Université Paris-Saclay, CNRS, Institut de Chimie des Substances Naturelles, UPR 2301, 91198, Gif-sur-Yvette, France.
Centre de Biophysique Moléculaire, CNRS UPR 4301, Université d'Orléans, rue Charles Sadron, 45071, Orléans, France.
Angew Chem Int Ed Engl. 2024 Apr 15;63(16):e202317728. doi: 10.1002/anie.202317728. Epub 2024 Mar 12.
Applying a single molecular probe to monitor enzymatic activities in multiple, complementary imaging modalities is highly desirable to ascertain detection and to avoid the complexity associated with the use of agents of different chemical entities. We demonstrate here the versatility of lanthanide (Ln) complexes with respect to their optical and magnetic properties and their potential for enzymatic detection in NIR luminescence, CEST and T1 MR imaging, controlled by the nature of the Ln ion, while using a unique chelator. Based on X-ray structural, photophysical, and solution NMR investigations of a family of Ln DO3A-pyridine model complexes, we could rationalize the luminescence (Eu, Yb), CEST (Yb) and relaxation (Gd) properties and their variations between carbamate and amine derivatives. This allowed the design of probes which undergo enzyme-mediated changes detectable in NIR luminescence, CEST and T1-weighted MRI, respectively governed by variations in their absorption energy, in their exchanging proton pool and in their size, thus relaxation efficacy. We demonstrate that these properties can be exploited for the visualization of β-galactosidase activity in phantom samples by different imaging modalities: NIR optical imaging, CEST and T1-weighted MRI.
将单一的分子探针应用于多种互补成像模式中的酶活性监测,以确定检测并避免使用不同化学实体的试剂所带来的复杂性,这是非常理想的。我们在这里展示了镧系(Ln)配合物在其光学和磁学性质方面的多功能性,以及它们在近红外发光、CEST 和 T1 MR 成像中的酶检测潜力,这是通过 Ln 离子的性质来控制的,同时使用独特的螯合剂。基于对一系列 Ln DO3A-吡啶模型配合物的 X 射线结构、光物理和溶液 NMR 研究,我们可以合理化发光(Eu、Yb)、CEST(Yb)和弛豫(Gd)性质以及它们在氨基甲酸酯和胺衍生物之间的变化。这使得可以设计探针,这些探针可以在近红外发光、CEST 和 T1 加权 MRI 中分别检测到酶介导的变化,这分别受它们的吸收能量、交换质子池和它们的大小以及弛豫效率的变化控制。我们证明,这些性质可以通过不同的成像模式用于可视化幻影样品中的β-半乳糖苷酶活性:近红外光学成像、CEST 和 T1 加权 MRI。
