Volker C. Kirsch scite author profile

Posttranslational modification (PTM) of proteins represents an important cellular mechanism for controlling diverse functions such as signalling, localisation or protein–protein interactions. AMPylation (also termed adenylylation) has recently been discovered as a prevalent PTM for regulating protein activity. In human cells AMPylation has been exclusively studied with the FICD protein. Here we investigate the role of AMPylation in human neurogenesis by introducing a cell-permeable propargyl adenosine pronucleotide probe to infiltrate cellular AMPylation pathways and report distinct modifications in intact cancer cell lines, human-derived stem cells, neural progenitor cells (NPCs), neurons and cerebral organoids (COs) via LC–MS/MS as well as imaging methods. A total of 162 AMP modified proteins were identified. FICD-dependent AMPylation remodelling accelerates differentiation of neural progenitor cells into mature neurons in COs, demonstrating a so far unknown trigger of human neurogenesis.

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Mining the cellular inventory of pyridoxal phosphate-dependent enzymes with functionalized cofactor mimics

Hoegl

Nodwell

Kirsch

et al. 2018

Nature Chem

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Pyridoxal phosphate (PLP) is an enzyme cofactor required for the chemical transformation of biological amines in numerous essential cellular processes. PLP-dependent enzymes (PLP-DEs) are ubiquitous and evolutionarily diverse, making their classification based on sequence homology challenging. Here we present a chemical proteomic method for reporting on PLP-DEs using functionalized cofactor probes. We synthesized pyridoxal (PL)-analogues modified at the 2’-position which are taken up by cells and metabolized in situ. These PL-analogues are phosphorylated to functional cofactor surrogates by cellular PL kinases and bind to PLP-DEs via an aldimine bond which can be rendered irreversible by NaBH 4 reduction. Conjugation to a reporter tag enables the subsequent identification of PLP-DEs using quantitative, label-free mass spectrometry. Using these probes we accessed a significant portion of the Staphylococcus aureus PLP-DE proteome (73%) and annotate uncharacterized proteins as novel PLP-DEs. We also show that this approach can be used to study structural tolerance within PLP-DE active sites and to screen for off-targets of the PLP-DE inhibitor D-cycloserine.

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The Cytotoxic Natural Product Vioprolide A Targets Nucleolar Protein 14, Which Is Essential for Ribosome Biogenesis

et al. 2019

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Volker C. Kirsch

FICD activity and AMPylation remodelling modulate human neurogenesis

Mining the cellular inventory of pyridoxal phosphate-dependent enzymes with functionalized cofactor mimics

The Cytotoxic Natural Product Vioprolide A Targets Nucleolar Protein 14, Which Is Essential for Ribosome Biogenesis

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