使用 NS14490 评估作为心脏修复相关过程成像标记的α 7 烟碱乙酰胆碱受体。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Victoria J M Reid, Wesley K X McLoughlin, Kalyani Pandya, Holly Stott, Monika Iškauskienė, Algirdas Šačkus, Judit A Marti, Dominic Kurian, Thomas M Wishart, Christophe Lucatelli, Dan Peters, Gillian A Gray, Andrew H Baker, David E Newby, Patrick W F Hadoke, Adriana A S Tavares, Mark G MacAskill
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引用次数: 0

摘要

背景:心肌梗死(MI)后的心脏修复和重塑是一个多因素过程,涉及到前修复性炎症、血管生成和纤维化。使用针对这些过程的放射性示踪剂进行无创成像可用于阐明心脏伤口愈合机制。α7烟碱乙酰胆碱受体(ɑ7nAChR)能刺激巨噬细胞的修复活动和血管生成,因此是一种潜在的成像生物标志物。我们通过评估ɑ7nAChR的体外细胞表达,以及在组织自显影研究中使用PET放射性示踪剂[18F]NS14490的三价版本来研究这一点:结果:ɑ7nAChR在人类单核细胞衍生的巨噬细胞和血管细胞中的表达显示,巨噬细胞中的相对表达量最高,但只有内皮细胞表现出增殖和缺氧驱动的表达量增加。使用海绵植入后炎症血管生成的小鼠模型,[3H]NS14490的特异性结合从植入后第3天的3.6 ± 0.2 µCi/g增加到第7天的4.9 ± 0.2 µCi/g(n = 4,P 3H]NS14490在假性和远端心肌梗死心肌中含量较低。梗死后第 14 天起,梗死区内的特异性结合增加(33.8 ± 14.1 µCi/g,与假体相比,P ≤ 0.01),第 28 天达到高峰(48.9 ± 5.1 µCi/g,与假体相比,P ≤ 0.0001)。ɑ7nAChR阳性组织的组织学和蛋白质组学分析表明,ɑ7nAChR与细胞外基质沉积密切相关,大鼠心脏成纤维细胞在常氧和缺氧条件下表达ɑ7nAChR蛋白。在海绵模型中,NS14490成像显示的模式与血管形成、巨噬细胞浸润和纤维血管包裹相吻合,但在心肌梗死模型中并非如此,ɑ7nAChR成像信号与细胞外基质沉积密切相关,这可以用成纤维细胞中的ɑ7nAChR表达来解释。总之,这些研究结果支持ɑ7nAChR参与心脏修复的多个核心过程,其中纤维化与心肌梗死后的ɑ7nAChR关系最为密切。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of the alpha 7 nicotinic acetylcholine receptor as an imaging marker of cardiac repair-associated processes using NS14490.

Background: Cardiac repair and remodeling following myocardial infarction (MI) is a multifactorial process involving pro-reparative inflammation, angiogenesis and fibrosis. Noninvasive imaging using a radiotracer targeting these processes could be used to elucidate cardiac wound healing mechanisms. The alpha7 nicotinic acetylcholine receptor (ɑ7nAChR) stimulates pro-reparative macrophage activity and angiogenesis, making it a potential imaging biomarker in this context. We investigated this by assessing in vitro cellular expression of ɑ7nAChR, and by using a tritiated version of the PET radiotracer [18F]NS14490 in tissue autoradiography studies.

Results: ɑ7nAChR expression in human monocyte-derived macrophages and vascular cells showed the highest relative expression was within macrophages, but only endothelial cells exhibited a proliferation and hypoxia-driven increase in expression. Using a mouse model of inflammatory angiogenesis following sponge implantation, specific binding of [3H]NS14490 increased from 3.6 ± 0.2 µCi/g at day 3 post-implantation to 4.9 ± 0.2 µCi/g at day 7 (n = 4, P < 0.01), followed by a reduction at days 14 and 21. This peak matched the onset of vessel formation, macrophage infiltration and sponge fibrovascular encapsulation. In a rat MI model, specific binding of [3H]NS14490 was low in sham and remote MI myocardium. Specific binding within the infarct increased from day 14 post-MI (33.8 ± 14.1 µCi/g, P ≤ 0.01 versus sham), peaking at day 28 (48.9 ± 5.1 µCi/g, P ≤ 0.0001 versus sham). Histological and proteomic profiling of ɑ7nAChR positive tissue revealed strong associations between ɑ7nAChR and extracellular matrix deposition, and rat cardiac fibroblasts expressed ɑ7nAChR protein under normoxic and hypoxic conditions.

Conclusion: ɑ7nAChR is highly expressed in human macrophages and showed proliferation and hypoxia-driven expression in human endothelial cells. While NS14490 imaging displays a pattern that coincides with vessel formation, macrophage infiltration and fibrovascular encapsulation in the sponge model, this is not the case in the MI model where the ɑ7nAChR imaging signal was strongly associated with extracellular matrix deposition which could be explained by ɑ7nAChR expression in fibroblasts. Overall, these findings support the involvement of ɑ7nAChR across several processes central to cardiac repair, with fibrosis most closely associated with ɑ7nAChR following MI.

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