Design and
Synthesis of Clinical Candidate PF-06852231
(CVL-231): A Brain Penetrant, Selective, Positive Allosteric Modulator
of the M4 Muscarinic Acetylcholine Receptor
Version 2 2024-07-09, 12:06Version 2 2024-07-09, 12:06
Version 1 2024-06-18, 15:06Version 1 2024-06-18, 15:06
dataset
posted on 2024-07-09, 12:06authored byChristopher R. Butler, Michael Popiolek, Laura A. McAllister, Erik A. LaChapelle, Melissa Kramer, Elizabeth M. Beck, Scot Mente, Michael A. Brodney, Matthew Brown, Adam Gilbert, Chris Helal, Kevin Ogilvie, Jeremy Starr, Daniel Uccello, Sarah Grimwood, Jeremy Edgerton, Jonathan Garst-Orozco, Rouba Kozak, Susan Lotarski, Amie Rossi, Deborah Smith, Rebecca O’Connor, John Lazzaro, Claire Steppan, Stefanus J. Steyn
Selective activation of the M4 muscarinic
acetylcholine
receptor subtype offers a novel strategy for the treatment of psychosis
in multiple neurological disorders. Although the development of traditional
muscarinic activators has been stymied due to pan-receptor activation,
muscarinic receptor subtype selectivity can be achieved through the
utilization of a subtype of a unique allosteric site. A major challenge
in capitalizing on this allosteric site to date has been achieving
a balance of suitable potency and brain penetration. Herein, we describe
the design of a brain penetrant series of M4 selective
positive allosteric modulators (PAMs), ultimately culminating in the
identification of 21 (PF-06852231, now CVL-231/emraclidine),
which is under active clinical development as a novel mechanism and
approach for the treatment of schizophrenia.