Optimized multimodal nanoplatforms for targeting αvβ3 integrins
Résumé
Magnetic Resonance Imaging (MRI) using contrast agents is a very powerful technique for diagnosis in
clinical medicine and biomedical research. The synthesis of ultrasmall superparamagnetic iron oxide
(USPIO) nanoparticles targeting avb3 integrins and acting as new MRI contrast agents seems to be a
promising way for cancer diagnosis. Indeed, it is well established that avb3 integrin plays a key role in
tumor angiogenesis acting like a receptor for the extracellular matrix proteins like vitronectin,
fibronectin through the arginine-glycine-aspartic acid (RGD) sequence. Up-regulation of avb3 has been
found to be associated with a wide range of cancers, making it a broad-spectrum tumor-marker. In this
study, USPIO nanocrystals were synthesized and surface passivated with caffeic acid. The large number
of the carboxylic acid functions at the outer surface of the nanoplatforms was used for the covalent
coupling of Rhodamine123, polyethylene glycol (PEG) and cyclic RGD. Soluble carbodiimide (EDC) and
N-hydroxysuccinimide (NHS) were used to crosslink carboxylic acid with the amino group of the ligands.
We examined the design of the nanoplatforms with each individual entity and then the combination of
two and three of them. Several methods were used to characterize the nanoparticle surface
functionalization and the magnetic properties of these contrast agents were studied using a 1.5 T
clinical MRI scanner. The affinity towards integrins was evidenced by surface plasmon resonance and
solid-phase receptor-binding assay.
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