Abstract

The advent of combinatorial libraries composed of literally tens of millions of compounds in formats permitting the rapid identification of individual compounds offers an unprecedented opportunity for the development of new, highly active and exquisitely selective medications. While the three known opioid receptors (mu, delta and kappa) all regulate the perception of pain, they each differ in the type of pain inhibited, the non-analgesic functions mediated by these receptors, and their drug abuse potential. The well-characterized properties and differences in these three related receptors and the availability of receptor specific in vitro assay systems are ideally suited for exploitation by the combinatorial methods that have been developed by the principal investigator's laboratory. The nine different combinatorial libraries tested in the previously funded efforts have enabled the identification of over 30 new opioid receptor specific compounds, many of which were unlikely to have been identified by any other available methods. Of the compounds identified, approximately 75% were found to be agonists. A number of these compounds have been examined for in vivo activities and one of them, a highly active kappa selective agonist, has been tested in a primate model. There are now more than 40 different low molecular weight heterocyclic, acyclic, peptidomimetic and peptide combinatorial libraries available at the applicant organization. These will greatly facilitate the further identification and development of new opioid ligands as analgesics having central or peripheral agonist or antagonist activities. The libraries available for testing now include 350 million peptides, 30 million peptidomimetics and over 4 million low molecular weight acyclic and heterocyclic compounds, including indole-imidazoles, quinazolinones, and bicyclic guanidines. The focus of the proposed work will be to use these libraries, as well as libraries of globally fluorescent compounds, to identify agonists and antagonists of the mu, delta and kappa opioid receptors as therapeutics for the management of pain and the amelioration of cravings associated with addiction.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Project (R01)
Project #
5R01DA009410-06
Application #
6515531
Study Section
Human Development Research Subcommittee (NIDA)
Program Officer
Hillery, Paul
Project Start
1995-05-01
Project End
2004-03-31
Budget Start
2002-04-01
Budget End
2004-03-31
Support Year
6
Fiscal Year
2002
Total Cost
$284,980
Indirect Cost

  Institution

Name
Torrey Pines Institute for Molecular Studies
Department
Type
DUNS #
605758754
City
San Diego
State
CA
Country
United States
Zip Code

  Publications

Yongye, Austin B; Appel, Jon R; Giulianotti, Marc A et al. (2009) Identification, structure-activity relationships and molecular modeling of potent triamine and piperazine opioid ligands. Bioorg Med Chem 17:5583-97
Houghten, Richard A; Pinilla, Clemencia; Giulianotti, Marc A et al. (2008) Strategies for the use of mixture-based synthetic combinatorial libraries: scaffold ranking, direct testing in vivo, and enhanced deconvolution by computational methods. J Comb Chem 10:3-19
Houghten, Richard A; Dooley, Colette T; Appel, Jon R (2006) In vitro and direct in vivo testing of mixture-based combinatorial libraries for the identification of highly active and specific opiate ligands. AAPS J 8:E371-82
Hoesl, Cornelia E; Ostresh, John M; Houghten, Richard A et al. (2006) Solid phase synthesis of 3,4,7-trisubstituted 4,5,8,9-tetrahydro-3H-imidazo[1,2-a][1,3,5]triazepin-2(7H)-thiones and N-alkyl-4,5,7,8-tetrahydro-3H-imidazo[1,2-a][1,3,5]triazepin-2-amines. J Comb Chem 8:127-31
Hensler, Mary E; Bernstein, Gregory; Nizet, Victor et al. (2006) Pyrrolidine bis-cyclic guanidines with antimicrobial activity against drug-resistant Gram-positive pathogens identified from a mixture-based combinatorial library. Bioorg Med Chem Lett 16:5073-9
Nefzi, Adel; Ostresh, John M; Appel, Jon R et al. (2006) Identification of potent and highly selective chiral tri-amine and tetra-amine mu opioid receptors ligands: an example of lead optimization using mixture-based libraries. Bioorg Med Chem Lett 16:4331-8
Nefzi, Adel; Hoesl, Cornelia E; Pinilla, Clemencia et al. (2006) Synthesis of platinum(II) chiral tetraamine coordination complexes. J Comb Chem 8:780-3
Nefzi, Adel; Santos, Rodegar T (2005) Efficient approaches toward the solid-phase synthesis of new heterocyclic azoniaspiro ring systems: synthesis of tri- and tetrasubstituted 10-oxo- 3,9-diaza-6-azoniaspiro[5.5]undecanes. J Org Chem 70:9622-5
Hoesl, Cornelia E; Nefzi, Adel; Houghten, Richard A (2004) Halogenoalkyl isocyanates as bifunctional reagents in an Aza-Wittig/heterocyclization reaction on the solid phase: efficient entry into new tetracyclic benzimidazole systems. J Comb Chem 6:220-3
Nefzi, Adel; Ostresh, John M; Yu, Yongping et al. (2004) Combinatorial chemistry: libraries from libraries, the art of the diversity-oriented transformation of resin-bound peptides and chiral polyamides to low molecular weight acyclic and heterocyclic compounds. J Org Chem 69:3603-9

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