Steven Dabbs

Novel hydroxyl tricyclics (e.g., GSK966587) as potent inhibitors of bacterial type IIA topoisomerases

During the course of our research to find novel mode of action antibacterials, we discovered a series of hydroxyl tricyclic compounds that showed good potency against Gram-positive and Gram-negative pathogens. These compounds inhibit bacterial type IIA topoisomerases. Herein we will discuss structure-activity relationships in this series and report advanced studies on compound 1 (GSK966587) which demonstrates good PK and in vivo efficacy properties. X-ray crystallographic studies were used to provide insight into the structural basis for the difference in antibacterial potency between enantiomers.

Novel amino-piperidines as potent antibacterials targeting bacterial type IIA topoisomerases.

We have identified a series of amino-piperidine antibacterials with a good broad spectrum potency. We report the investigation of various subunits in this series and advanced studies on compound 8. Compound 8 possesses good pharmacokinetics, broad spectrum antibacterial activity and demonstrates oral efficacy in a rat lung infection model.

Novel cyclohexyl-amides as potent antibacterials targeting bacterial type IIA topoisomerases

As part of our wider efforts to exploit novel mode of action antibacterials, we have discovered a series of cyclohexyl-amide compounds that has good Gram positive and Gram negative potency. The mechanism of action is via inhibition of bacterial topoisomerases II and IV. We have investigated various subunits in this series and report advanced studies on compound 7 which demonstrates good PK and in vivo efficacy properties.

1-[2-[(Heteroaryloxy)heteroaryl]carbamoyl]indolines: novel and selective 5-HT2C receptor inverse agonists with potential as antidepressant/anxiolytic agents.

Bisaryl ethers have been identified with excellent 5-HT2C affinity and selectivity over both 5-HT2A and 5-HT2B receptors. Compounds such as 11, 27 and 38 have potent oral activity in a centrally mediated pharmacodynamic model of 5-HT2C function and their potential as novel non-sedating anxiolytic and antidepressants is under investigation.

Novel tricyclics (e.g., GSK945237) as potent inhibitors of bacterial type IIA topoisomerases.

During the course of our research on the lead optimisation of the NBTI (Novel Bacterial Type II Topoisomerase Inhibitors) class of antibacterials, we discovered a series of tricyclic compounds that showed good Gram-positive and Gram-negative potency. Herein we will discuss the various subunits that were investigated in this series and report advanced studies on compound 1 (GSK945237) which demonstrates good PK and in vivo efficacy properties.

Design and synthesis of azabicyclic muscarinic agonists incorporating an oxime ether functionality

Abstract Replacement of the ester group of methyl quinuclidine-3-carboxylate 2 with an oxime ether afforded a series of potent muscarinic agonists with efficacies ranging from full to partial agonism. From an investigation of the relationship between central selectivity and efficacy, the propargyl ether 5g emerged as a high affinity partial agonist with a good separation between central and peripheral actions.

1,2,5,6-tetrahydropyridine oxime ethers incorporating electron withdrawing groups are potent and selective muscarinic agonists

Abstract The combination of N-methoxy imidoyl halide and nitrile moieties with the 1,2,5,6-tetrahydropyridine ring system afforded a novel series of potent muscarinic agonists. Members of this class, exemplified by the imidoyl nitriles 2c and 3c , show favourable central selectivity. The incorporation of fluoroacetyl oxime ethers gave compounds with weak affinity for muscarmic receptors.