Brian J. Lavey

Biology and therapeutic potential of cannabinoid CB2 receptor inverse agonists.

Evidence has emerged suggesting a role for the cannabinoid CB2 receptor in immune cell motility. This provides a rationale for a novel and generalized immunoregulatory role for cannabinoid CB2 receptor‐specific compounds. In support of this possibility, we will review the biology of a class of cannabinoid CB2 receptor—specific inverse agonist, the triaryl bis‐sulfones. We will show that one candidate, Sch.414319, is potent and selective for the cannabinoid CB2 receptor, based on profiling studies using biochemical assays for 45 enzymes and 80 G‐protein coupled receptors and ion channels. We will describe initial mechanistic studies using this optimized triaryl bis‐sulfone, showing that the compound exerts a broad effect on cellular protein phosphorylations in human monocytes. This profile includes the down regulation of a required phosphorylation of the monocyte‐specific actin bundling protein L‐plastin. We suggest that this observation may provide a mechanism for the observed activity of Sch.414319 in vivo. Our continued analysis of the in vivo efficacy of this compound in diverse disease models shows that Sch.414319 is a potent modulator of immune cell mobility in vivo, can modulate bone damage in antigen‐induced mono‐articular arthritis in the rat, and is uniquely potent at blocking experimental autoimmune encephalomyelitis in the rat.

Labelling and biological evaluation of [11C]methoxy-Sch225336: a radioligand for the cannabinoid-type 2 receptor

INTRODUCTIONnThe cannabinoid type 2 receptor (CB(2) receptor) is part of the endocannabinoid system and has been suggested as mediator of a number of central and peripheral inflammatory processes. In the present study, we have synthesized N-[(1s)-1-[4-[[4-methoxy-2-[(4-[(11)C]methoxyphenyl)sulfonyl)-phenyl]sulfonyl] phenyl]ethyl]methanesulfonamide ([(11)C]methoxy-Sch225336) and evaluated this new tracer agent as a potential positron emission tomography radioligand for the in vivo visualization of CB(2) receptors.nnnMETHODSnSch225336 was demethylated and the resulting phenol precursor was radiolabelled with a carbon-11 methyl group by methylation using [(11)C]methyl iodide, followed by purification by high-performance liquid chromatography. The log P of [(11)C]methoxy-Sch225336 and its biodistribution in normal mice were determined. Enhancement of brain uptake by inhibition of blood-brain barrier (BBB) efflux transporters was studied. Mouse plasma was analysed to quantify the formation of radiometabolites. The affinity of Sch225336 for the human cannabinoid type 1 and type 2 receptor was determined.nnnRESULTSn[(11)C]methoxy-Sch225336 was obtained with a decay corrected radiochemical yield of about 30% and a specific activity of 88.8 GBq/mumol (end of synthesis). After intravenous injection in mice, the compound is rapidly cleared from the blood through the hepatobiliary pathway and does not show particular retention in any of the major organs. Polar metabolites were found in mouse plasma. Brain uptake was low despite the favourable log P value of 2.15, which is partly due to efflux by BBB pumps.nnnCONCLUSIONn[(11)C]methoxy-Sch225336 is a good candidate for in vivo imaging of the CB(2) receptor, although the low blood-brain barrier penetration limits its potential for central nervous system imaging.

Characterization of peripheral human cannabinoid receptor (hCB2) expression and pharmacology using a novel radioligand, [35S]Sch225336.

Studies to characterize the endogenous expression and pharmacology of peripheral human cannabinoid receptor (hCB2) have been hampered by the dearth of authentic anti-hCB2 antibodies and the lack of radioligands with CB2 selectivity. We recently described a novel CB2 inverse agonist, N-[1(S)-[4-[[4-methoxy-2-[(4methoxyphenyl)sulfonyl] phenyl]sulfonyl] phenyl]ethyl]methane-sulfonamide (Sch225336), that binds hCB2 with high affinity and excellent selectivity versus hCB1. The precursor primary amine of Sch225336 was prepared and reacted directly with [35S]mesyl chloride (synthesized from commercially obtained [35S]methane sulfonic acid) to generate [35S]Sch225336. [35S]Sch225336 has high specific activity (>1400 Ci/mmol) and affinity for hCB2 (65 pm). Using [35S]Sch225336, we assayed hemopoietic cells and cell lines to quantitate the expression and pharmacology of hCB2. Lastly, we used [35S]Sch225336 for detailed autoradiographic analysis of CB2 in lymphoid tissues. Based on these data, we conclude that [35S]Sch225336 represents a unique radioligand for the study of CB2 endogenously expressed in blood cells and tissues.

The discovery of novel tartrate-based TNF-[alpha] converting enzyme (TACE) inhibitors

A novel series of TNF-alpha convertase (TACE) inhibitors which are non-hydroxamate have been discovered. These compounds are bis-amides of L-tartaric acid (tartrate) and coordinate to the active site zinc in a tridentate manner. They are selective for TACE over other MMPs. We report the first X-ray crystal structure for a tartrate-based TACE inhibitor.

Discovery of novel hydroxamates as highly potent tumor necrosis factor-alpha converting enzyme inhibitors. Part II: optimization of the S3' pocket.

A series of cyclopropyl hydroxamic acids were prepared. Many of the compounds displayed picomolar affinity for the TACE enzyme while maintaining good to excellent selectivity profiles versus MMP-1, -2, -3, -7, -14, and ADAM-10. X-ray analysis of an inhibitor in the TACE active site indicated that the molecules bound to the enzyme in the S1-S3 pocket.

Cannabinoid CB2-Selective Inverse Agonist Protects Against Antigen-Induced Bone Loss

Work to improve the therapeutic properties of cannabinoid CB2 receptor-selective inverse agonists has led to the development of Sch.036, an aryl substituted triaryl bis-sulfone with improved oral pharmacokinetic parameters. In this report, we show that this compound blocks in vivo trafficking of various leukocyte populations, a property consistent with other members of this chemical series. This CB2-selective compound also shows efficacy in leukocyte recruitment models when added in concert with suboptimal doses of selected anti-inflammatory agents, consistent with its unique function and indicative of its potential therapeutic utility. Finally, studies with Sch.036 show that this cannabinoid CB2-specific inverse agonist can ameliorate bone damage in a rat model of relapsing-remitting arthritis. This result suggests that a cannabinoid CB2‐selective inverse agonist may help ameliorate a particularly harmful property of this inflammatory joint disease.

Discovery of novel spirocyclopropyl hydroxamate and carboxylate compounds as TACE inhibitors.

We have discovered nanomolar inhibitors of TNF-alpha convertase (TACE) comprised of a novel spirocyclic scaffold and either a carboxylate or hydroxamate zinc binding moiety. X-ray crystal structures and computer models of selected compounds binding to TACE explain the observed SAR. We report the first TACE X-ray crystal structure for an inhibitor with a carboxylate zinc ligand.

Pharmacological characterization of human S1P4 using a novel radioligand, [4,5-3H]-dihydrosphingosine-1-phosphate

Sphingosine‐1‐phosphate (S1P) is a bioactive lipid that affects a variety of cellular processes through both its actions as a second messenger and via activation of a family of G protein‐coupled receptors (S1P1–5). The study of S1P receptor pharmacology, particularly S1P4, has been hindered by the lack of high‐affinity radioligands with good specific activity. The studies presented herein characterize [3H]DH‐S1P as a stable, high‐affinity radioligand for S1P4 pharmacology. Using a transfected Ba/F3 cell line selected for high hS1P4 surface expression, we compared the consequences of different cellular backgrounds and commercial sources of sphingophospholipids on S1P4 characterization. The development and subsequent use of the assay described has enabled us to extensively and definitively characterize the pharmacology of the human S1P4 receptor.

The discovery of N-((2H-tetrazol-5-yl)methyl)-4-((R)-1-((5r,8R)-8-(tert-butyl)-3-(3,5-dichlorophenyl)-2-oxo-1,4-diazaspiro[4.5]dec-3-en-1-yl)-4,4-dimethylpentyl)benzamide (SCH 900822): a potent and selective glucagon receptor antagonist.

A novel series of spiroimidazolone-based antagonists of the human glucagon receptor (hGCGR) has been developed. Our efforts have led to compound 1, N-((2H-tetrazol-5-yl)methyl)-4-((R)-1-((5r,8R)-8-(tert-butyl)-3-(3,5-dichlorophenyl)-2-oxo-1,4-diazaspiro[4.5]dec-3-en-1-yl)-4,4-dimethylpentyl)benzamide (SCH 900822), a potent hGCGR antagonist with exceptional selectivity over the human glucagon-like peptide-1 receptor. Oral administration of 1 lowered 24 h nonfasting glucose levels in imprinting control region mice on a high fat diet with diet-induced obesity following single oral doses of 3 and 10 mg/kg. Furthermore, compound 1, when dosed orally, was found to decrease fasting blood glucose at 30 mg/kg in a streptozotocin-treated, diet-induced obesity mouse pharmacodynamic assay and blunt exogenous glucagon-stimulated glucose excursion in prediabetic mice.