Biological and Medicinal Chemistry Sector of The Royal Society of Chemistry: Promoting Chemistry Learning, Networking and Excellence for Baby Boomers through to Gen Alpha!

The Biological and Medicinal Chemistry Sector (BMCS) is an important interest group within the UK's Royal Society of Chemistry (RSC). Operating through a committee of voluntary members, the main goal of the BMCS is to share knowledge within the sector, primarily by organizing high quality scientific meetings, with a particular focus on networking. Financial support and tailored scientific programmes encourage training and development across multiple generations, from school age through to retirement.

Discovery of Vixotrigine: A Novel Use-Dependent Sodium Channel Blocker for the Treatment of Trigeminal Neuralgia.

Drugs that block voltage-gated sodium channels (Nas) have utility in treating conditions including pain, epilepsy, and cardiac arrhythmias and as anesthetics (Lancet Neurol.20109413424; Expert Opin. Ther.

Evaluation of the Pharmacokinetic Interaction Between the Voltage- and Use-Dependent Nav1.7 Channel Blocker Vixotrigine and Carbamazepine in Healthy Volunteers.

Vixotrigine is a voltage- and use-dependent Nav1.7 channel blocker under investigation for the treatment of peripheral neuropathic pain conditions, including trigeminal neuralgia. Vixotrigine is metabolized primarily via uridine diphosphate-glucuronosyltransferases (UGTs).

Discovery of {4-[4,9-bis(ethyloxy)-1-oxo-1,3-dihydro-2H-benzo[f]isoindol-2-yl]-2-fluorophenyl}acetic acid (GSK726701A), a novel EP receptor partial agonist for the treatment of pain.

A novel series of EP agonists and antagonists have been identified, and then used to validate their potential in the treatment of inflammatory pain. This paper describes these novel ligands and their activity within a number of pre-clinical models of pain, ultimately leading to the identification of the EP partial agonist GSK726701A.

Novel design for a phase IIa placebo-controlled, double-blind randomized withdrawal study to evaluate the safety and efficacy of CNV1014802 in patients with trigeminal neuralgia.

Background: Trigeminal neuralgia (TN) is a rare severe unilateral facial pain condition. Current guidelines in trigeminal neuralgia management recommend sodium channel blockers--carbamazepine or oxcarbazepine--as the first-line treatment. However, the currently available drugs are often associated with poor tolerability resulting in sub-optimal pain control.

Discovery of GSK1997132B a novel centrally penetrant benzimidazole PPARγ partial agonist.

The peroxisome proliferator-activated receptor γ (PPARγ) is a ligand-activated nuclear receptor, thought to play a role in energy metabolism, glucose homeostasis and microglia-mediated neuroinflammation. A novel benzimidazole series of centrally penetrant PPARγ partial agonists has been identified. The optimization of PPARγ activity and in vivo pharmacokinetics leading to the identification of GSK1997132B a potent, metabolically stable and centrally penetrant PPARγ partial agonist, is described.

Discovery of a novel series of nonacidic benzofuran EP1 receptor antagonists.

We describe the discovery and optimization of a novel series of benzofuran EP(1) antagonists, leading to the identification of 26d, a novel nonacidic EP(1) antagonist which demonstrated efficacy in preclinical models of chronic inflammatory pain.

TASTPM mice expressing amyloid precursor protein and presenilin-1 mutant transgenes are sensitive to γ-secretase modulation and amyloid-β₄₂ lowering by GSM-10h.

Background: Cleavage of the amyloid precursor protein (APP) by β-site APP-cleaving enzyme and γ-secretase results in the generation of amyloid-β (Aβ) peptides that aggregate and deposit as senile plaques in brains of Alzheimer disease patients. Due to the fundamental role γ-secretase plays in the proteolysis of a number of proteins including Notch, pharmacological inhibition of γ-secretase has been associated with mechanism-based toxicities. Therefore, efforts have focussed on the modulation of γ-secretase activity to selectively decrease levels of Aβ₄₂ peptide while avoiding deleterious activity on Notch processing.

Piperidine-derived gamma-secretase modulators.

This Letter details the SAR of a novel series of piperidine-derived gamma-secretase modulators. Compound 10h was found to be a potent modulator in vitro, which on further profiling, was found to decrease Abeta42, increase Abeta38 and have no effect on Abeta40 levels. Furthermore, 10h demonstrated excellent pharmacokinetic parameters in the mouse, rat and dog in addition to good CNS penetration in the mouse.

Synthesis and evaluation of 3-amino-6-aryl-pyridazines as selective CB(2) agonists for the treatment of inflammatory pain.

A series of 3-amino-6-aryl-pyridazines have been identified as CB(2) agonists with high efficacy and selectivity against the CB(1) receptor. Details of the investigation of structure-activity relationships (SAR) are disclosed, which led to the identification of pyridazine analogue 35, a compound with high potency in an in vivo model of inflammatory pain.

2-Amino-5-aryl-pyridines as selective CB2 agonists: synthesis and investigation of structure-activity relationships.

2-Amino-5-aryl-pyridines, exemplified by compound 1, had been identified as a synthetically tractable series of CB(2) agonists from a high-throughput screen of the GlaxoSmithKline compound collection. Described herein are the results of an investigation of the structure-activity relationships (SAR) which led to the identification a number of potent and selective agonists.

Discovery of 1-[4-(3-chlorophenylamino)-1-methyl-1H-pyrrolo[3,2-c]pyridin-7-yl]-1-morpholin-4-ylmethanone (GSK554418A), a brain penetrant 5-azaindole CB2 agonist for the treatment of chronic pain.

We report the synthesis and SAR of a series of novel azaindole CB(2) agonists. 6-Azaindole 18 showed activity in an acute pain model but was inactive in a chronic model. 18 is a Pgp substrate with low brain penetration.

Discovery of sodium 6-[(5-chloro-2-{[(4-chloro-2-fluorophenyl)methyl]oxy}phenyl)methyl]-2-pyridinecarboxylate (GSK269984A) an EP(1) receptor antagonist for the treatment of inflammatory pain.

We describe the medicinal chemistry programme that led to the identification of the EP(1) receptor antagonist GSK269984A (8h). GSK269984A was designed to overcome development issues encountered with previous EP(1) antagonists such as GW848687X and was found to display excellent activity in preclinical models of inflammatory pain. However, upon cross species pharmacokinetic profiling, GSK269984A was predicted to have suboptimal human pharmacokinetic and was thus progressed to a human microdose study.

Discovery of GSK345931A: An EP(1) receptor antagonist with efficacy in preclinical models of inflammatory pain.

Herein we describe the medicinal chemistry programme to identify a potential back-up compound to the EP(1) receptor antagonist GW848687X. This work started with the lipophilic 1,2-biaryl benzene derivative 4 which displayed molecular weight of 414.9g/mol and poor in vivo metabolic stability in the rat and resulted in the identification of compound 7i (GSK345931A) which demonstrated good metabolic stability in the rat and lower molecular weight (381.

Pyridine-3-carboxamides as novel CB(2) agonists for analgesia.

We describe herein the medicinal chemistry approach which led to the discovery of a novel pyridine-3-carboxamide series of CB(2) receptor agonists. The SAR of this new template was evaluated and culminated in the identification of analogue 14a which demonstrated efficacy in an in vivo model of inflammatory pain.

Discovery of brain penetrant, soluble, pyrazole amide EP1 receptor antagonists.

We describe the discovery of a series of pyrazole amide EP(1) receptor antagonists with good aqueous solubility and CNS penetration. In order to achieve solubility we investigated the incorporation of a basic group in the region of the molecule previously occupied by a carboxylic acid, which was known to be a key element of the pharmacophore. This study led to the identification of compounds such as 4h, 4j and 10b which demonstrated brain-to-blood ratios of 0.

Non-acidic pyrazole EP1 receptor antagonists with in vivo analgesic efficacy.

Replacement of the carboxylic acid group in a series of previously described methylene-linked pyrazole EP(1) receptor antagonists led to the discovery of amide, reversed amide and carbamate derivatives. Two compounds, 10a and 10b, were identified as brain penetrant compounds and both demonstrated efficacy in the CFA model of inflammatory pain.

Discovery of a novel indole series of EP1 receptor antagonists by scaffold hopping.

We describe the medicinal chemistry approach that generated a novel indole series of EP(1) receptor antagonists. The SAR of this new template was evaluated and culminated in the identification of compound 12g which demonstrated in vivo efficacy in a preclinical model of inflammatory pain.

Novel methylene-linked heterocyclic EP1 receptor antagonists.

We describe the SAR, in terms of heterocyclic replacements, for a series of pyrazole EP(1) receptor antagonists. This study led to the identification of several aromatic heterocyclic replacements for the pyrazole in the original compound. Investigation of replacements for the methylene linker uncovered disparate SAR in the thiazole and pyridine series.

EP1 antagonists for the treatment of inflammatory pain.

This review summarizes the publication and patent literature reporting on prostaglandin E(2) receptor 1 (EP(1)) antagonists from 2006 to the present. Pertinent references from 2005 are also included. New chemical entities disclosed as EP(1) antagonists are highlighted with particular focus on their potential to treat inflammatory pain.

Identification and optimization of novel 1,3,4-oxadiazole EP1 receptor antagonists.

A novel series of oxadiazole EP1 receptor antagonists was identified by replacing the amide of a known glycine sulfonamide derivative with a 1,3,4-oxadiazole. Optimization of the substitution patterns on the three aromatic rings led to the identification of high affinity EP1 receptor antagonists. The derivative with highest affinity displayed a binding IC50 of 2.

Discovery of 2-[(2,4-dichlorophenyl)amino]-N-[(tetrahydro- 2H-pyran-4-yl)methyl]-4-(trifluoromethyl)- 5-pyrimidinecarboxamide, a selective CB2 receptor agonist for the treatment of inflammatory pain.

Selective CB2 receptor agonists are promising potential therapeutic agents for the treatment of inflammatory and neuropathic pain. A focused screen identified a pyrimidine ester as a partial agonist at the CB2 receptor with micromolar potency. Subsequent lead optimization identified 35, GW842166X, as the optimal compound in the series.

Discovery of novel, non-acidic 1,5-biaryl pyrrole EP1 receptor antagonists.

Replacement of the carboxylic acid group in a series of previously described 1,5-biaryl pyrrole EP1 receptor antagonists led to the discovery of various novel non-acidic antagonists. Several analogues displayed high binding affinity and high binding efficiency indices.

1,5-Biaryl pyrrole derivatives as EP1 receptor antagonists. Structure-activity relationships of 6-substituted and 5,6-disubstituted benzoic acid derivatives.

Herein we describe the SAR of 1,5-biaryl pyrrole derivatives, with substituents in the 6-position of the benzoic acid moiety, as EP(1) receptor antagonists. Substitution at this position was well tolerated and led to the identification of several analogues with high affinity for the EP(1) receptor that displayed good efficacy in the established FCA model of inflammatory pain. Furthermore, several analogues were prepared which combined substitution at the 5- and 6-positions as well as derivatives with an aromatic ring fused to the 5- and 6-positions.