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A Potent and Selective CDKL5/GSK3 Chemical Probe is Neuroprotective
A Potent and Selective CDKL5/GSK3 Chemical Probe is Neuroprotective
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Length:
20 minutes
Released:
Feb 10, 2023
Format:
Podcast episode
Description
Link to bioRxiv paper:
http://biorxiv.org/cgi/content/short/2023.02.09.527935v1?rss=1
Authors: Ong, H. W., Liang, Y., Richardson, W., Lowry, E. R., Wells, C. I., Chen, X., Silvestre, M., Dempster, K., Silvaroli, J. A., Smith, J. L., Wichterle, H., Pabla, N. S., Ultanir, S. K., Bullock, A. N., Drewry, D., Axtman, A. D.
Abstract:
Despite mediating several essential processes in the brain, including during development, cyclin-dependent kinase-like 5 (CDKL5) remains a poorly characterized human protein kinase. Accordingly, its substrates, functions, and regulatory mechanisms have not been fully described. We realized that availability of a potent and selective small molecule probe targeting CDKL5 could enable illumination of its roles in normal development as well as in diseases where it has become aberrant due to mutation. We prepared analogs of AT-7519, a known inhibitor of several cyclin dependent and cyclin-dependent kinase-like kinases that has been advanced into Phase II clinical trials. We identified analog 2 as a highly potent and cell-active chemical probe for CDKL5/GSK3 (glycogen synthase kinase 3). Evaluation of its kinome-wide selectivity confirmed that analog 2 demonstrates excellent selectivity and only retains GSK3/{beta} affinity. As confirmation that our chemical probe is a high-quality tool to use in directed biological studies, we demonstrated inhibition of downstream CDKL5 and GSK3/{beta} signaling and solved a co-crystal structure of analog 2 bound to CDKL5. A structurally similar analog (4) proved to lack CDKL5 affinity and maintain potent and selective inhibition of GSK3/{beta}. Finally, we used our chemical probe pair (2 and 4) to demonstrate that inhibition of CDKL5 and/or GSK3/{beta} promotes the survival of human motor neurons exposed to endoplasmic reticulum (ER) stress. We have demonstrated a neuroprotective phenotype elicited by our chemical probe pair and exemplified the utility of our compounds to characterize the role of CDKL5/GSK3 in neurons and beyond.
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http://biorxiv.org/cgi/content/short/2023.02.09.527935v1?rss=1
Authors: Ong, H. W., Liang, Y., Richardson, W., Lowry, E. R., Wells, C. I., Chen, X., Silvestre, M., Dempster, K., Silvaroli, J. A., Smith, J. L., Wichterle, H., Pabla, N. S., Ultanir, S. K., Bullock, A. N., Drewry, D., Axtman, A. D.
Abstract:
Despite mediating several essential processes in the brain, including during development, cyclin-dependent kinase-like 5 (CDKL5) remains a poorly characterized human protein kinase. Accordingly, its substrates, functions, and regulatory mechanisms have not been fully described. We realized that availability of a potent and selective small molecule probe targeting CDKL5 could enable illumination of its roles in normal development as well as in diseases where it has become aberrant due to mutation. We prepared analogs of AT-7519, a known inhibitor of several cyclin dependent and cyclin-dependent kinase-like kinases that has been advanced into Phase II clinical trials. We identified analog 2 as a highly potent and cell-active chemical probe for CDKL5/GSK3 (glycogen synthase kinase 3). Evaluation of its kinome-wide selectivity confirmed that analog 2 demonstrates excellent selectivity and only retains GSK3/{beta} affinity. As confirmation that our chemical probe is a high-quality tool to use in directed biological studies, we demonstrated inhibition of downstream CDKL5 and GSK3/{beta} signaling and solved a co-crystal structure of analog 2 bound to CDKL5. A structurally similar analog (4) proved to lack CDKL5 affinity and maintain potent and selective inhibition of GSK3/{beta}. Finally, we used our chemical probe pair (2 and 4) to demonstrate that inhibition of CDKL5 and/or GSK3/{beta} promotes the survival of human motor neurons exposed to endoplasmic reticulum (ER) stress. We have demonstrated a neuroprotective phenotype elicited by our chemical probe pair and exemplified the utility of our compounds to characterize the role of CDKL5/GSK3 in neurons and beyond.
Copy rights belong to original authors. Visit the link for more info
Podcast created by Paper Player, LLC
Released:
Feb 10, 2023
Format:
Podcast episode
Titles in the series (100)
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