Parahydrogen-Polarized Fumarate for Preclinical in Vivo Metabolic Magnetic Resonance Imaging.
Martin GierseLuca NagelMichael KeimSebastian LucasTobias SpeidelTobias LobmeyerGordon WinterFelix JostenSenay KaraaliMaximilian FellermannJochen ScheuerChristoph MüllerFrits H A van HeijsterJason SkinnerJessica LöfflerAnna ParkerJonas HandwerkerAlastair MarshallAlon SalhovBilal El-KassemChristophoros VassiliouJohn W BlanchardRomán Picazo-FrutosJames EillsHolger BarthFedor JelezkoVolker RascheFranz SchillingIlai SchwartzStephan KnechtPublished in: Journal of the American Chemical Society (2023)
We present a versatile method for the preparation of hyperpolarized [1- 13 C]fumarate as a contrast agent for preclinical in vivo MRI, using parahydrogen-induced polarization (PHIP). To benchmark this process, we compared a prototype PHIP polarizer to a state-of-the-art dissolution dynamic nuclear polarization (d-DNP) system. We found comparable polarization, volume, and concentration levels of the prepared solutions, while the preparation effort is significantly lower for the PHIP process, which can provide a preclinical dose every 10 min, opposed to around 90 min for d-DNP systems. With our approach, a 100 mM [1- 13 C]-fumarate solution of volumes up to 3 mL with 13-20% 13 C-hyperpolarization after purification can be produced. The purified solution has a physiological pH, while the catalyst, the reaction side products, and the precursor material concentrations are reduced to nontoxic levels, as confirmed in a panel of cytotoxicity studies. The in vivo usage of the hyperpolarized fumarate as a perfusion agent in healthy mice and the metabolic conversion of fumarate to malate in tumor-bearing mice developing regions with necrotic cell death is demonstrated. Furthermore, we present a one-step synthesis to produce the 13 C-labeled precursor for the hydrogenation reaction with high yield, starting from 13 CO 2 as a cost-effective source for 13 C-labeled compounds.
Keyphrases
- magnetic resonance imaging
- contrast enhanced
- cell death
- cell therapy
- high fat diet induced
- magnetic resonance
- pet imaging
- computed tomography
- type diabetes
- molecularly imprinted
- ionic liquid
- room temperature
- adipose tissue
- mass spectrometry
- diabetic rats
- metal organic framework
- liquid chromatography
- solid state
- carbon dioxide
- cell cycle arrest
- simultaneous determination