Your search keyword '"David R Compton"' showing total 2 results

1. Pharmacological evaluation of dimethylheptyl analogs of Δ9-THC: reassessment of the putative three-point cannabinoid-receptor interaction

Author

R. L. Barrett, William R. Prescott, David R. Compton, Billy R. Martin, and Raj K. Razdan

Subjects

Male, Pain Threshold, Cannabinoid receptor, Stereochemistry, Receptors, Drug, medicine.medical_treatment, Motor Activity, Toxicology, Discrimination Learning, Mice, Structure-Activity Relationship, medicine, Side chain, Animals, Potency, Structure–activity relationship, Pharmacology (medical), Dronabinol, Receptors, Cannabinoid, Pharmacology, Appetitive Behavior, Mice, Inbred ICR, Motivation, Communication, Dose-Response Relationship, Drug, business.industry, Chemistry, Brain, Biological activity, Ligand (biochemistry), Psychiatry and Mental health, Cannabinoid, Pharmacophore, Arousal, business, Body Temperature Regulation

Abstract

The basic premise underlying the cannabinoid pharmacophore is that at least three functional groups are involved in the interaction between the ligand and the receptor and that these functional groups in delta 9-THC comprise (a) C11, (b) the phenolic hydroxyl, and (c) the side chain. In order to assess the relative importance of the C11 position and the side chain, a series of C11 substituted analogs were prepared which contained a dimethylheptyl side chain. Consistent with previous studies, incorporation of a dimethylheptyl side chain dramatically enhanced both pharmacological potency in mice and receptor affinity. Incorporation of a hydroxy at C11 along with this branched side chain resulted in an extremely potent cannabinoid with ED50S of 0.01, 0.04, 0.16 and 0.04 mumol/kg in depression of spontaneous activity, reduction in body temperature, antinociception, and immobility, respectively. This compound was also very potent as a discriminative stimulus in a drug discrimination procedure and exhibited an extended duration of action. Its high affinity for the cannabinoid receptor (Ki = 400 pM) was consistent with this pharmacological potency. Incorporation of an oxo rather than a hydroxy reduced potency somewhat, although this analog was much more potent than delta 9-THC in most behavioral assays. The most striking observation was that incorporation of a carboxylic acid to form 11-nor-delta 9-THC-DMH-9-carboxylic acid did not eliminate pharmacological activity. This analog was as potent as delta 9-THC. The improbability that all three of the functional groups are interacting in a similar fashion with the receptor provides further support that the C11 position is not an essential requirement for activity. On the other hand, it is possible that substituents in the C9 region are interacting somewhere within or near the same site, but differently.

Published

1995

2. Cannabinoid receptors in developing rats: detection of mRNA and receptor binding

Author

Mary E. Abood, Billy R. Martin, Colleen R. McLaughlin, and David R. Compton

Subjects

Male, medicine.medical_specialty, Aging, Cannabinoid receptor, Period (gene), medicine.medical_treatment, Receptors, Drug, Biology, Toxicology, Rats, Sprague-Dawley, Internal medicine, Delta-9-tetrahydrocannabinol, medicine, Cannabinoid receptor type 2, Animals, Pharmacology (medical), RNA, Messenger, Receptor, Receptors, Cannabinoid, Pharmacology, Messenger RNA, Cannabinoids, Brain, Cyclohexanols, Rats, Psychiatry and Mental health, Postnatal age, Endocrinology, Animals, Newborn, Gene Expression Regulation, Female, Cannabinoid

Abstract

Despite a large body of research directed at assessing the effects of perinatal cannabinoid exposure, little is known about the development of the cannabinoid receptor. Recent advances, including the cloning of the cannabinoid receptor, have afforded us the opportunity to plot the postnatal ontogeny of the cannabinoid receptor and its mRNA in whole brain using the methods of receptor binding and RNA blot hybridization, respectively. Our results indicate that cannabinoid receptor mRNA is present at adult levels as early as postnatal day 3. The Bmax, on the other hand, increases almost fifty percent with increasing postnatal age, while the affinity does not change. The Hill coefficients for all ages studied were approximately 1. These findings suggest the possibility of a developmental progression for cannabinoid receptor development with receptor mRNA appearing first, followed by a period of rapid proliferation of the receptors themselves.

Published

1994