点的进一步证据。
Biochem Biophys Res Commun. 2000 Apr 13;270(2):668-72. doi: 10.1006/bbrc.2000.2477.
4
Characterization of [3H]substance P binding sites in human skin.人皮肤中[3H]P物质结合位点的特性研究
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5
Identification in the NK1 tachykinin receptor of a domain involved in recognition of neurokinin A and septide but not of substance P.在NK1速激肽受体中鉴定出一个参与识别神经激肽A和七肽但不参与识别P物质的结构域。
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NK1 receptor-mediated endothelium-dependent relaxation and contraction with different sensitivity to post-receptor signaling in pulmonary arteries.NK1受体介导的肺动脉内皮依赖性舒张和收缩对受体后信号传导具有不同的敏感性。
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7
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8
Septide and neurokinin A are high-affinity ligands on the NK-1 receptor: evidence from homologous versus heterologous binding analysis.速激肽和神经激肽A是NK-1受体上的高亲和力配体:来自同源与异源结合分析的证据。
FEBS Lett. 1996 Dec 16;399(3):264-6. doi: 10.1016/s0014-5793(96)01337-3.
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Computational and experimental approaches to reveal the effects of single nucleotide polymorphisms with respect to disease diagnostics.揭示单核苷酸多态性对疾病诊断影响的计算方法和实验方法。
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3
Respiratory actions of tachykinins in the nucleus of the solitary tract: effect of neonatal capsaicin pretreatment.速激肽在孤束核中的呼吸作用:新生期辣椒素预处理的影响
Br J Pharmacol. 2000 Mar;129(6):1132-9. doi: 10.1038/sj.bjp.0703173.
4
Respiratory actions of tachykinins in the nucleus of the solitary tract: characterization of receptors using selective agonists and antagonists.速激肽在孤束核中的呼吸作用:使用选择性激动剂和拮抗剂对受体进行表征
Br J Pharmacol. 2000 Mar;129(6):1121-31. doi: 10.1038/sj.bjp.0703172.

点突变增加了一种对神经激肽A、B和七肽具有高亲和力的NK1受体形式。

Point mutation increases a form of the NK1 receptor with high affinity for neurokinin A and B and septide.

作者信息

Ciucci A, Palma C, Manzini S, Werge T M

机构信息

Menarini Ricerche S.p.A. Department of Pharmacology, Pomezia, Italy.

出版信息

Br J Pharmacol. 1998 Sep;125(2):393-401. doi: 10.1038/sj.bjp.0702070.

DOI:10.1038/sj.bjp.0702070
PMID:9786514
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1565622/
Abstract
  1. The binding modalities of substance P and neurokinin A on the wild type and Gly166 to-Cys mutant NK1 receptors expressed on CHO cells were investigated in homologous and heterologous binding experiments using both radiolabelled substance P and neurokinin A. 2. On the wild type NK1 receptor NKA displaces radiolabelled substance P with very low apparent affinity, despite its high-affinity binding constant (determined in homologous binding experiments). The Gly166 to-Cys substitution in the NK1 tachykinin receptor greatly enhances the apparent affinity of neurokinin A in competition for radiolabelled substance P, but it does not change the binding constant of neurokinin A. The mutation, thereby, eliminates the discrepancy between the low apparent affinity and the high binding constant of neurokinin A. 3. On the wild type receptor the binding capacity of neurokinin A is significantly smaller than that of substance P. In contrast, the two tachykinins bind to approximately the same number of sites on the mutant receptor. 4. Simultaneous mass action law analysis of binding data in which multiple radioligands were employed in parallel demonstrated that a one-site model was unable to accommodate all the experimental data, whereas a two-site model provided a dramatically better description. 5. These two receptor-sites display equally high affinity for substance P, while neurokinin A strongly discriminates between a high and a low affinity component. The binding affinities of neurokinin A are not affected by the mutation, which instead specifically alters the distribution between receptor sites in favour of a high affinity neurokinin A binding form. 6. The low apparent affinity and binding capacity of neurokinin A on the wild type receptor results from neurokinin A binding with high affinity only to a fraction of the sites labelled by substance P. The mutation increases the proportion of this site, and consequently enhances the apparent affinity and binding capacity of neurokinin A. 7. The binding modalities of septide-like ligands (i.e. neurokinin B, SP(6-11), SP-methyl ester) are affected similarly to neurokinin A and are better resolved into two sites. The mutation leaves the affinity of these ligands for the two receptor forms unchanged, but increases the fraction of high-affinity sites. On the other hand, the binding of non-peptide and peptide antagonists (SR140.333 and FK888) behaved similarly to substance P with a single high affinity site that is unaffected by the mutation. 8. These findings may suggest that the NK1 receptor exists in two different forms with similar affinity for substance P and NK1 antagonists, but with a high and a low affinity for neurokinin A and septide-like ligands. Hence, the Gly166 in the NK1 receptor would seem to control the distribution between a pan-reactive form and a substance P-selective form of the receptor.
摘要
  1. 利用放射性标记的P物质和神经激肽A,通过同源和异源结合实验,研究了P物质和神经激肽A在CHO细胞上表达的野生型及Gly166突变为Cys的突变型NK1受体上的结合模式。2. 在野生型NK1受体上,尽管神经激肽A具有高亲和力结合常数(在同源结合实验中测定),但其以极低的表观亲和力取代放射性标记的P物质。NK1速激肽受体中Gly166突变为Cys极大地增强了神经激肽A在竞争放射性标记P物质时的表观亲和力,但并未改变神经激肽A的结合常数。因此,该突变消除了神经激肽A低表观亲和力与高结合常数之间的差异。3. 在野生型受体上,神经激肽A的结合容量明显小于P物质。相反,在突变型受体上,这两种速激肽结合的位点数量大致相同。4. 对使用多种放射性配体并行进行的结合数据进行同时质量作用定律分析表明,单一位点模型无法拟合所有实验数据,而双位点模型能提供显著更好的描述。5. 这两个受体位点对P物质显示出同样高的亲和力,而神经激肽A在高亲和力和低亲和力成分之间有强烈区分。神经激肽A的结合亲和力不受该突变影响,相反,该突变特异性地改变了受体位点之间的分布,有利于神经激肽A的高亲和力结合形式。6. 神经激肽A在野生型受体上的低表观亲和力和结合容量是由于神经激肽A仅以高亲和力结合P物质标记位点的一部分。该突变增加了这个位点的比例,从而增强了神经激肽A的表观亲和力和结合容量。7. 类七肽配体(即神经激肽B、SP(6 - 11)、SP - 甲酯)的结合模式与神经激肽A受到类似影响,并且能更好地解析为两个位点。该突变使这些配体对两种受体形式的亲和力保持不变,但增加了高亲和力位点的比例。另一方面,非肽和肽拮抗剂(SR140.333和FK888)的结合与P物质类似,具有一个不受突变影响的单一高亲和力位点。8. 这些发现可能表明,NK1受体以两种不同形式存在,对P物质和NK1拮抗剂具有相似的亲和力,但对神经激肽A和类七肽配体具有高亲和力和低亲和力。因此,NK1受体中的Gly166似乎控制着受体的全反应形式和P物质选择性形式之间的分布。