Abstract

Carbonic anhydrase-IX (CA-IX) is attracting much attention as a target molecule for cancer treatment since high expression of CA-IX can lead to a poor prognosis of patients. We previously reported low-molecular-weight 111In/90Y complexes with a bivalent ureidosulfonamide scaffold ([111In/90Y]In/Y-US2) as cancer radiotheranostic agents for single photon emission computed tomography and radionuclide-based therapy targeting CA-IX. Here, we applied the US2 platform to positron emission tomography (PET) imaging and pharmacological therapy targeting CA-IX high-expressing tumors by introducing 68Ga and natIn, respectively. In an in vitro cell binding assay, [67Ga]Ga-US2, an alternative complex of [68Ga]Ga-US2 with a longer half-life, markedly bound to CA-IX high-expressing (HT-29) cells compared with low-expressing (MDA-MB-231) cells. In a biodistribution study with HT-29 and MDA-MB-231 tumor-bearing mice, [67Ga]Ga-US2 showed accumulation in the HT-29 tumor (3.81% injected dose/g at 60 min postinjection) and clearance from the blood pool with time. PET with [68Ga]Ga-US2 clearly visualized the HT-29 tumor in model mice at 60 min postinjection. In addition, the administration of [natIn]In-US2 to HT-29 tumor-bearing mice led to tumor growth delay and prolonged mouse survival, while no critical toxicity was observed. These results indicate that [68Ga]Ga-US2 and [natIn]In-US2 may be useful imaging and therapeutic agents targeting CA-IX, respectively, and that US2 may serve as an effective cancer theranostic platform utilizing CA-IX.

Highlights

  • Hypoxia in many kinds of solid tumors is caused by an imbalance between oxygen supply and consumption, and is closely associated with tumor propagation, malignant progression, and resistance to chemotherapy and radiotherapy [1,2,3,4,5]

  • After purification by Reversed-phase high-performance liquid chromatography (RP-HPLC), [67Ga]Ga-US2 was obtained with high radiochemical purity (> 95%) as determined by RP-HPLC. [67Ga]Ga-US2 was positron emission tomography (PET) imaging and pharmacological therapy targeting carbonic anhydrase-IX in tumors using US2 platform synthesized at a 51% radiochemical yield

  • The 68Ga-labeling reaction was performed by incubating the precursor with [68Ga]GaCl3 in 1.2 M acetate buffer at 90 ̊C (Fig 2). [68Ga]Ga-US2 was synthesized at a 30% radiochemical yield with over 95% radiochemical purity

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Summary

Introduction

Hypoxia in many kinds of solid tumors is caused by an imbalance between oxygen supply and consumption, and is closely associated with tumor propagation, malignant progression, and resistance to chemotherapy and radiotherapy [1,2,3,4,5]. PET imaging and pharmacological therapy targeting carbonic anhydrase-IX in tumors using US2 platform

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