Abstract
Identifying necrotic myocardium in ischemic regions is of great importance for risk stratification and clinical decision-making. However, rapid noninvasive imaging of necrotic myocardium is still challenging. This study sought to evaluate the potential of 1,4-naphthoquinones to rapidly visualize necrotic myocardium and the possible mechanisms of necrosis avidity. Six 1,4-naphthoquinones were radiolabeled with iodine-131 and the necrosis avidity was estimated in mouse models with muscular necrosis by gamma counting and autoradiography. The necrotic myocardium imaging property and biodistribution of [131I]naphthazarin (6) were determined in rat models with re-perfused myocardial infarction. A possible mechanism of necrosis avidity was explored by in vitro DNA-binding and in vivo blocking experiments. The radiochemical purities of the six radiotracers were greater than 95%. The uptakes in necrotic muscles of all six radiotracers were higher than those in viable muscles, and [131I]naphthazarin (6) showed the highest necrotic-to-viable ratio and necrosis-to-blood ratio at all tested time points. The necrotic myocardium could be clearly visualized by single-photon emission computed tomography/x-ray computed tomography (SPECT/CT) using [131I]naphthazarin (6) as early as 3h post-injection. Post-mortem biodistribution showed the uptake of [131I]naphthazarin (6) in necrotic myocardium was 11.67-fold higher than that in viable myocardium. Absorption spectra and emission spectra suggested naphthazarin (6) could bind to DNA through intercalation. The uptake of [131I]naphthazarin (6) in necrotic muscle could be significantly blocked by excessive ethidium bromide (a typical DNA intercalator) and cold naphthazarin (6) with 63.49 and 71.96% decline at 3h post-injection in vivo, respectively. 1,4-Naphthoquinones retained necrosis avidity and [131I]naphthazarin (6) rapidly visualized necrotic myocardium. The necrosis avidity mechanism of [131I]naphthazarin (6) may be attributed to its binding with exposed DNA in necrotic tissues.
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