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Literature DB >> 34822784

From structure to clinic: Design of a muscarinic M1 receptor agonist with potential to treatment of Alzheimer's disease.

Alastair J H Brown¹, Sophie J Bradley², Fiona H Marshall¹, Giles A Brown¹, Kirstie A Bennett¹, Jason Brown¹, Julie E Cansfield¹, David M Cross³, Chris de Graaf¹, Brian D Hudson¹, Louis Dwomoh⁴, João M Dias¹, James C Errey¹, Edward Hurrell¹, Jan Liptrot¹, Giulio Mattedi¹, Colin Molloy⁴, Pradeep J Nathan⁵, Krzysztof Okrasa¹, Greg Osborne¹, Jayesh C Patel¹, Mark Pickworth¹, Nathan Robertson¹, Shahram Shahabi⁶, Christoffer Bundgaard⁷, Keith Phillips⁶, Lisa M Broad⁶, Anushka V Goonawardena⁸, Stephen R Morairty⁸, Michael Browning⁹, Francesca Perini¹⁰, Gerard R Dawson¹¹, John F W Deakin¹², Robert T Smith¹, Patrick M Sexton¹³, Julie Warneck¹⁴, Mary Vinson¹, Tim Tasker¹, Benjamin G Tehan¹, Barry Teobald¹, Arthur Christopoulos¹⁵, Christopher J Langmead¹⁶, Ali Jazayeri¹, Robert M Cooke¹, Prakash Rucktooa¹, Miles S Congreve¹, Malcolm Weir¹⁷, Andrew B Tobin¹⁸.

Abstract

Current therapies for Alzheimer's disease seek to correct for defective cholinergic transmission by preventing the breakdown of acetylcholine through inhibition of acetylcholinesterase, these however have limited clinical efficacy. An alternative approach is to directly activate cholinergic receptors responsible for learning and memory. The M1-muscarinic acetylcholine (M1) receptor is the target of choice but has been hampered by adverse effects. Here we aimed to design the drug properties needed for a well-tolerated M1-agonist with the potential to alleviate cognitive loss by taking a stepwise translational approach from atomic structure, cell/tissue-based assays, evaluation in preclinical species, clinical safety testing, and finally establishing activity in memory centers in humans. Through this approach, we rationally designed the optimal properties, including selectivity and partial agonism, into HTL9936-a potential candidate for the treatment of memory loss in Alzheimer's disease. More broadly, this demonstrates a strategy for targeting difficult GPCR targets from structure to clinic.

Entities: Chemical

Keywords: Alzheimer's disease; G protein coupled receptors; M1 muscarinic acetylcholine receptor; muscarinic receptor; neurodegeneration; prion disease; structural based drug design

Mesh：

Substances：

Year: 2021 PMID： 34822784 DOI： 10.1016/j.cell.2021.11.001

Source DB: PubMed Journal: Cell ISSN： 0092-8674 Impact factor: 41.582

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Cited

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