- Reem Smouma,
- Saja Baraghithyb,
- Mukesh Chourasiaa,c,1,
- Aviva Breuera,
- Naama Mussaib,
- Malka Attar-Namdarb,
- Natalya M. Koganb,
- Bitya Raphaelb,
- Daniele Bologninid,e,
- Maria G. Casciod,
- Pietro Marinid,
- Roger G. Pertweed,
- Avital Shurkia,c,
- Raphael Mechoulama,2, and
- Itai Babb,3
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Edited by Leslie Lars Iversen, University of Oxford, Oxford, United Kingdom, and approved June 9, 2015 (received for review February 23, 2015)
Significance
The significance of the results reported is in two areas. (i) Because the cannabinoid receptor type 2 (CB2) agonists seem to be general protective agents, HU-433, a new specific CB2 agonist, may be of major therapeutic importance. (ii) Enantiomers usually have different activity profiles. We report now that HU-433 and its enantiomer HU-308 are both specific CB2 agonists, but whereas HU-433 is much more potent than HU-308 in the rescue of ovariectomy-induced bone loss and ear inflammation, its binding to the CB2 receptor (through which the activity of both enantiomers takes place) is substantially lower compared with HU-308. This situation questions the usefulness of universal radioligands for comparative binding studies.
Abstract
Activation of the CB2 receptor is apparently an endogenous protective mechanism. Thus, it restrains inflammation and protects the skeleton against age-related bone loss. However, the endogenous cannabinoids, as well as Δ9-tetrahydrocannabinol, the main plant psychoactive constituent, activate both cannabinoid receptors, CB1 and CB2. HU-308 was among the first synthetic, selective CB2 agonists. HU-308 is antiosteoporotic and antiinflammatory. Here we show that the HU-308 enantiomer, designated HU-433, is 3–4 orders of magnitude more potent in osteoblast proliferation and osteoclast differentiation culture systems, as well as in mouse models, for the rescue of ovariectomy-induced bone loss and ear inflammation. HU-433 retains the HU-308 specificity for CB2, as shown by its failure to bind to the CB1 cannabinoid receptor, and has no activity in CB2-deficient cells and animals. Surprisingly, the CB2 binding affinity of HU-433 in terms of [3H]CP55,940 displacement and its effect on [35S]GTPγS accumulation is substantially lower compared with HU-308. A molecular-modeling analysis suggests that HU-433 and -308 have two different binding conformations within CB2, with one of them possibly responsible for the affinity difference, involving [35S]GTPγS and cAMP synthesis. Hence, different ligands may have different orientations relative to the same binding site. This situation questions the usefulness of universal radioligands for comparative binding studies. Moreover, orientation-targeted ligands have promising potential for the pharmacological activation of distinct processes.
Footnotes
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1Present address: Department of Pharmacoinformatics, National lnstitute of Pharmaceutical Education and Research, Hajipur 844 102, Bihar, India.
- 2To whom correspondence should be addressed. Email: raphaelm@ekmd.huji.ac.il.
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3Deceased October 18, 2014.
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Author contributions: R.S., M.C., R.G.P., A.S., R.M., and I.B. designed research; R.S., S.B., M.C., A.B., N.M., M.A.-N., N.M.K., B.R., D.B., M.G.C., and P.M. performed research; R.S., M.C., R.G.P., A.S., R.M., and I.B. analyzed data; and R.S., M.C., R.G.P., A.S., R.M., and I.B. wrote the paper.
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The authors declare no conflict of interest.
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This article is a PNAS Direct Submission.
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This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1503395112/-/DCSupplemental.
CB2 cannabinoid receptor agonist enantiomers HU-433 and HU-308: An inverse relationship between binding affinity and biological potency
Supporting Information