Enzymatic activity monitoring through dynamic nuclear polarization in Earth magnetic field #DNPNMR

Published: Monday, 03 January 2022 - 00:00 UTC

Author: Thorsten Maly

Parzy, E., D. Boudries, Samuel Jacoutot, Muriel Albalat, Nicolas Vanthuyne, J-M Franconi, P. Mellet, et al. “Enzymatic Activity Monitoring through Dynamic Nuclear Polarization in Earth Magnetic Field.” Journal of Magnetic Resonance 333 (December 1, 2021): 107095.

https://doi.org/10.1016/j.jmr.2021.107095.

Cost-effective and portable MRI systems operating at Earth-field would be helpful in poorly accessible areas or in developing nations. Furthermore Earth-field MRI can provide new contrasts opening the way to the observation of pathologies at the biochemical level. However low-field MRI suffers from a dramatic lack in detection sensitivity even worsened for molecular imaging purposes where biochemical specificity requires detection of dilute compounds. In a preliminary spectroscopic approach, it is proposed here to detect protease-driven hydrolysis of a nitroxide probe thanks to electron-nucleus Overhauser enhancement in a home-made double resonance system in Earth-field. The combination of the Overhauser effect and the specific enzymatic modification of the probe provides a smart contrast reporting the enzymatic activity. The nitroxide probe is a six-line nitroxide which lines are shifted according to its substrate/product state, which requires quantum mechanical calculations to predict EPR line frequencies and Overhauser enhancements at Earth field. The NMR system is equipped with a 13-mT prepolarization coil, a 153-MHz EPR coil and a 2-kHz NMR coil. Either prepolarized NMR or DNP-NMR without prepolarization provide NMR spectra within 3 min. The frequency dependence of Overhauser enhancement was in agreement with theoretical calculations. Protease-mediated catalysis of the nitroxide probe could only be measured through the Overhauser effect with 5 min time resolution. Future developments shall open the way for the design of new low-field DNP-MRI systems.