Department of Chemistry and Biomolecular Sciences, University of Ottawa, Ottawa, Ontario, K1N 6N5, Canada.
University of Ottawa Heart Institute, Ottawa, Ontario, K1Y 4W7, Canada.
Mol Imaging Biol. 2022 Feb;24(1):93-103. doi: 10.1007/s11307-021-01626-9. Epub 2021 Jul 6.
Overexpression and activation of matrix metalloproteinase-13 (MMP-13) within atheroma increases susceptibility to plaque rupture, a major cause of severe cardiovascular complications. In comparison to pan-MMP targeting [F]BR-351, we evaluated the potential for [F]FMBP, a selective PET radiotracer for MMP-13, to detect extracellular matrix (ECM) remodeling in vascular plaques possessing markers of inflammation.
[F]FMBP and [F]BR-351 were initially assessed in vitro by incubation with en face aortae from 8 month-old atherogenic ApoE mice. Ex vivo biodistributions, plasma metabolite analyses, and ex vivo autoradiography were analogously performed 30 min after intravenous radiotracer administration in age-matched C57Bl/6 and ApoE mice under baseline or homologous blocking conditions. En face aortae were subsequently stained with Oil Red O (ORO), sectioned, and subject to immunofluorescence staining for Mac-2 and MMP-13.
High-resolution autoradiographic image analysis demonstrated target specificity and regional concordance to lipid-rich lesions. Biodistribution studies revealed hepatobiliary excretion, low accumulation of radioactivity in non-excretory organs, and few differences between strains and conditions in non-target organs. Plasma metabolite analyses uncovered that [F]FMBP exhibited excellent in vivo stability (≥74% intact) while [F]BR-351 was extensively metabolized (≤37% intact). Ex vivo autoradiography and histology of en face aortae revealed that [F]FMBP, relative to [F]BR-351, exhibited 2.9-fold greater lesion uptake, substantial specific binding (68%), and improved sensitivity to atherosclerotic tissue (2.9-fold vs 2.1-fold). Immunofluorescent staining of aortic en face cross sections demonstrated elevated Mac-2 and MMP-13-positive areas within atherosclerotic lesions identified by [F]FMBP ex vivo autoradiography.
While both radiotracers successfully identified atherosclerotic plaques, [F]FMBP showed superior specificity and sensitivity for lesions possessing features of destructive plaque remodeling. The detection of ECM remodeling by selective targeting of MMP-13 may enable characterization of high-risk atherosclerosis featuring elevated collagenase activity.
基质金属蛋白酶 13(MMP-13)在动脉粥样硬化中的过度表达和激活增加了斑块破裂的易感性,而斑块破裂是严重心血管并发症的主要原因。与泛 MMP 靶向[F]BR-351 相比,我们评估了选择性 PET 放射性示踪剂[F]FMBP 检测具有炎症标志物的血管斑块中细胞外基质(ECM)重塑的潜力。
首先通过与 8 个月大的动脉粥样硬化 ApoE 小鼠的主动脉正面孵育,评估[F]FMBP 和[F]BR-351 的体外活性。在基线或同源阻断条件下,30 分钟后,通过静脉注射放射性示踪剂,在年龄匹配的 C57Bl/6 和 ApoE 小鼠中进行类似的体外生物分布、血浆代谢物分析和离体放射性自显影研究。随后,用油红 O(ORO)对主动脉正面进行染色,切片,并进行 Mac-2 和 MMP-13 的免疫荧光染色。
高分辨率放射性自显影图像分析表明了靶向的特异性和与富含脂质病变的区域一致性。生物分布研究表明放射性示踪剂经肝胆排泄,非分泌器官的放射性示踪剂积累低,非目标器官在不同品系和条件之间的差异较小。血浆代谢物分析表明[F]FMBP 表现出极好的体内稳定性(≥74%完整),而[F]BR-351 则广泛代谢(≤37%完整)。主动脉正面的离体放射性自显影和组织学研究表明,与[F]BR-351 相比,[F]FMBP 对病变的摄取增加了 2.9 倍,特异性结合(68%)增加,对动脉粥样硬化组织的敏感性提高(2.9 倍比 2.1 倍)。对主动脉正面切片的免疫荧光染色显示,[F]FMBP 体外放射性自显影识别的动脉粥样硬化病变中 Mac-2 和 MMP-13 阳性区域增加。
虽然两种放射性示踪剂都成功地识别了动脉粥样硬化斑块,但[F]FMBP 对具有破坏性斑块重塑特征的病变具有更好的特异性和敏感性。通过 MMP-13 的选择性靶向检测 ECM 重塑,可能能够对胶原酶活性升高的高危动脉粥样硬化进行特征描述。
