DOTA Functionalized Cross-Linked Small-Molecule Micelles for Theranostics Combining Magnetic Resonance Imaging and Chemotherapy.

Herein, a new theranostic nanoplatform was built by introducing DOTA on the surface of the cross-linked small molecular micelles. This nanoplatform consisted of three parts: (1) Hydrophobic alkyl chain functioned with alkenes as cross-linkable part to ensure the robust stability in vivo; (2) Hydrophilic DOTA for not only gadolinium ions complexion as MR imaging contrast agents but also platinum ions complexion as drug carriers; (3) Cisplatin as antitumor drug and MR imaging amplifier simultaneously. The metal loading content of the resulting Pt/Gd@DOTA-CSMs was up to 12 and 14 wt % for Gd(III) and Pt(II), respectively. The longitudinal relaxation rate of Gd@DOTA-CSMs (8.46 mM-1 s-1) was 2.6 times than that of the clinical Gd-DTPA (3.23 mM-1 s-1). When cisplatin was involved, not only great antitumor efficiency was achieved, but higher longitudinal relaxation rate of Pt/Gd@DOTA-CSMs (11.17 mM-1 s-1) was carried out due to the extension of rotational correlation time. The experiments of Balb/c mice bearing 4T1 xenograft indicated that Pt/Gd@DOTA-CSMs had better antitumor activity, lower side effect than clinically used cisplatin, and greater MR imaging than Gd-DTPA. All the results proved that the nanoplatform of DOTA-CSMs held remarkable potential in the field of therapeutics.