Conformational restriction of Tyr and Phe side chains in opioid peptides: Information about preferred and bioactive side-chain topology

Dirk Tourwé; Kris Verschueren; Anne Frycia; Peg Davis; Frank Porreca; Victor J. Hruby; Geza Toth; Hendrika Jaspers; Patricia Verheyden; Georges Van Binst

doi:10.1002/(sici)1097-0282(199601)38:1<1::aid-bip1>3.0.co;2-%23

Conformational restriction of Tyr and Phe side chains in opioid peptides: Information about preferred and bioactive side-chain topology

Dirk Tourwé, Kris Verschueren, Anne Frycia, Peg Davis, Frank Porreca, Victor J. Hruby, Geza Toth, Hendrika Jaspers, Patricia Verheyden, Georges Van Binst

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75 Scopus citations

Abstract

The side chain of Tyr and Phe was fixed into the gauche (-) or gauche (+) conformation by using the Tic or Htc structures, and into the trans conformation by using an aminobenzazepine-type (Aba) structure. When incorporated into dermorphin or deltorphin II, the Tic and Htc analogues all showed a large decrease in both μ and δ affinities and activities. Fixation of Phe³ in the trans rotamer resulted in a large increase in δ affinity in the dermorphin analogue, whereas in the [Aba³-Gly⁴] deltorphin II analogue, good δ affinity is maintained despite the removal of the Glu side chain. Whereas several authors propose a gauche (-) preferred conformation for the Phe³ side chain, these results suggest a trans conformation at the δ receptor. The use of these conformationally constrained residues for evaluating the preferred solution conformation in the flexible N-terminal tripeptide Tyr-D-Ala-Phe is illustrated. The ¹H-nmr parameters - chemical shift, temperature dependence, and nuclear Overhauser effects to the D-Ala² methyl protons in the different analogues - provide direct evidence to confirm the proposed sandwich conformation in the native peptides.

Original language	English (US)
Pages (from-to)	1-12
Number of pages	12
Journal	Biopolymers
Volume	38
Issue number	1
DOIs	https://doi.org/10.1002/(sici)1097-0282(199601)38:1<1::aid-bip1>3.0.co;2-%23
State	Published - 1996

ASJC Scopus subject areas

Biophysics
Biochemistry
Biomaterials
Organic Chemistry

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10.1002/(sici)1097-0282(199601)38:1<1::aid-bip1>3.0.co;2-%23

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Tourwé, D., Verschueren, K., Frycia, A., Davis, P., Porreca, F., Hruby, V. J., Toth, G., Jaspers, H., Verheyden, P., & Van Binst, G. (1996). Conformational restriction of Tyr and Phe side chains in opioid peptides: Information about preferred and bioactive side-chain topology. Biopolymers, 38(1), 1-12. https://doi.org/10.1002/(sici)1097-0282(199601)38:1<1::aid-bip1>3.0.co;2-%23

Tourwé, D, Verschueren, K, Frycia, A, Davis, P, Porreca, F, Hruby, VJ, Toth, G, Jaspers, H, Verheyden, P & Van Binst, G 1996, 'Conformational restriction of Tyr and Phe side chains in opioid peptides: Information about preferred and bioactive side-chain topology', Biopolymers, vol. 38, no. 1, pp. 1-12. https://doi.org/10.1002/(sici)1097-0282(199601)38:1<1::aid-bip1>3.0.co;2-%23

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abstract = "The side chain of Tyr and Phe was fixed into the gauche (-) or gauche (+) conformation by using the Tic or Htc structures, and into the trans conformation by using an aminobenzazepine-type (Aba) structure. When incorporated into dermorphin or deltorphin II, the Tic and Htc analogues all showed a large decrease in both μ and δ affinities and activities. Fixation of Phe3 in the trans rotamer resulted in a large increase in δ affinity in the dermorphin analogue, whereas in the [Aba3-Gly4] deltorphin II analogue, good δ affinity is maintained despite the removal of the Glu side chain. Whereas several authors propose a gauche (-) preferred conformation for the Phe3 side chain, these results suggest a trans conformation at the δ receptor. The use of these conformationally constrained residues for evaluating the preferred solution conformation in the flexible N-terminal tripeptide Tyr-D-Ala-Phe is illustrated. The 1H-nmr parameters - chemical shift, temperature dependence, and nuclear Overhauser effects to the D-Ala2 methyl protons in the different analogues - provide direct evidence to confirm the proposed sandwich conformation in the native peptides.",

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AU - Davis, Peg

AU - Porreca, Frank

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AU - Jaspers, Hendrika

AU - Verheyden, Patricia

AU - Van Binst, Georges

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N2 - The side chain of Tyr and Phe was fixed into the gauche (-) or gauche (+) conformation by using the Tic or Htc structures, and into the trans conformation by using an aminobenzazepine-type (Aba) structure. When incorporated into dermorphin or deltorphin II, the Tic and Htc analogues all showed a large decrease in both μ and δ affinities and activities. Fixation of Phe3 in the trans rotamer resulted in a large increase in δ affinity in the dermorphin analogue, whereas in the [Aba3-Gly4] deltorphin II analogue, good δ affinity is maintained despite the removal of the Glu side chain. Whereas several authors propose a gauche (-) preferred conformation for the Phe3 side chain, these results suggest a trans conformation at the δ receptor. The use of these conformationally constrained residues for evaluating the preferred solution conformation in the flexible N-terminal tripeptide Tyr-D-Ala-Phe is illustrated. The 1H-nmr parameters - chemical shift, temperature dependence, and nuclear Overhauser effects to the D-Ala2 methyl protons in the different analogues - provide direct evidence to confirm the proposed sandwich conformation in the native peptides.

AB - The side chain of Tyr and Phe was fixed into the gauche (-) or gauche (+) conformation by using the Tic or Htc structures, and into the trans conformation by using an aminobenzazepine-type (Aba) structure. When incorporated into dermorphin or deltorphin II, the Tic and Htc analogues all showed a large decrease in both μ and δ affinities and activities. Fixation of Phe3 in the trans rotamer resulted in a large increase in δ affinity in the dermorphin analogue, whereas in the [Aba3-Gly4] deltorphin II analogue, good δ affinity is maintained despite the removal of the Glu side chain. Whereas several authors propose a gauche (-) preferred conformation for the Phe3 side chain, these results suggest a trans conformation at the δ receptor. The use of these conformationally constrained residues for evaluating the preferred solution conformation in the flexible N-terminal tripeptide Tyr-D-Ala-Phe is illustrated. The 1H-nmr parameters - chemical shift, temperature dependence, and nuclear Overhauser effects to the D-Ala2 methyl protons in the different analogues - provide direct evidence to confirm the proposed sandwich conformation in the native peptides.

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Conformational restriction of Tyr and Phe side chains in opioid peptides: Information about preferred and bioactive side-chain topology

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