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FICD activity and AMPylation remodelling modulate human neurogenesis

Pavel Kielkowski, Isabel Y. Buchsbaum, Volker C. Kirsch, Nina C. Bach, Micha Drukker, Silvia Cappello, Stephan A. Sieber

2020Nature Communications63 citationsDOIOpen Access PDF

Abstract

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.

Topics & Concepts

AdenylylationNeurogenesisCell biologyProgenitor cellNeural stem cellOrganoidChemistryBiologyStem cellBiochemistryEnzymeBiosynthesisCancer Research and TreatmentsNanoplatforms for cancer theranosticsAutophagy in Disease and Therapy