水合反氢极化乙基-[1-¹³C]丙酮酸，一种促进 PHIP-SAH 代谢成像方法的关键底物。

ParaHydrogen Polarized Ethyl-[1- C]pyruvate in Water, a Key Substrate for Fostering the PHIP-SAH Approach to Metabolic Imaging.

机构信息

Institute of Biostructures and Bioimaging, National Research Council, Via Nizza 52, 10126, Torino, Italy.

Department of Molecular Biotechnology and Health Sciences Molecular Imaging Centre, University of Torino, Via Nizza 52, 10126, Torino, Italy.

出版信息

Chemphyschem. 2021 Jun 4;22(11):1042-1048. doi: 10.1002/cphc.202100062. Epub 2021 May 7.

DOI:10.1002/cphc.202100062

PMID:33720491

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8251755/

Abstract

An efficient synthesis of vinyl-[1- C]pyruvate has been reported, from which C hyperpolarized (HP) ethyl-[1- C]pyruvate has been obtained by means of ParaHydrogen Induced Polarization (PHIP). Due to the intrinsic lability of pyruvate, which leads quickly to degradation of the reaction mixture even under mild reaction conditions, the vinyl-ester has been synthesized through the intermediacy of a more stable ketal derivative. C and H hyperpolarizations of ethyl-[1- C]pyruvate, hydrogenated using ParaHydrogen, have been compared to those observed on the more widely used allyl-derivative. It has been demonstrated that the spin order transfer from ParaHydrogen protons to C, is more efficient on the ethyl than on the allyl-esterdue to the larger J-couplings involved. The main requirements needed for the biological application of this HP product have been met, i. e. an aqueous solution of the product at high concentration (40 mM) with a good C polarization level (4.8 %) has been obtained. The in vitro metabolic transformation of the HP ethyl-[1- C]pyruvate, catalyzed by an esterase, has been observed. This substrate appears to be a good candidate for in vivo metabolic investigations using PHIP hyperpolarized probes.

摘要

已报道了一种高效合成乙烯基-[1- C]丙酮酸的方法，通过 ParaHydrogen Induced Polarization (PHIP) 可得到 C 超极化（HP）乙基-[1- C]丙酮酸。由于丙酮酸的固有不稳定性，即使在温和的反应条件下，反应混合物也会迅速降解，因此乙烯基酯是通过更稳定的缩酮衍生物中间体合成的。使用 ParaHydrogen 氢化的乙基-[1- C]丙酮酸的 C 和 H 超极化与更广泛使用的烯丙基衍生物观察到的超极化进行了比较。已经证明，由于涉及更大的 J 耦合，ParaHydrogen 质子向 C 的自旋顺序转移在乙基酯上比在烯丙基酯上更有效。已经满足了该 HP 产物生物应用的主要要求，即获得了高浓度（40 mM）、具有良好 C 极化水平（4.8%）的产物水溶液。观察到 HP 乙基-[1- C]丙酮酸在酯酶催化下的体外代谢转化。该底物似乎是使用 PHIP 超极化探针进行体内代谢研究的良好候选物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0380/8251755/6358c582af17/CPHC-22-1042-g001.jpg

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水合反氢极化乙基-[1-¹³C]丙酮酸，一种促进 PHIP-SAH 代谢成像方法的关键底物。

ParaHydrogen Polarized Ethyl-[1- C]pyruvate in Water, a Key Substrate for Fostering the PHIP-SAH Approach to Metabolic Imaging.

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