We synthesize a NIR MHI-148 dye, a lipophilic heptamethine cyanine, with capability in tumor-targeting property to accumulate in the mitochondria of tumor. In the context of MHI-148 dye, we demonstrate effective tumor targeting and NIR fluorescence in vitro and in vivo for MHI-148 as compared to ICG. A series of porous Gd silicates related nanoparticles, i.e. Gd silicate, Gd silicate@mSiO(2) (mSiO(2): mesoporous silica shell), and Gd(3+)-chelated Gd silicate@mSiO(2) (Gd(3+)-DOTA chelated on the mSiO(2)) are fabricated to demonstrate their magnetic resonance (MR) contrast imaging effects. Those Gd silicates related nanoparticles exhibit dual MR effect, expressing T(1)-brightened and T(2)-darkened effects, in lower magnetic field. In high magnetic field, an abnormal enhanced transverse relaxivity (r(2)) appears, showing an effective T(2)-lowering effect, possibly due to concentrated Gd amount and porous architecture. The r(2) value increases 4-5 times as the field strength increased from 3T to 7T. The Gd(3+)-chelated Gd silicate@mSiO(2) has given large r(2) (T(2)-lowering effect) up to 343.8 s(-1) mM(-1), which is even larger than the reported magnetic Fe(3)O(4) nanoparticles measured at the same field. Using a 9.4T animal micro MRI system we have seen effectively darken in signal for those porous Gd silicates related NPs, while no such phenomenon appears in commercial Gd-DOTA agent. The MHI-148 is then conjugated on the porous Gd silicate@mSiO(2) nanoparticles for a new paradigm with three functionalities for in vivo tumor targeting, near-infrared fluorescent and MR imaging by means of only using MHI-148 dye.
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