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Assessment of Stereoselectivity of Trimethylphenylalanine Analogues of δ-Opioid [D-Pen2,D-Pen5]-Enkephalin (2000)

Witt, Ken A. ; Slate, Cheryl A. ; Egleton, Richard D. ; [et al.]

Oxford UK : Blackwell Science Ltd.

Journal of neurochemistry 75 (2000), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Abstract : [D-Pen2,D-Pen5]-Enkephalin (DPDPE) is an enzymatically stable δ-opioid receptor-selective peptide, which was modified by the trimethylation of the Phe4 residue to give β-methyl-2′,6′-dimethylphenylalanine (TMP), resulting in four conformations : (2R,3S)-β-Phe-DPDPE, (2R,3R)-β-Phe-DPDPE, (2R,3S)-β-Phe-DPDPE, and (2S,3R)-β-Phe-DPDPE. Synthesis was by solid-phase techniques using enantiomerically pure amino acids to give the four optically pure diastereoisomer peptides. The potency and selectivity (δ- versus μ-opioid receptor) were evaluated by radioreceptor binding in rat brain, with a μ/δ ratio decrease for all TMP conformations, compared with the parent compound (DPDPE). Octanol/buffer distribution analysis showed enhanced lipophilicity of all TMP forms, with a sixfold enhancement associated with (2S,3S)-TMP. In situ vascular perfusion in anesthetized rats showed a 1.6-fold (p 〈 0.01) increase in the ratio of brain uptake for (2S,3S)-TMP and a 1.5-fold (p 〈 0.01) decrease in uptake for (2R,3R)-TMP. Saturability of (2S,3S)-TMP was shown (p 〈 0.01) against 100 μM unlabeled DPDPE, showing a shared nondiffusionary transport system. P-glycoprotein affinity was shown in situ for the parent and (2S,3S)-TMP (p 〈 0.01). Protein binding capacity of the TMP compounds in rat plasma and in situ mammalian bovine serum albumin-Ringer showed (2R,3S)-TMP and (2S,3R)-TMP with the lowest degree of protein binding (p 〈 0.01), and (2S,3S)-TMP and (2R,3R)-TMP with comparable affinities to DPDPE. Analgesia, via intravenous administration, showed significantly reduced (p 〈 0.01) end effect and time course for (2R,3R)-TMP, (2R,3S)-TMP, and (2S,3R)-TMP as compared with DPDPE. These results demonstrate that topographical modification in a conformationally restricted peptide can significantly modulate potency and receptor selectivity, binding capacity, enzymatic stability, lipophilicity, P-glycoprotein affinity, and blood-brain barrier permeability, resulting in a change of bioavailability, and thereby provides insight for future peptide drug design.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1471-4159.2000.0750424.x

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Kinetics of isomerization for the proline helical forms of two oligoproline redox arrays by circular dichroic spectropolarimetry (1999)

Slate, Cheryl A. ; Binstead, Robert A. ; Meyer, Thomas J. ; [et al.]

Springer

International journal of peptide research and therapeutics 6 (1999), S. 61-69

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ISSN: 1573-3904

Keywords: biexponential kinetics ; proline helices ; substituted proline residues

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The kinetics of isomerization of the helical forms of three oligoprolines was determined by far-ultraviolet CD spectropolarimetry and kinetic analysis by singular value decomposition. ZRA (Pro3-X-Pro2-Y-Pro2-Z-Pro3) and ZRA2 (Pro7-X-Pro2-Y-Pro2-Z-Pro7) bear large redox-active substituents on proline residues X, Y, and Z, but P9 (Pro9) does not. All three peptides formed a stable proline-II helix in water. In acetonitrile, both ZRA2 and P9 were converted into a proline-I helical form but ZRA remained predominantly in the proline-II helical form. Evidently, in order to undergo substantial proline II→I isomerization, an oligoproline chain containing large substituents needs to have a segment of consecutive unsubstituted proline residues that is sufficiently long to form a stable proline helix. Biexponential kinetics (A→B, k1 = ∼3.3 × 10-4 s-1; B→C, k2 = ∼0.8 × 10-4 s-1) were observed for the proline II→I isomerization of ZRA2 and P9 in acetonitrile and for the proline I→II isomerization of ZRA2 in water, which provides evidence for the growth and decay of a major kinetic intermediate.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008819511721

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Kinetics of isomerization for the proline helical forms of two oligoproline redox arrays by circular dichroic spectropolarimetry (1999)

Slate, Cheryl A. ; Binstead, Robert A. ; Meyer, Thomas J. ; [et al.]

Springer

International journal of peptide research and therapeutics 6 (1999), S. 61-69

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ISSN: 1573-3904

Keywords: biexponential kinetics ; proline helices ; substituted proline residues

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Summary The kinetics of isomerization of the helical forms of three oligoprolines was determined by far-ultraviolet CD spectropolarimetry and kinetic analysis by singular value decomposition. ZRA (Pro3-X-Pro2-Y-Pro2-Z-Pro3) and ZRA2 (Pro7-X-Pro2-Y-Pro2-Z-Pro7) bear large redox-active substituents on proline residues X, Y, and Z, but P9 (Pro9) does not. All three peptides formed a stable proline-II helix in water. In acetonitrile, both ZRA2 and P9 were converted into a proline-I helical form but ZRA remained predominantly in the proline-II helical form. Evidently, in order to undergo substantial proline II→I isomerization, an oligoproline chain containing large substituents needs to have a segment of consecutive unsubstituted proline residues that is sufficiently long to form a stable proline helix. Biexponential kinetics (A→B, k1=∼3.3×10−4s−1; B→C, k2=∼0.8×10−4s−1) were observed for the proline II→I isomerization of ZRA2 and P9 in acetonitrile and for the proline I→II isomerization of ZRA2 in water, which provides evidence for the growth and decay of a major kinetic intermediate.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02443619

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