School of Chemistry and Materials Science, Rochester Institute of Technology, Rochester, New York 14623, United States.
Gosnell School of Life Sciences, Rochester Institute of Technology, Rochester, New York 14623, United States.
ACS Appl Bio Mater. 2021 Jul 19;4(7):5435-5448. doi: 10.1021/acsabm.1c00157. Epub 2021 Jun 4.
A practical, modular synthesis of targeted molecular imaging agents (TMIAs) containing near-infrared dyes for optical molecular imaging (OMI) or chelated metals for magnetic resonance imaging (MRI) and single-photon emission correlation tomography (SPECT) or positron emission tomography (PET) has been developed. In the method, imaging modules are formed early in the synthesis by attaching imaging agents to the side chain of protected lysines. These modules may be assembled to provide a given set of single- or dual-modal imaging agents, which may be conjugated in the last steps of the synthesis under mild conditions to linkers and targeting groups. A key discovery was the ability of a metal such as gadolinium, useful in MRI, to serve as a protecting group for the chelator, 1,4,7,10-tetraazacyclododecane-1,4,7,10-DOTA). It was further discovered that two lanthanide metals, La and Ce, can double as protecting groups and placeholder metals, which may be transmetalated under mild conditions by metals used for PET in the final step. The modular method enabled the synthesis of discrete targeted probes with two of the same or different dyes, two same or different metals, or mixtures of dyes and metals. The approach was exemplified by the synthesis of single- or dual-modal imaging modules for MRI-OMI, PET-OMI, and PET-MRI, followed by conjugation to the integrin-seeking peptide, c(RGDyK). For Gd modules, their efficacy for MRI was verified by measuring the NMR spin-lattice relaxivity. To validate functional imaging of TMIAs, dual-modal agents containing Cy5.5 were shown to target A549 cancer cells by confocal fluorescence microscopy.
一种实用的、模块化的合成方法,用于制备包含近红外染料的靶向分子成像剂(TMIAs),用于光学分子成像(OMI)或螯合金属用于磁共振成像(MRI)和单光子发射相关断层扫描(SPECT)或正电子发射断层扫描(PET)。在该方法中,通过将成像剂附着到保护赖氨酸的侧链上,在合成的早期形成成像模块。这些模块可以组装在一起,提供给定的一组单模态或双模态成像剂,这些成像剂可以在合成的最后步骤中在温和的条件下与接头和靶向基团连接。一个关键的发现是,镧系金属(如钆,在 MRI 中有用)可以作为螯合剂(1,4,7,10-四氮杂环十二烷-1,4,7,10-DOTA)的保护基团。进一步发现,两种镧系金属镧和铈可以双重作为保护基团和占位金属,在温和的条件下可以通过最后一步用于 PET 的金属进行转金属化。这种模块化方法使合成具有相同或不同染料、相同或不同金属或染料和金属混合物的离散靶向探针成为可能。该方法通过合成 MRI-OMI、PET-OMI 和 PET-MRI 的单模态或双模态成像模块,并随后与整合素靶向肽 c(RGDyK)连接来举例说明。对于 Gd 模块,通过测量 NMR 自旋晶格弛豫率来验证其用于 MRI 的功效。为了验证 TMIAs 的功能成像,含有 Cy5.5 的双模态试剂通过共焦荧光显微镜显示出靶向 A549 癌细胞的能力。