Cocaine is responsible for more serious intoxications and deaths than any other illicit drug, yet no effective treatments for cocaine abuse are currently available. One strategy for developing effective anti-cocaine agents is to block cocaine's access to its target proteins. Of the myriad of sites through which cocaine can act, sigma receptors are among the most promising targets for drug development. In earlier studies, our group synthesized and identified over two dozen sigma receptor antagonists that prevented cocaine-induced convulsions, lethality, and locomotor activity. The effective compounds are all analogs of the synthetic ligand BD1008, and four series of modifications to the chemical structure of this compound were evaluated in our previous investigations: 1) N-alkyl substitutions, 2) pyrrolidinyl ring modifications, 3) aryl monosubstitutions, and 4) conformational restrictions. As a result, we have identified specific modifications from each synthetic series that are most effective against cocaine-induced behaviors. However, compounds that incorporate combinations of the best structural features have yet to be made and tested. We hypothesize that by combining the best structural features of our existing compounds, optimal compounds with enhanced anticocaine actions can be achieved. Thus, the specific aims of the project are: 1) to develop novel ligands with pharmacophoric potential by combining optimal structural features from our earlier sigma1 antagonists possessing anti-cocaine actions, 2) to confirm that similar to their predecessors, the novel compounds possess high affinity for sigma1 receptors but lack interactions with non-sigma sites, 3) to confirm that the novel compounds attenuate cocaine-induced behaviors, but do not produce unfavorable side effects that could compromise their clinical potential, and 4) to evaluate structure-activity relationships. It is anticipated that the results of this project will lead to the development of new and effective treatments for cocaine addiction and overdose.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Project (R01)
Project #
5R01DA013978-02
Application #
6522923
Study Section
Human Development Research Subcommittee (NIDA)
Program Officer
Kline, Richard
Project Start
2001-09-30
Project End
2004-08-31
Budget Start
2002-09-01
Budget End
2003-08-31
Support Year
2
Fiscal Year
2002
Total Cost
$287,441
Indirect Cost
Name
University of Oklahoma Health Sciences Center
Department
Pharmacology
Type
Schools of Pharmacy
DUNS #
937727907
City
Oklahoma City
State
OK
Country
United States
Zip Code
73117
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Nguyen, Linda; Kaushal, Nidhi; Robson, Matthew J et al. (2014) Sigma receptors as potential therapeutic targets for neuroprotection. Eur J Pharmacol 743:42-7
Matsumoto, Rae R; Nguyen, Linda; Kaushal, Nidhi et al. (2014) Sigma (?) receptors as potential therapeutic targets to mitigate psychostimulant effects. Adv Pharmacol 69:323-86
Seminerio, Michael J; Hansen, Rolf; Kaushal, Nidhi et al. (2013) The evaluation of AZ66, an optimized sigma receptor antagonist, against methamphetamine-induced dopaminergic neurotoxicity and memory impairment in mice. Int J Neuropsychopharmacol 16:1033-44
Bhat, Rohit; Fishback, James A; Matsumoto, Rae R et al. (2013) Structure activity relationship study of benzo[d]thiazol-2(3H)one based ? receptor ligands. Bioorg Med Chem Lett 23:5011-3
Behensky, Adam A; Cortes-Salva, Michelle; Seminerio, Michael J et al. (2013) In vitro evaluation of guanidine analogs as sigma receptor ligands for potential anti-stroke therapeutics. J Pharmacol Exp Ther 344:155-66
Motel, William C; Healy, Jason R; Viard, Eddy et al. (2013) Chlorophenylpiperazine analogues as high affinity dopamine transporter ligands. Bioorg Med Chem Lett 23:6920-6922

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