Abstract
PurposePreclinical imaging of endothelial activation and mineralization using both positron emission tomography (PET) and magnetic resonance (MR) remains scarce.ProceduresA group of uremic ApoE−/− (Ur), non-uremic ApoE−/− (NUr), and control C57Bl/6 J mice (Ctl) were investigated. Mineralization process was assessed using sodium fluoride ([18F]NaF) PET, and MR imaging combined with intravenous injection of MPIO-αVCAM-1 was used to evaluate endothelial activation. Micro- and macrocalcifications were evaluated by flame atomic absorption spectroscopy and von Kossa staining, respectively.ResultsUr mice showed an active and sustained mineralization process compared to Ctl mice (p = 0.002) using [18F]NaF PET imaging. Calcium plasma level was increased in Ur (2.54 ± 0.09 mM, n = 17) compared to NUr and Ctl mice (2.24 ± 0.01, n = 22, and 2.14 ± 0.02, n = 27, respectively; p < 0.0001). Likewise, vascular calcium content was increased in Ur (0.51 ± 0.06 μg Ca2+ per milligram of dry weight aorta, n = 11) compared to NUr (0.27 ± 0.05, n = 9, p = 0.013) and Ctl (0.28 ± 0.05, n = 11, p = 0.014). Ur mice also had a higher inflammatory state using MPIO-αVCAM-1 MR (p global = 0.01, post hoc analysis Ur vs. Ctl p = 0.003) associated with increased VCAM-1 expression (p global = 0.02). Aortic remodeling at the level of the brachiocephalic trunk, brachiocephalic trunk itself, and aortic arch in Ur mice was also demonstrated using MR.ConclusionsPreclinical molecular imaging allowed in vivo characterization of the early phase of atherosclerosis. [18F]NaF PET showed early and sustained vascular mineralization in uremic ApoE−/− mice. MPIO-αVCAM-1 MR imaging demonstrated aortic endothelial activation, predominantly in segments with vascular remodeling.
Highlights
Atherosclerosis is a leading cause of death and disability worldwide and involves several pathophysiological processes including endothelial activation, inflammation, mineralization, and necrosis
Preclinical molecular imaging allowed in vivo characterization of the early phase of atherosclerosis. [18F]Sodium fluoride (NaF) positron emission tomography (PET) showed early and sustained vascular mineralization in uremic ApoE−/− mice
There was a significant impact of animal group on aortic [18F]NaF uptake (p = 0.01), and post hoc analysis showed a significant difference between uremic ApoE−/− (Ur) and Control C57Bl/6 J (Ctl) mice (p = 0.002)
Summary
Atherosclerosis is a leading cause of death and disability worldwide and involves several pathophysiological processes including endothelial activation, inflammation, mineralization, and necrosis. Vascular remodeling and the inflammatory state of lesions determine the plaque (2019) 9:80 recognized as a mediator of both mineralization and local inflammation in pathologic conditions [4] and was found to be expressed in atherosclerotic lesions [5] as an increased expression of alkaline phosphatase [6]. The estimation of soluble biomarkers such as intracellular adhesion molecule-1 (ICAM-1) or vascular cell adhesion molecule-1 (VCAM-1) underlines the level of endothelial activation. Associated with an intravenous injection of micron-sized particles of iron oxide (MPIO) conjugated with specific αVCAM-1 antibodies, MR imaging allows the endothelial activation mapping in mice [9]
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