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Phosphorylation-mediated conformational change regulates human SLFN11

Michaël Kugler, Felix J. Metzner, Gregor Witte, Karl‐Peter Hopfner, Katja Lammens

2024Nature Communications14 citationsDOIOpen Access PDF

Abstract

Human Schlafen 11 (SLFN11) is sensitizing cells to DNA damaging agents by irreversibly blocking stalled replication forks, making it a potential predictive biomarker in chemotherapy. Furthermore, SLFN11 acts as a pattern recognition receptor for single-stranded DNA (ssDNA) and functions as an antiviral restriction factor, targeting translation in a codon-usage-dependent manner through its endoribonuclease activity. However, the regulation of the various SLFN11 functions and enzymatic activities remains enigmatic. Here, we present cryo-electron microscopy (cryo-EM) structures of SLFN11 bound to tRNA-Leu and tRNA-Met that give insights into tRNA binding and cleavage, as well as its regulation by phosphorylation at S219 and T230. SLFN11 phosphomimetic mutant S753D adopts a monomeric conformation, shows ATP binding, but loses its ability to bind ssDNA and shows reduced ribonuclease activity. Thus, the phosphorylation site S753 serves as a conformational switch, regulating SLFN11 dimerization, as well as ATP and ssDNA binding, while S219 and T230 regulate tRNA recognition and nuclease activity.

Topics & Concepts

NucleasePhosphorylationEndoribonucleaseTransfer RNACell biologyHEK 293 cellsEndonucleaseBiologyDNARibonucleaseCleavage (geology)RNAChemistryBiochemistryRNase PReceptorGeneFracture (geology)PaleontologyRNA and protein synthesis mechanismsSignaling Pathways in DiseaseAdvanced biosensing and bioanalysis techniques
Phosphorylation-mediated conformational change regulates human SLFN11 | Litcius