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Retro-enantio isomer of angiopep-2 assists nanoprobes across the blood-brain barrier for targeted magnetic resonance/fluorescence imaging of glioblastoma

Ruoxi Xie, Zijun Wu, Fanxin Zeng, Huawei Cai, Dan Wang, Lei Gu, Hongyan Zhu, Su Lui, Gang Guo, Bin Song, Jinxing Li, Min Wu, Qiyong Gong

2021Signal Transduction and Targeted Therapy73 citationsDOIOpen Access PDF

Abstract

Abstract Glioblastoma (GBM), one of the most common primary intracranial malignant tumours, is very difficult to be completely excised by surgery due to its irregular shape. Here, we use an MRI/NIR fluorescence dual-modal imaging nanoprobe that includes superparamagnetic iron oxide nanoparticles (SPIONs) modified with indocyanine (Cy7) molecules and peptides (ANG or D ANG) to locate malignant gliomas and guide accurate excision. Both peptides/Cy7-SPIONs probes displayed excellent tumour-homing properties and barrier penetrating abilities in vitro, and both could mediate precise aggregation of the nanoprobes at gliomas sites in in vivo magnetic resonance imaging (MRI) and ex vivo near-infrared (NIR) fluorescence imaging. However, compared with ANG/Cy7-SPIONs probes, D ANG/Cy7-SPIONs probes exhibited better enhanced MR imaging effects. Combining all these features together, this MRI/NIR fluorescence imaging dual-modal nanoprobes modified with retro-enantio isomers of the peptide have the potential to accurately display GBMs preoperatively for precise imaging and intraoperatively for real-time imaging.

Topics & Concepts

Magnetic resonance imagingNanoprobeIn vivoGlioblastomaFluorescence-lifetime imaging microscopyEx vivoMolecular imagingFluorescencePreclinical imagingBlood–brain barrierChemistryNuclear magnetic resonanceIn vitroCancer researchMaterials scienceMedicineRadiologyNanoparticleNanotechnologyBiologyBiochemistryCentral nervous systemQuantum mechanicsBiotechnologyPhysicsEndocrinologyNanoplatforms for cancer theranosticsNanoparticle-Based Drug DeliveryCell Adhesion Molecules Research
Retro-enantio isomer of angiopep-2 assists nanoprobes across the blood-brain barrier for targeted magnetic resonance/fluorescence imaging of glioblastoma | Litcius