Abstract
RNA sequencing and genetic data support spleen tyrosine kinase (SYK) and high affinity immunoglobulin epsilon receptor subunit gamma (FCER1G) as putative targets to be modulated for Alzheimer’s disease (AD) therapy. FCER1G is a component of Fc receptor complexes that contain an immunoreceptor tyrosine-based activation motif (ITAM). SYK interacts with the Fc receptor by binding to doubly phosphorylated ITAM (p-ITAM) via its two tandem SH2 domains (SYK-tSH2). Interaction of the FCER1G p-ITAM with SYK-tSH2 enables SYK activation via phosphorylation. Since SYK activation is reported to exacerbate AD pathology, we hypothesized that disruption of this interaction would be beneficial for AD patients. Herein, we developed biochemical and biophysical assays to enable the discovery of small molecules that perturb the interaction between the FCER1G p-ITAM and SYK-tSH2. We identified two distinct chemotypes using a high-throughput screen (HTS) and orthogonally assessed their binding. Both chemotypes covalently modify SYK-tSH2 and inhibit its interaction with FCER1G p-ITAM, however, these compounds lack selectivity and this limits their utility as chemical tools.
Funder
National Institute on Aging
Bayer Pharma AG
Boehringer Ingelheim
Canada Foundation for Innovation
Eshelman Institute for Innovation, University of North Carolina at Chapel Hill
Genome Canada
Genentech
Innovative Medicines Initiative
Janssen Pharmaceuticals
Merck KGaA Darmstadt Germany
MSD
Novartis Pharma AG
Ontario Genomics Institute
Pfizer
São Paulo Research Foundation-FAPESP
Takeda
Publisher
Public Library of Science (PLoS)
Cited by
1 articles.
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