Structure-Based
Exploration of Selectivity for ATM
Inhibitors in Huntington’s Disease

Van de Poël, Amanda; Toledo-Sherman, Leticia; Breccia, Perla; Cachope, Roger; Bate, Jennifer R.; Angulo-Herrera, Ivan; Wishart, Grant; Matthews, Kim L.; Martin, Sarah L.; Peacock, Marcus; Barnard, Amy; Cox, Helen C.; Jones, Graham; McAllister, George; Vater, Huw; Esmieu, William; Clissold, Cole; Lamers, Marieke; Leonard, Philip; Jarvis, Rebecca E.; Blackaby, Wesley; Eznarriaga, Maria; Lazari, Ovadia; Yates, Dawn; Rose, Mark; Jang, Sung-Wook; Muñoz-Sanjuan, Ignacio; Dominguez, Celia

doi:10.1021/acs.jmedchem.1c00114.s001

jm1c00114_si_001.pdf (2.21 MB)

Structure-Based Exploration of Selectivity for ATM Inhibitors in Huntington’s Disease

journal contribution

posted on 2021-03-30, 14:36 authored by Amanda Van de Poël, Leticia Toledo-Sherman, Perla Breccia, Roger Cachope, Jennifer R. Bate, Ivan Angulo-Herrera, Grant Wishart, Kim L. Matthews, Sarah L. Martin, Marcus Peacock, Amy Barnard, Helen C. Cox, Graham Jones, George McAllister, Huw Vater, William Esmieu, Cole Clissold, Marieke Lamers, Philip Leonard, Rebecca E. Jarvis, Wesley Blackaby, Maria Eznarriaga, Ovadia Lazari, Dawn Yates, Mark Rose, Sung-Wook Jang, Ignacio Muñoz-Sanjuan, Celia Dominguez

Our group has recently shown that brain-penetrant ataxia telangiectasia-mutated (ATM) kinase inhibitors may have potential as novel therapeutics for the treatment of Huntington’s disease (HD). However, the previously described pyranone-thioxanthenes (e.g., 4) failed to afford selectivity over a vacuolar protein sorting 34 (Vps34) kinase, an important kinase involved with autophagy. Given that impaired autophagy has been proposed as a pathogenic mechanism of neurodegenerative diseases such as HD, achieving selectivity over Vps34 became an important objective for our program. Here, we report the successful selectivity optimization of ATM over Vps34 by using X-ray crystal structures of a Vps34-ATM protein chimera where the Vps34 ATP-binding site was mutated to approximate that of an ATM kinase. The morpholino-pyridone and morpholino-pyrimidinone series that resulted as a consequence of this selectivity optimization process have high ATM potency and good oral bioavailability and have lower molecular weight, reduced lipophilicity, higher aqueous solubility, and greater synthetic tractability compared to the pyranone-thioxanthenes.