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Novel Near Infrared Dyes Targeting Carbonic Anhydrase IX for Fluorescence Imaging Applications

化学 体内 荧光寿命成像显微镜 生物化学 荧光 生物物理学 癌症研究 分子生物学 医学 生物 物理 生物技术 量子力学
作者
Roberta Napolitano,Alessia Adamo,Luca Biondi,Alessia Cordaro,Margherita Iaboni,Francesco Stummo,Francesca La Cava,Francesca Arena,Daniele Faletto,Federica Chianale,Erika Reitano,Luisa Poggi,Francesco Blasi
出处
期刊:Investigative Radiology [Lippincott Williams & Wilkins]
卷期号:60 (12): 864-874
标识
DOI:10.1097/rli.0000000000001204
摘要

OBJECTIVES: Fluorescence tumor-targeted imaging is a sensitive technique that may assist surgeons to remove residual cancer tissue during resection. Carbonic anhydrase IX (CAIX) is a tumor-associated cell-surface glycoprotein, upregulated in hypoxic environments, and a suitable biomarker to develop targeted dyes for fluorescence-guided surgery. This study describes design, synthesis, in vitro and in vivo assessment of novel CAIX-targeting fluorescent probes based on the well-known drug acetazolamide, addressing the contribution of both targeting moiety and fluorophore structure on imaging efficacy. MATERIALS AND METHODS: All the CAIX-targeting heptamethine cyanines synthesized and described in the present work were characterized in terms of their optical properties in different media. The affinity to human serum albumin was evaluated by UV-VIS spectrophotometry. The affinity to the CA catalytic site was determined on a recombinant bovine CAII enzyme (bCAII), with a fluorescent-based assay. Human colon adenocarcinoma HT-29 cells, highly expressing CAIX, were used for the in vitro characterization, including cell binding, uptake and competition assays, by flow cytometry. Finally, the in vivo tumor targeting efficacy of a selected group of probes was assessed by Optical Imaging in a mouse subcutaneous tumor from HT-29 cells, characterized by both expression of CAIX and a hypoxic tumor microenvironment. RESULTS: First, a family of CAIX-targeting probes was prepared by functionalizing a novel glucamine-bearing heptamethine cyanine (Dye1) with a modified acetazolamide moiety, whose acetyl group was replaced with i) aminooctanoic acid C8 , ii) phenylalanine, iii) amino-PEG2-acid and iv) the longer linker 4a , or 2 commercially available benzenesulfonamides. From the in vitro screening of this first group of compounds, the C8-AZA targeting moiety was selected due to its highest affinity. Indeed, Dye1-C8-AZA exhibited the lowest K D values for both bCAII (6.1 ± 1.6 nM) and CAIX-expressing HT-29 cells (58 ± 9 nM), even lower than HypoxyFluor-1 (HF-1), a CAIX-targeted dye already reported in the literature. Then, other heptamethine cyanines (Dye2-Dye5, linear or cyclic, with different substituents on the indolenines and different conjugation position of the targeting vector) were functionalized with C8-AZA and fully characterized both in vitro and in vivo , to evaluate the combinatory effect of vector and fluorophore on the performance of the resulting probes. The different chemical features of the cyanines influenced the optical properties, solubility, binding with albumin, biodistribution, and imaging efficacy of the probes, while leaving unaffected the high affinity to the target. When tested in vivo for the visualization of CAIX-expressing HT-29 tumors, all C8-AZA probes showed high and specific tumor accumulation, often superior to HF-1. CONCLUSIONS: Several CAIX-targeting probes were synthesized to test the combinatory effect of different molecular vectors and dyes on the biological properties. All probes containing the C8-AZA targeting moiety displayed higher affinity and specificity to the target, while imaging efficacy in vivo was strongly influenced also by the structure of the labelling dye. All probes, and among them especially Dye1-C8-AZA, displayed efficient in vivo tumor accumulation. These results support further studies toward clinical testing of CAIX as suitable target for tumor fluorescence imaging and pave the way for future clinical applications.
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