K Folkers, S Rosell, J Y Chu, L A Lu, P F Tang, A Ljungqvist
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引用次数: 13
摘要
在5年的时间里,对65种P (SP)物质的类似物进行了合成和生物测定,得到了拮抗剂[D-Arg1, d - trp7,9,Leu11]-SP,并将其命名为Spantide,被许多研究者用作“工具”。Spantide作为参考拮抗剂,设计了47种新的多肽,以获得更有效的抑制剂。设计强调D-Trp7、D-Trp9、D-Trp10、D-pClPhe10、Nle11、Leu11、Ile11和Met11等类似物。21 /47拮抗剂的效价优于Spantide,其中效果最好的[D-Arg1,D-Na1(5), d - trp7,9,Nle11]-SP,当拮抗剂浓度为10(-5)M时,需要增加255倍的SP浓度才能达到50%的最大效价;其效力约为Spantide的5倍。对于某些非肽和截断的类似物,但不是所有对,非肽可能比截断的对应物更有效。
Design and synthesis of antagonists of substance P.
Synthesis and bioassay of about 65 analogs of substance P (SP) over five years yielded the antagonist [D-Arg1,D-Trp7,9,Leu11]-SP, which was named Spantide, and which was used by many investigators as a "tool". Spantide served as a reference antagonist for the design of 47 new peptides toward the goal of more potent inhibitors. Designs emphasized analogs with D-Trp7, D-Trp9, D-Trp10, D-pClPhe10, Nle11, Leu11, Ile11 and Met11, etc. Twenty-one/47 antagonists were superior in potency to that of Spantide, the best was [D-Arg1,D-Na1(5), D-Trp7,9,Nle11]-SP which required a 255-fold increase in SP concentration to give 50% of the maximum response at a concentration of 10(-5)M of the antagonist; this potency is ca. 5 times that of Spantide. For certain, but not all pairs of undecapeptides and truncated analogs, the undecapeptides may be significantly more potent than the truncated counterparts.
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