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Quantum Dot–Peptide Conjugates as Energy Transfer Probes for Sensing the Proteolytic Activity of Matrix Metalloproteinase-14

Zhicheng Jin, Narjes Dridi, Goutam Palui, Valle Palomo, Jesse V. Jokerst, Phillip E. Dawson, Qing‐Xiang Amy Sang, Hedi Mattoussi

2023Analytical Chemistry37 citationsDOI

Abstract

We detail the assembly and characterization of quantum dot (QD)−dye conjugates constructed using a peptide bridge specifically designed to recognize and interact with a breast cancer biomarker─matrix metalloproteinase-14 (MMP-14). The assembled QD conjugates are then used as optically addressable probes, relying on Förster resonance energy transfer (FRET) interactions as a transduction mechanism to detect the activity of MMP-14 in solution phase. The QDs were first coated with dithiolane poly(ethylene glycol) (PEG) bearing a carboxyl group that allows coupling via amide bond formation with different dye-labeled peptides. The analytical capability of the conjugates is enabled by correlating changes in the FRET efficiency with the conjugate valence and/or QD-to-dye separation distance, triggered and modulated by enzymatic proteolysis of surface-tethered peptides. The FRET probe exhibits great sensitivity to enzyme digestion with sub-nanomolar limit of detection. We further analyze the proteolysis data within the framework of the Michaelis–Menten model, which considers the fact that surface-attached peptides have a slower diffusion coefficient than free peptides. This results in reduced collision frequency and lower catalytic efficiency, k cat / K M . Our results suggest that our conjugate design is promising, effective, and potentially useful for in vivo analysis.

Topics & Concepts

ChemistryFörster resonance energy transferConjugatePeptideEthylene glycolCombinatorial chemistryProteolysisCovalent bondQuantum dotBiophysicsLinkerEnzymeBiochemistryNanotechnologyOrganic chemistryFluorescenceComputer scienceMathematicsMaterials scienceQuantum mechanicsPhysicsMathematical analysisOperating systemBiologyQuantum Dots Synthesis And PropertiesAdvanced biosensing and bioanalysis techniquesMolecular Junctions and Nanostructures