Differentiation of malignant tumours from granulomas by using dynamic [(18)F]-fluoro-L-α-methyltyrosine positron emission tomography

Enhancing the accumulation level of 3-[18F]fluoro-L-α-methyltyrosine in tumors by preloading probenecid

INTRODUCTION

3-[¹⁸F]fluoro-α-methyl-L-tyrosine ([¹⁸F]FAMT) is a promising amino acid tracer targeting L-type amino acid transporter 1 (LAT1). One concern regarding the diagnosis using [¹⁸F]FAMT is the possibility of false-negative findings because of its relatively low accumulation level even in malignant tumors. Moreover, preloading probenecid, an organic anion transporter inhibitor, markedly increased the tumor accumulation level of radioiodine-labeled α-methyltyrosine. In this study, we evaluated the usefulness of preloading probenecid in improving the tumor-imaging capability of [¹⁸F]FAMT.

METHODS

Three biodistribution studies of [¹⁸F]FAMT were conducted in normal mice to elucidate the usefulness of probenecid preloading. Later, a biodistribution study and positron emission tomography (PET) imaging of [¹⁸F]FAMT were conducted with or without probenecid injection in tumor-bearing mice.

RESULTS

Probenecid preloading significantly delayed blood clearance and consequently enhanced the accumulation of [¹⁸F]FAMT in the pancreas, a LAT1-positive organ. The effects of probenecid preloading were independent of the administration route. Tumor accumulation level in the biodistribution study and the maximum standardized uptake value in tumors on PET imaging of the probenecid preloading group were significantly higher than those of the control (without probenecid injection) group in tumor-bearing mice.

CONCLUSIONS

Preloading probenecid significantly delayed blood clearance and consequently enhanced the accumulation of [¹⁸F]FAMT in tumors. These results indicate that preloading probenecid could improve the diagnostic accuracy of [¹⁸F]FAMT.

Enhancing the Therapeutic Effect of 2-211At-astato-α-methyl-L-phenylalanine with Probenecid Loading

Simple Summary

To enhance the therapeutic effect of 2-²¹¹At-astato-α-methyl-L-phenylalanine (2-²¹¹At-AAMP), a radiopharmaceutical for targeted alpha therapy, we evaluated the effect of probenecid loading on its biodistribution and therapeutic effect in mice. Probenecid preloading significantly delayed the clearance of 2-²¹¹At-AAMP from the blood, increasing its accumulation in tumors. Consequently, the therapeutic effect of 2-²¹¹At-AAMP markedly improved. These results indicate that 2-²¹¹At-AAMP with probenecid loading is useful for the treatment of various types of cancers.

Abstract

L-type amino acid transporter 1 (LAT1) might be a useful target for tumor therapy since it is highly expressed in various types of cancers. We previously developed an astatine-211 (²¹¹At)-labeled amino acid derivative, 2-²¹¹At-astato-α-methyl-L-phenylalanine (2-²¹¹At-AAMP), and demonstrated its therapeutic potential for LAT1-positive cancers. However, the therapeutic effect of 2-²¹¹At-AAMP was insufficient, probably due to its low tumor retention. The preloading of probenecid, an organic anion transporter inhibitor, can delay the clearance of some amino acid tracers from the blood and consequently increase their accumulation in tumors. In this study, we evaluated the effect of probenecid preloading on the biodistribution and therapeutic effect of 2-²¹¹At-AAMP in mice. In biodistribution studies, the blood radioactivity of 2-²¹¹At-AAMP significantly increased with probenecid preloading. Consequently, the accumulation of 2-²¹¹At-AAMP in tumors was significantly higher with probenecid than without probenecid loading. In a therapeutic study, tumor growth was suppressed by 2-²¹¹At-AAMP with probenecid, and the tumor volume was significantly lower in the treatment group than in the untreated control group from day 2 to day 30 (end of the follow-up period) after treatment. These results indicate that probenecid loading could improve the therapeutic effect of 2-²¹¹At-AAMP by increasing its accumulation in tumors.