William S. Wire scite author profile

A series of conformationally restricted, cyclic octapeptides containing a conformationally stable tetrapeptide sequence related to somatostatin, -Tyr-D-Trp-Lys-Thr-, as a template, were designed and synthesized with the goal of developing highly potent and selective mu opioid antagonists with minimal or no somatostatin-like activity. Three distinct structures of the peptide became targets of chemical modifications and constraints; the N- and C-terminal amino acids and the cyclic 20-membered ring moiety. Based on the conformational analysis of active and inactive analogues of the parent peptide D-Phe1-Cys2-Tyr3-D-Trp4-Lys5-Thr6-Pen7+ ++-Thr8-NH2, CTP (Kazmierski, W.; Hruby, V. J. Tetrahedron 1988, 44, 697-710), we designed analogues to include the tetrahydroisoquinolinecarboxylate (Tic) moiety as the N-terminal amino acid instead of D-Phe, since Tic can exist only as a gauche (-) or a gauche (+) conformer. In this series, the following peptides were synthesized and pharmacologically evaluated: D-Tic-Cys-Tyr-D-Trp-Lys-Thr-Pen-Thr-NH2 (TCTP), D-Tic-Cys-Tyr-D-Trp-Orn-Thr-Pen-Thr-NH2 (TCTOP), and D-Tic-Cys-Tyr-D-Trp-Arg-Thr-Pen-Thr-NH2 (TCTAP). In rat brain membrane opioid radioligand binding assays, all three peptides displayed high affinity for mu opioid receptors (IC50 = 1.2, 1.4, 1.2 nM, respectively), and exceptional mu vs delta opioid receptor selectivity: 7770, 11,396, and 1060, respectively. TCTOP and TCTAP also possess exceptional mu vs somatostatin receptor selectivity: 14,574 and 28,613, respectively. In the peripheral in vitro GPI bioassay, TCTP, TCTOP, and TCTAP were highly effective antagonists of the potent mu opioid receptor agonist PL017, with pA2 = 8.69 for TCTAP, 8.10 for TCTP, and 7.38 for TCTOP. Our results show that a 10-fold higher affinity and selectivity for mu opioid receptors (in both central and peripheral studies) over delta and somatostatin receptor was gained as a result of the D-Tic1 substitution. These three peptides, TCTP, TCTOP, and TCTAP, are the most potent and selective mu opioid antagonists known. CTP has been shown to possess prolonged biological action, much longer than that of naloxone. This renders these analogues potentially useful ligands for investigating the physiological functions of the mu opioid receptor. Analogues of TCTP in which the 20-membered disulfide ring was contracted by deletion of D-Trp4, and/or Lys5, and/or Thr6 led to compounds with greatly reduced potency at the mu opioid receptor.(ABSTRACT TRUNCATED AT 400 WORDS)

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Induction of Protective Immunity against Herpes Simplex Virus with DNA Encoding the Immediate Early Protein ICP 27

Manickan¹,

Yu²,

Rouse³

et al. 1995

Viral Immunology

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Using a mouse zosteriform model that mimics human herpes simplex virus (HSV) infection in several aspects, the effectiveness of plasmid DNA encoding the immediate early protein ICP 27 was evaluated as a vaccine. Animals were immunized intramuscularly twice with DNA, then either challenged with virus or killed, and the nature of the immune response induced was measured. After intramuscular injection with plasmid DNA encoding ICP 27 (pc-ICP 27), solid protection was evident in 70-80% of mice and the lesions were delayed in the remaining animals. Immune splenocytes obtained from pc-ICP 27 immune mice showed HSV-specific lymphoproliferation, MHC-class I restricted cytotoxic T-lymphocyte (CTL) activity, and type 1 cytokine production. These animals also exhibited delayed-type hypersensitivity (DTH) reactions. Adoptive transfer studies conducted on syngeneic nude mice revealed that those recipients of immune CD4+ T cells, but not CD8+ T cells, were protected from subsequent HSV-1 (strain 17) challenge. Thus pc-ICP 27 DNA immunization protected the mice principally by CD4+ T cells and it is likely that these cells were Th-1 type because only type 1 cytokines were detectable after in vitro antigen stimulation. Our results indicate the potential value of DNA encoding nonstructural viral proteins as vaccines against HSV.

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Design and synthesis of highly potent and selective cyclic dynorphin A analogs

Kawasaki

Knapp²,

Kramer³

et al. 1990

J. Med. Chem.

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We have designed and synthesized several cyclic disulfide-containing peptide analogues of dynorphin A (Dyn A) which are conformationally constrained in the putative "address" segment of the opioid ligand. Several of these Dyn A analogues exhibit unexpected selectivities for the kappa and mu opioid receptors(s) of the central vs peripheral nervous systems. Thus, incorporation of conformational constraint in the putative "address" segment of Dyn A analogues has resulted in the kappa/mu opioid receptor ligands [Cys5,Cys11]Dyn A1-11-NH2 (1) and [Cys5,Cys11,D-Ala8]Dyn A1-11-NH2 (2), which possess high kappa and mu opioid receptor affinities centrally (guinea pig brain, GPB), but only weak activity at peripheral kappa and mu opioid receptors (guinea pig ileum, GPI). On the other hand, [Cys8,Cys13]Dyn A1-13-NH2 and [D-Cys8,D-Cys13]Dyn A1-13-NH2 (5) display high kappa potencies and selectivities at the peripheral (GPI) but not at the central (GPB) kappa opioid receptor. The lack of correlation between the pharmacological profiles observed in smooth muscle and in the brain binding assays suggests the existence of different subtypes of the kappa and mu opioid receptors in the brain and peripheral nervous systems.

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Design and synthesis of highly potent and selective cyclic dynorphin A analogs. 2. New analogs

Kawasaki¹,

Knapp²,

Kramer³

et al. 1993

J. Med. Chem.

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We have designed and synthesized several cyclic disulfide-containing peptide analogs of dynorphin A (Dyn A) which are conformationally constrained in the putative "address" segment of the opioid ligand. Several of these Dyn A analogs exhibit unexpected apparent selectivities for the kappa and mu opioid receptors(s) of the central vs peripheral nervous systems. Thus, incorporation of conformational constraint in the putative "address" segment of Dyn A analogs has resulted in the kappa/mu opioid receptor ligands [L-Pen5,Cys11]Dyn A1-11-NH2 (4), [Cys5,Cys10]Dyn A1-11-NH2 (5), [Cys5,Cys9]DynA1-11-NH2 (6), and [Cys4,Cys9,Arg10]DynA1-11-NH2(7). All of these analogs possess high kappa and mu opioid receptor affinities for the central receptor (guinea pig brain), but effect only weak potency at peripheral kappa and mu opioid receptors (GPI). In fact cyclic dynorphin A analog 4 shows> 19,000-fold differences between central kappa opioid affinity and potency in the guinea pig ileum (GPI). Additionally analog 4 is not an antagonist in the GPI, suggesting possible receptor differences between these sites. Substitution of Tyr1 by Phe1 in the cyclic 1-11 series gave the analog [Phe1,Cys5,Cys11]Dyn A1-11-NH2 (1) that was surprisingly potent in the guinea pig brain binding assay (IC50 = 15.1 nM) at the kappa receptor, but was inactive in the GPI and mouse vas deferens bioassays. D-Ala2 and Tic4 analogs of 1 had lower affinity at brain kappa receptors and had very weak potencies in the GPI and MVD bioassays. On the other hand, [Cys6,Cys10]DynA1-11-NH2 (8), [Cys8,D-Cys13]DynA1-13-NH2 (9), [D-Cys8,D-Cys12]DynA1-13-NH2 (10), and [D-Pro10,Cys5,Cys13]-Dyn A1-13-NH2 (11) were surprisingly potent in the GPI bioassay, though considerable apparent selectivity for central receptors is still retained. The apparent lack of correlation between the pharmacological profiles observed in smooth muscle and in the brain binding assays, particularly with 1 and 4, may suggest the existence of different subtypes of the kappa and mu opioid receptors in the brain and peripheral systems.

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Differentiation between rat brain and mouse vas deferens δ opioid receptors

Vaughn¹,

Wire²,

Davis³

et al. 1990

European Journal of Pharmacology

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William S. Wire

Design and synthesis of somatostatin analogs with topographical properties that lead to highly potent and specific .mu. opioid receptor antagonists with greatly reduced binding at somatostatin receptors

Induction of Protective Immunity against Herpes Simplex Virus with DNA Encoding the Immediate Early Protein ICP 27

Design and synthesis of highly potent and selective cyclic dynorphin A analogs

Design and synthesis of highly potent and selective cyclic dynorphin A analogs. 2. New analogs

Differentiation between rat brain and mouse vas deferens δ opioid receptors

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