Chimeric Peptides Self-Assembling on Titanium Carbide MXenes as Biosensing Interfaces for Activity Assay of Post-translational Modification Enzymes.

Abstract

Post-translational modifications (PTMs) refer to the chemical modifications of proteins coordinated by PTM enzymes, and they play a key role in numerous physiological and pathological processes. Herein, chimeric peptide-functionalized titanium carbide MXenes (Pep-Ti3C2) were devised for the activity assay of PTM enzymes by integration with carboxypeptidase Y (CPY)-mediated peptide cleavage. The Pep-Ti3C2 is fabricated by self-assembly of chimeric peptide probes on the surface of phospholipid-coated Ti3C2 MXenes and works as the fluorescent nanoprobe for the sensing of PTM enzymes. In the presence of a target PTM enzyme, the modification groups in the peptide probes are removed along with the digestion of the peptides by CPY, thereby leading to the release of labeled fluorophores. Consequently, fluorescent analysis of PTM enzymes, including deacetylase sirtuin-1 and protein phosphatase 2C at low-nanomolar concentrations was achieved. Furthermore, the versatility of the nanoprobes was also demonstrated in simultaneous profiling of the activities of the two PTM enzymes in different cells, as well as in evaluation of the inhibition on PTMs by small molecules in complicated biological samples. Therefore, this work deploys peptide-functionalized MXenes as a generic biosensing interface for the activity assay of PTM enzymes, providing a useful tool for biochemical research and clinical diagnosis.