Robin Smith

The discovery of a potent, intracellular, orally bioavailable, long duration inhibitor of human neutrophil elastase-GW311616A a development candidate

The discovery of a potent intracellular inhibitor of human neutrophil elastase which is orally active and has a long duration of action is described. The pharmacodynamic and pharmacokinetic properties of a trans-lactam development candidate, GW311616A, are described.

Intracellular inhibition of human neutrophil elastase by orally active pyrrolidine-trans-lactams

Described are the acylation binding of trans-lactam 1 to porcine pancreatic elastase, the selection of the SO2Me activating group for the lactam N which also confers metabolic stability in hamster liver microsomes, the introduction of aqueous solubility through the piperidine salt 9, the in vivo oral activity of 9 and its bioavailability, and the introduction of 9 as an intracellular neutrophil elastase inhibitor.

High-throughput metabolic stability studies in drug discovery by orthogonal acceleration time-of-flight (OATOF) with analogue-to-digital signal capture (ADC).

Screening assays capable of performing quantitative analysis on hundreds of compounds per week are used to measure metabolic stability during early drug discovery. Modern orthogonal acceleration time-of-flight (OATOF) mass spectrometers equipped with analogue-to-digital signal capture (ADC) now offer performance levels suitable for many applications normally supported by triple quadruple instruments operated in multiple reaction monitoring (MRM) mode. Herein the merits of MRM and OATOF with ADC detection are compared for more than 1000 compounds screened in rat and/or cryopreserved human hepatocytes over a period of 3 months. Statistical comparison of a structurally diverse subset indicated good agreement for the two detection methods. The overall success rate was higher using OATOF detection and data acquisition time was reduced by around 20%. Targeted metabolites of diazepam were detected in samples from a CLint determination performed at 1 microM. Data acquisition by positive and negative ion mode switching can be achieved on high-performance liquid chromatography (HPLC) peak widths as narrow as 0.2 min (at base), thus enabling a more comprehensive first pass analysis with fast HPLC gradients. Unfortunately, most existing OATOF instruments lack the software tools necessary to rapidly convert the huge amounts of raw data into quantified results. Software with functionality similar to open access triple quadrupole systems is needed for OATOF to truly compete in a high-throughput screening environment.

Reactive Metabolite Trapping Screens and Potential Pitfalls: Bioactivation of a Homomorpholine and Formation of an Unstable Thiazolidine Adduct

Successful early attrition of potential problematic compounds is of great importance in the pharmaceutical industry. The lead compound in a recent project targeting neuropathic pain was susceptible to metabolic bioactivation, which produced reactive metabolites and showed covalent binding to protein. Therefore, as a part of the backup series for this compound several structural modifications were explored to mediate the reactive metabolite and covalent binding risk. A homomorpholine containing series of compounds was identified without compromising potency. However, when these compounds were incubated with human liver microsomes in the presence of GSH, Cys-Gly adducts were identified, instead of intact GSH conjugates. This article examines the formation of the Cys-Gly adduct with AZX ([M+H]+ 486) as a representative compound for this series. The AZX-Cys-Gly-adduct ([M+H]+ 662) showed evidence of ring contraction by formation of a thiazolidine-glycine and was additionally shown to be unstable. During its isolation for structural characterization by 1H NMR spectroscopy, it was found to have decomposed to a product with [M+H]+ 446. The characterization and identification of this labile GSH-derived adduct using LC-MS/MS and 1H NMR are described, along with observations around stability. In addition, various structurally related trapping reagents were employed in an attempt to further investigate the reaction mechanism along with a methoxylamine trapping experiment to confirm the structure of the postulated reactive intermediate.

High-Precision, Room Temperature Screening Assay for Inhibitors of Microsomal Prostaglandin E Synthase-1

Microsomal prostaglandin E synthase-1 (mPGES-1) is the major enzyme catalyzing the isomerization of prostaglandin (PG) H2 to PGE2. Here we report the development of a robust and practical automated assay in a 384-well format for room temperature screening of mPGES-1 inhibitors with high precision and low reagent consumption. The assay should enable precise structure-activity relationship development. It uses acetonitrile as solvent for PGH2, FeCl2/citrate as stop reagent, and a short reaction time. Combined with high-precision liquid transfer and extensive mixing after addition of reactants, these properties let the assay reach Z′ > 0.7 and high reproducibility of inhibitor IC50 values. Thorough investigation of the quality of mixing in all liquid transfer steps proved crucial for reaching high-precision performance. Abbreviations: mPGES-1 (microsomal prostaglandin E synthase-1); FRET (fluorescence resonance energy transfer); HTRF (homogeneous time-resolved fluorescence); PGH2 (prostaglandin H2); PGE2 (prostaglandin E2); SAR (structure-activity relationship); COX-2 (cyclooxygenase-2); GSH (glutathione); ALP (automated labware positioner)

An Automated 1536-Well Microplate Format Cytochrome P450 Inhibition Assay Using a Tecan Freedom EVO Workstation with Integrated Innovadyne Nanodrop II Dispenser

A Tecan EVO Workstation and Innovadyne Nanodrop II liquid dispenser have been integrated to provide an automated miniaturized cytochrome P450 inhibition assay, using 1536-well plate technology. The Tecan EVO was used to perform larger volume bulk reagent and compound dilution operations along with plate manipulations using the Tecan Robotic Manipulator. All reagent additions to the 1536-well microplates were performed exclusively by the Nanodrop dispenser, which is capable of accurate and precise pipetting at volumes as low as 100 nL. Miniaturization from 96- to 1536-well plate formats has enabled a fourfold increase in P450 inhibition assay capacity, while reducing reagent costs by approximately 20-fold.

Methanol adducts leading to the identification of a reactive aldehyde metabolite of CPAQOP in human liver microsomes by ultra-high-performance liquid chromatography/mass spectrometry.

RATIONALE The incubation of CPAQOP (1-[(2R)-2-[[4-[3-chloro-4-(2-pyridyloxy)anilino]quinazolin-5-yl]oxymethyl]-1-piperidyl]-2-hydroxy) with human liver microsomes generated several metabolites that highlighted the hydroxyacetamide side chain was a major site of metabolism for the molecule. The metabolites were derived predominantly from oxidative biotransformations; however, two unexpected products were detected by liquid chromatography/ultraviolet/mass spectrometry (LC/UV/MS) and identified as methanol adducts. This observation prompted further LC/MS investigations into their formation. METHODS Three separate incubations of CPAQOP were conducted in human liver microsomes; Naïve, fortified with methoxyamine and fortified with glutathione. Separation was achieved via ultra-high-performance liquid chromatography with either methanol or acetonitrile gradients containing formic acid. MS analysis was conducted by electrospray ionisation LTQ Orbitrap mass spectrometry acquiring accurate mass full scan, data-dependent MS2 and all ion fragmentation. RESULTS No methanol adducts were detected by MS when acetonitrile was used in the mobile phase instead of methanol, verifying that a metabolite was reacting with methanol on column. Although this reactive metabolite could not be isolated or structurally characterised by LC/MS directly, product ion spectra of the methanol adducts confirmed addition of methanol on the hydroxyacetamide side chain. Additional experiments using methoxyamine showed the disappearance of the two methanol adducts and appearance of a methoxyamine adduct, confirming the presence of an aldhyde. Product ion spectra of the methoxyamine adduct confirmed addition of methoxyamine to the hydroxyacetamide side chain. CONCLUSIONS The proposed bioactivation of CPAQOP occurred via the reactive aldehyde intermediate, which readily reacted with methanol in the mobile phase to form a pair of isomeric hemiacetal methanol adducts. In acidified methanol the equilibrium favoured the methanol adduct and in acidified acetonitrile it favoured the hydrate; therefore, the reactive aldehyde metabolite was not detected and could not be structurally characterised directly. Copyright

Abstract 3912: The discovery of AZD4547: An orally bioavailable, potent and selective N-(5-Pyrazolyl)benzamide FGFR1-3 inhibitor

There is increasing evidence that FGFR signaling plays an important role within human cancer, with members of FGFR family acting as driving oncogenes in a significant number of human tumors. Deregulation of FGFR-signaling has been documented within clinical samples of breast multiple myeloma, bladder, endometrial, gastric, squamous NSCLC and prostate cancers. This dysregulation most frequently occurs through gene amplification, or through genetically altered forms of FGFR proteins. This increasing body of evidence implicating FGFR signaling in cancer has provided rationale for the identification and testing of selective inhibitors of FGFR signaling in the clinic. In this presentation, we describe the progress of our FGFR tyrosine kinase inhibitor programme and report the discovery of N-(5-pyrazolyl)benzamide FGFR inhibitors. Early compounds in this series suffered from poor in vivo pharmacokinetic (PK) properties. The key site of metabolism was identified to be at a basic N-methyl group. This group was shown to be located in the solvent channel of the ATP binding site on binding to FGFR1, and modification could be made without causing major changes to intrinsic binding affinity. However, the first compounds identified with low metabolic clearance also showed a significant reduction in oral bioavailability, due to apparent low permeability and increased efflux potential. The characterization of these PK issues and the discovery of compounds which overcame them, through modulation of pKa, lipophilicity and masking of the polar groups, will be described. Leading compounds showed significant anti-tumor activity in xenograft tumors grown in mice. Detailed characterization of these compounds led to the identification of AZD4547, a potent and selective FGFR tyrosine kinase inhibitor currently in Phase I clinical studies. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 3912. doi:1538-7445.AM2012-3912

Corrigendum to “Intracellular inhibition of human neutrophil elastase by orally active pyrrolidine-trans-lactams”: [Bioorg. Med. Chem. Lett. 11 (2001) 243]

Simon J. F. Macdonald,* Michael D. Dowle, Lee A. Harrison, Julie E. Spooner, Pritom Shah, Martin R. Johnson, Graham G. A. Inglis, Geoffrey D. E. Clarke, David J. Belton, Robin A. Smith, Christopher R. Molloy, Mary Dixon, Graham Murkitt, Rosalind E. Godward, Tadeusz Skarzynski, Onkar M. P. Singh, K. Abhhilash Kumar, Simon T. Hodgson, Edward McDonald, George W. Hardy, Harry Finch, Davina C. Humphreys and Gill Fleetwood