Radiolabeled Rhein as Small-Molecule Necrosis Avid Agents for Imaging of Necrotic Myocardium

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• 作者：Qi Luo ; Qiaomei Jin ; Chang Su ; Dongjian Zhang ; Cuihua Jiang ; Anne Folta Fish ; Yuanbo Feng ; Yicheng Ni ; Jian ZhangZhiqi Yin
• 刊名：Analytical Chemistry
• 出版年：2017
• 出版时间：January 17, 2017
• 年：2017
• 卷：89
• 期：2
• 页码：1260-1266
• 全文大小：375K
• ISSN：1520-6882

文摘

A rapid and accurate identification of necrotic myocardium is of great importance for diagnosis, risk stratification, clinical decision-making, and prognosis evaluation of myocardial infarction. Here, we explored technetium-99m labeled rhein derivatives for rapid imaging of the necrotic myocardium. Three hydrazinonicotinic acid-linker-rhein (HYNIC-linker-rhein) derivatives were synthesized, and then, these synthetic compounds were labeled with technetium-99m using ethylenediaminediacetic acid (EDDA) and tricine as coligands [<sup>99msup>Tc(EDDA)-HYNIC-linker-rhein]. The necrosis avidity of the three <sup>99msup>Tc-labeled rhein derivatives was tested in a mouse model of ethanol-induced muscular necrosis by gamma counting, histochemical staining, and autoradiography. A lead tracer for visualization of necrotic myocardium was assessed by single photon emission computed tomography/computed tomography (SPECT/CT) imaging in a rat model with reperfused myocardial infarction. The necrosis avidity mechanism of the tracer was explored by DNA binding studies in vitro and blocking experiments in vivo. Results showed that the uptake in necrotic muscles of the three <sup>99msup>Tc-compounds was higher than that in viable muscles (P < 0.001). Autoradiography and histochemical staining results were consistent with selective uptake of the radiotracer in the necrotic regions. Among the these tracers, <sup>99msup>Tc(EDDA)-HYNIC-ethylenediamine-rhein [<sup>99msup>Tc(EDDA)-HYNIC-2C-rhein] displayed the best distribution profiles for imaging. The necrotic myocardium lesions were clearly visualized by SPECT/CT using <sup>99msup>Tc(EDDA)-HYNIC-2C-rhein at 1 h after injection. The necrotic-to-viable myocardium and necrotic myocardium-to-blood uptake ratios of <sup>99msup>Tc(EDDA)-HYNIC-2C-rhein were 4.79 and 3.02 at 1 h after injection. DNA binding studies suggested HYNIC-linker-rhein bound to DNA through intercalation. The uptake of <sup>99msup>Tc(EDDA)-HYNIC-2C-rhein in necrotic muscle was significantly blocked by excessive unlabeled rhein, with 77.61% decline at 1 h after coinjection. These findings suggested <sup>99msup>Tc(EDDA)-HYNIC-2C-rhein emerged as a “hot spot” imaging probe that has a potential for rapid imaging of necrotic myocardium. The necrosis avidity mechanism of <sup>99msup>Tc(EDDA)-HYNIC-linker-rhein may be due to its interaction with exposed DNA in necrotic tissues.