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An affinity-directed phosphatase, AdPhosphatase, system for targeted protein dephosphorylation

Luke M. Simpson, Luke J. Fulcher, Gajanan Sathe, Abigail Brewer, Jin‐Feng Zhao, Daniel R. Squair, Jennifer Crooks, Melanie Wightman, Nicola T. Wood, Robert Gourlay, Joby Varghese, Renata F. Soares, Gopal P. Sapkota

2023Cell chemical biology26 citationsDOIOpen Access PDF

Abstract

Reversible protein phosphorylation, catalyzed by protein kinases and phosphatases, is a fundamental process that controls protein function and intracellular signaling. Failure of phospho-control accounts for many human diseases. While a kinase phosphorylates multiple substrates, a substrate is often phosphorylated by multiple kinases. This renders phospho-control at the substrate level challenging, as it requires inhibition of multiple kinases, which would thus affect other kinase substrates. Here, we describe the development and application of the affinity-directed phosphatase (AdPhosphatase) system for targeted dephosphorylation of specific phospho-substrates. By deploying the Protein Phosphatase 1 or 2A catalytic subunits conjugated to an antigen-stabilized anti-GFP nanobody, we can promote the dephosphorylation of two independent phospho-proteins, FAM83D or ULK1, knocked in with GFP-tags using CRISPR-Cas9, with exquisite specificity. By redirecting protein phosphatases to neo-substrates through nanobody-mediated proximity, AdPhosphatase can alter the phospho-status and function of target proteins and thus, offers a new modality for potential drug discovery approaches.

Topics & Concepts

DephosphorylationPhosphatasePhosphorylationKinaseProtein phosphatase 2BiochemistryCell biologyBiologyProtein phosphorylationProtein kinase AChemistryCellular transport and secretionAdvanced biosensing and bioanalysis techniquesCRISPR and Genetic Engineering
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