LS301 is a promising NIR fluorescence probe for targeting brain glioma cancer. The co-localization of LS31 and 5-ALA induced PpIX in vitro and in vivo enables LS301 to guide PpIX fluorescence image surgery. Moreover, LS301 showed no negative impact on 5-ALA-PpIX PDT outcome in brain glioma cells and mouse tumor model. Therefore, the implementation of LS301 and PpIX has potential to improve tumor resection surgery and PDT treatment for better tumor outcomes.
KEYWORDS: Tumors, In vivo imaging, Luminescence, Confocal microscopy, Cancer, Breast cancer, Chemistry, Near infrared, Imaging systems, Near infrared spectroscopy
Cyclic arginine-glycine-aspartic acid (cRGD) peptides are well known to target ανβ3 integrin expressed on cancer cells and neovasculature. Conjugation of these peptides with dyes, drugs, antibodies and other biomolecules through covalent linkers provides a facile way to deliver these products to tumor cells for targeted cancer therapy and diagnosis. Click chemistry and acid-amine couplings are widely used conjugation strategies. However, the effects of different linkers and the distance between the cRGD and the conjugates on the binding of cRGD ligand with ανβ3 has been underexplored.
In this present study, we prepared cRGD-conjugates using different linkers and determined how they altered the tumor targeting efficiency in vitro and in vivo. The results demonstrate that different linkers significantly altered the pharmacokinetics of the cRGD conjugates and the tumor uptake kinetics. Unlike large antibodies, this preliminary finding shows that linkers used to attach drugs and fluorescent molecular probes to small peptides play a major role in the accuracy of tumor targeting and treatment outcomes. As a result, considerable attention should be paid to the nature of linkers used in the design of molecular probes and targeted therapeutics.
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