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  • Title: A Gd3+-based magnetic resonance imaging contrast agent sensitive to beta-galactosidase activity utilizing a receptor-induced magnetization enhancement (RIME) phenomenon.
    Author: Hanaoka K, Kikuchi K, Terai T, Komatsu T, Nagano T.
    Journal: Chemistry; 2008; 14(3):987-95. PubMed ID: 17992679.
    Abstract:
    Magnetic resonance imaging (MRI) permits noninvasive three-dimensional imaging of opaque organisms. Gadolinium (Gd(3+)) complexes have become important imaging tools as MRI contrast agents for MRI studies, though most of them are nonspecific and report solely on anatomy. Recently, MRI contrast agents have been reported whose ability to relax water protons is triggered or greatly enhanced by recognition of a particular biomolecule. This new class of MRI contrast agents could open up the possibility of reporting on the physiological state or metabolic activity deep within living specimens. One possible strategy for this purpose is to utilize the increase in the longitudinal water proton r(1) relaxivity that occurs upon slowing the molecular rotation of a small paramagnetic complex, a phenomenon which is known as receptor-induced magnetization enhancement (RIME), by either binding to a macromolecule or polymerization of the agent itself. Here we describe the design and synthesis of a novel beta-galactosidase-activated MRI contrast agent, the Gd(3+) complex [Gd-5], by using the RIME approach. beta-Galactosidase is commonly used as a marker gene to monitor gene expression. This newly synthesized compound exhibited a 57% increase in the r(1) relaxivity in phosphate-buffered saline (PBS) with 4.5% w/v human serum albumin (HSA) in the presence of beta-galactosidase. Detailed investigations revealed that RIME is the dominant factor in this increase of the observed r(1) relaxivity, based on analysis of Gd(3+) complexes [Gd-5] and [Gd-8], which is generated from [Gd-5] by the activity of beta-galactosidase, and spectroscopic analysis of their corresponding Tb(3+) complexes, [Tb-5] and [Tb-8].
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