Method for enhancing cell penetration of Gd³⁺-based MRI contrast agents by conjugation with hydrophobic fluorescent dyes

Gadolinium ion (Gd³⁺) complexes are commonly used as magnetic resonance imaging (MRI) contrast agents to enhance signals in T ₁-weighted MR images. Recently, several methods to achieve cell-permeation of Gd³⁺ complexes have been reported, but more general and efficient methodology is needed. In this report, we describe a novel method to achieve cell permeation of Gd³⁺ complexes by using hydrophobic fluorescent dyes as a cell-permeability-enhancing unit. We synthesized Gd³⁺ complexes conjugated with boron dipyrromethene (BDP-Gd) and Cy7 dye (Cy7-Gd), and showed that these conjugates can be introduced efficiently into cells. To examine the relationship between cell permeability and dye structure, we further synthesized a series of Cy7-Gd derivatives. On the basis of MR imaging, flow cytometry, and ICP-MS analysis of cells loaded with Cy7-Gd derivatives, highly hydrophobic and nonanionic dyes were effective for enhancing cell permeation of Gd³⁺ complexes. Furthermore, the behavior of these Cy7-Gd derivatives was examined in mice. Thus, conjugation of hydrophobic fluorescent dyes appears to be an effective approach to improve the cell permeability of Gd³⁺ complexes, and should be applicable for further development of Gd³⁺-based MRI contrast agents.