2016
DOI: 10.18632/oncotarget.8763
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Optical and nuclear imaging of glioblastoma with phosphatidylserine-targeted nanovesicles

Abstract: Multimodal tumor imaging with targeted nanoparticles potentially offers both enhanced specificity and sensitivity, leading to more precise cancer diagnosis and monitoring. We describe the synthesis and characterization of phenol-substituted, lipophilic orange and far-red fluorescent dyes and a simple radioiodination procedure to generate a dual (optical and nuclear) imaging probe. MALDI-ToF analyses revealed high iodination efficiency of the lipophilic reporters, achieved by electrophilic aromatic substitution… Show more

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Cited by 18 publications
(19 citation statements)
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“…In another study, mice bearing intracranial U87ΔEGFR-Luc and X12v2 glioma received intravenous injection of SapC-DOPS, resulting in full tumor disappearance 250–350 days following drug injection among 25–75% of treated mice (Wojton et al, 2013 ). Interestingly, SapC-DOPS could also be conjugated with Gd (Winter et al, 2015 ), or with iodine-127 or iodine-124-fluorescent markers (Blanco et al, 2016 ), to image GBM tumors.…”
Section: The Different Gbm Treatments Commercialized or Under Developmentioning
confidence: 99%
“…In another study, mice bearing intracranial U87ΔEGFR-Luc and X12v2 glioma received intravenous injection of SapC-DOPS, resulting in full tumor disappearance 250–350 days following drug injection among 25–75% of treated mice (Wojton et al, 2013 ). Interestingly, SapC-DOPS could also be conjugated with Gd (Winter et al, 2015 ), or with iodine-127 or iodine-124-fluorescent markers (Blanco et al, 2016 ), to image GBM tumors.…”
Section: The Different Gbm Treatments Commercialized or Under Developmentioning
confidence: 99%
“…Lin et al formed an optical/PET agent by surface attachment of chelator-based 64 Cu and a Cy5.5 dye to ferritin nanocages [43]. Similarly, Blanco et al [44] developed a SapC-DOPS nanoparticle functionalized with an organic dye and radiolabelled with 124/127 I. PET imaging was used to quantify targeting to glioblastoma in vivo, with the optical dye potentially acting as a surgical marker to ensure all cancerous tissue is removed during invasive brain surgery.…”
Section: (C) Pet or Spect With Opticalmentioning
confidence: 99%
“…The six phenolic compounds were incorporated into SapC-DOPS nanovesicles as previously described [ 15 , 27 ]. The fluorescent nanovesicles were then tested for association with human U87Δ epidermal growth factor receptor (EGFR)-Luc GBM cells; these cells express a truncated, constitutively active, mutant epidermal growth factor receptor (EGFRvIII, obtained from Dr. Webster Cavenee; Ludwig Cancer Institute, San Diego, CA, USA) by flow cytometry using a BD Fortessa ( Figure 3 ).…”
Section: Methodsmentioning
confidence: 99%
“…In addition, the tumor microenvironment is acidic [ 25 ], which enhances the binding of SapC-DOPS to the surface PS of cancer cells. SapC-DOPS specifically targets PS on the surface of tumor cells in this acidic milieu, leading to ceramide accumulation, caspase activation and eventual apoptosis [ 15 ], selectively killing GBM tumor cells, without apparent off-target toxicity to normal cells and tissues [ 26 , 27 , 28 ]. Indeed, SapC-DOPS has shown an exemplary safety profile in Phase I clinical trials [ 29 , 30 ].…”
Section: Introductionmentioning
confidence: 99%