Robert J. Gleave
GlaxoSmithKline
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by Robert J. Gleave.
Bioorganic & Medicinal Chemistry Letters | 2008
Paul John Beswick; Nicolas Charrier; B Clarke; Emmanuel Demont; Colin Dingwall; Rachel Dunsdon; Faller A; Robert J. Gleave; Julie Hawkins; Ishrut Hussain; Christopher Norbert Johnson; David Timothy Macpherson; Graham Maile; Rosalie Matico; Peter Henry Milner; Julie Mosley; Antoinette Naylor; A O'Brien; Sally Redshaw; Riddell D; Paul Rowland; John Skidmore; Soleil; Kathrine J. Smith; Steven James Stanway; Geoffrey Stemp; A Stuart; Sharon Sweitzer; P Theobald; David Vesey
This article is focusing on further optimization of previously described hydroxy ethylamine (HEA) BACE-1 inhibitors obtained from a focused library with the support of X-ray crystallography. Optimization of the non-prime side of our inhibitors and introduction of a 6-membered sultam substituent binding to Asn-294 as well as a fluorine in the C-2 position led to derivatives with nanomolar potency in cell-based assays.
Bioorganic & Medicinal Chemistry Letters | 2010
Muna H. Abdi; Paul John Beswick; Andy Billinton; Laura J. Chambers; Andrew Charlton; Sue D. Collins; Katharine L. Collis; David Kenneth Dean; Elena Fonfria; Robert J. Gleave; Clarisse L. Lejeune; David G. Livermore; Stephen J. Medhurst; Anton D. Michel; Andrew P. Moses; Lee W. Page; Sadhana Patel; Shilina Roman; Stefan Senger; Brian P. Slingsby; Jon Graham Anthony Steadman; Alexander J. Stevens; Daryl Simon Walter
A computational lead-hopping exercise identified compound 4 as a structurally distinct P2X(7) receptor antagonist. Structure-activity relationships (SAR) of a series of pyroglutamic acid amide analogues of 4 were investigated and compound 31 was identified as a potent P2X(7) antagonist with excellent in vivo activity in animal models of pain, and a profile suitable for progression to clinical studies.
Bioorganic & Medicinal Chemistry Letters | 2010
Robert J. Gleave; Paul John Beswick; Andrew J. Brown; Gerard Martin Paul Giblin; Paul Goldsmith; Carl Haslam; William Leonard Mitchell; Neville Hubert Nicholson; Lee W. Page; Sadhana Patel; Susan Roomans; Brian P. Slingsby; Martin E. Swarbrick
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.
Bioorganic & Medicinal Chemistry Letters | 2010
Robert J. Gleave; Daryl Simon Walter; Paul John Beswick; Elena Fonfria; Anton D. Michel; Shilina Roman; Sac-Pham Tang
A series of analogues of the pyrazole lead 1 were synthesized in which the heterocyclic core was replaced with an imidazole. A number of potent antagonists were identified and structure-activity relationships (SAR) were investigated both with respect to activity at the P2X(7) receptor and in vitro metabolic stability. Compound 10 was identified as a potent P2X(7) antagonist with reduced in vitro metabolism and high solubility.
Bioorganic & Medicinal Chemistry Letters | 2010
Laura J. Chambers; Alexander J. Stevens; Andrew P. Moses; Anton D. Michel; Daryl Simon Walter; David John Davies; David G. Livermore; Elena Fonfria; Emmanuel Demont; Mythily Vimal; Pam Theobald; Paul John Beswick; Robert J. Gleave; Shilina Roman; Stefan Senger
High-throughput screening identified compound 1 as a potent P2X(7) receptor antagonist suitable for lead optimisation. Structure-activity relationships (SAR) of a series of (1H-pyrazol-4-yl)acetamides were investigated and compound 32 was identified as a potent P2X(7) antagonist with enhanced potency and favourable physicochemical and pharmacokinetic properties.
Bioorganic & Medicinal Chemistry Letters | 2010
Lee Abberley; Aude Bebius; Paul John Beswick; Andy Billinton; Katharine L. Collis; David Kenneth Dean; Elena Fonfria; Robert J. Gleave; Stephen J. Medhurst; Anton D. Michel; Andrew P. Moses; Sadhana Patel; Shilina Roman; Tiziana Scoccitti; Beverley Smith; Jon Graham Anthony Steadman; Daryl Simon Walter
A backup molecule to compound 2 was sought by targeting the most likely metabolically vulnerable site in this molecule. Compound 18 was subsequently identified as a potent P2X(7) antagonist with very low in vivo clearance and high oral bioavailability in all species examined. Some evidence to support the role of P2X(7) in the etiology of pain is also presented.
Bioorganic & Medicinal Chemistry Letters | 2010
Paul John Beswick; Andy Billinton; Laura J. Chambers; David Kenneth Dean; Elena Fonfria; Robert J. Gleave; Stephen J. Medhurst; Anton D. Michel; Andrew P. Moses; Sadhana Patel; Shilina Roman; Sue Roomans; Stefan Senger; Alexander J. Stevens; Daryl Simon Walter
Structure-activity relationships (SAR) of analogues of lead compound 1 were investigated and compound 16 was selected for further study in animal models of pain. Compound 16 was shown to be a potent antihyperalgesic agent in both the rat acute complete Freunds adjuvant (CFA) model of inflammatory pain [Iadarola, M. J.; Douglass, J.; Civelli, O.; Naranjo, J. R. rain Res.1988, 455, 205] and the knee joint model of chronic inflammatory pain [Wilson, A. W.; Medhurst, S. J.; Dixon, C. I.; Bontoft, N. C.; Winyard, L. A.; Brackenborough, K. T.; De Alba, J.; Clarke, C. J.; Gunthorpe, M. J.; Hicks, G. A.; Bountra, C.; McQueen, D. S.; Chessell, I. P. Eur. J. Pain2006, 10, 537].
Bioorganic & Medicinal Chemistry Letters | 2009
Martin E. Swarbrick; Paul John Beswick; Robert J. Gleave; Richard Howard Green; Sharon Bingham; C. Bountra; Malcolm Clive Carter; Laura J. Chambers; Iain P. Chessell; Nick M. Clayton; Sue D. Collins; John Andrew Corfield; C. David Hartley; Savvas Kleanthous; Paul F. Lambeth; Fiona S. Lucas; Neil Mathews; Alan Naylor; Lee W. Page; Jeremy John Payne; Neil Anthony Pegg; Helen Susanne Price; John Skidmore; Alexander J. Stevens; Richard Stocker; Sharon C. Stratton; Alastair J. Stuart; Joanne Wiseman
A novel series of [4-[4-(methylsulfonyl)phenyl]-6-(trifluoromethyl)-2-pyrimidine-based cyclooxygenase-2 (COX-2) inhibitors, which have a different arrangement of substituents compared to the more common 1,2-diarylheterocycle based molecules, have been discovered. For example, 2-(butyloxy)-4-[4-(methylsulfonyl)phenyl]-6-(trifluoromethyl)pyrimidine (47), a member of the 2-pyrimidinyl ether series, has been shown to be a potent and selective inhibitor with a favourable pharmacokinetic profile, high brain penetration and good efficacy in rat models of hypersensitivity.
Organic and Biomolecular Chemistry | 2008
Christopher G. Frost; Stephen D. Penrose; Robert J. Gleave
The concise enantioselective synthesis of hermitamides A and B is presented utilising a rhodium catalysed conjugate addition reaction to introduce the side chain and chiral information in a single step via an alkenyltrifluoroborate salt.
Bioorganic & Medicinal Chemistry Letters | 2009
Paul John Beswick; Andrew P. Blackaby; C. Bountra; Terry Brown; Kerry Browning; Ian B. Campbell; John Andrew Corfield; Robert J. Gleave; Steve B. Guntrip; Richard M Hall; Sean J. Hindley; Paul F. Lambeth; Fiona S. Lucas; Neil Mathews; Alan Naylor; Hazel Player; Helen Susanne Price; Phillip J. Sidebottom; Nick Taylor; Graham Webb; Joanne Wiseman
Many years of work have been invested in the identification of potent and selective COX-2 inhibitors for the treatment of chronic inflammatory pain. One issue faced by workers is the balance between the lipophilicity required for potent enzyme inhibition and the physical properties necessary for drug absorption and distribution in vivo. Frequently approaches to reduce lipophilicity through introduction of polar functionality is hampered by highly challenging chemistry to prepare key molecules. We have complemented traditional synthetic chemistry with a biotransformations approach which efficiently provided access to an array of key target molecules.
