Technetium-99m-labeled medium-chain fatty acid analogues metabolized by beta-oxidation: radiopharmaceutical for assessing liver function.

External imaging of energy production activity of living cells with 99mTc-labeled compounds is a challenging task requiring good design of 99mTc-radiopharmaceuticals. On the basis of our recent findings that 11C- and 123I-labeled medium-chain fatty acids are useful for measuring beta-oxidation activity of hepatocytes, we focused on development of 99mTc-labeled medium-chain fatty acid analogues that reflect beta-oxidation activity of the liver. In the present study, monoamine-monoamide dithiol (MAMA) ligand and triamido thiol (MAG) ligand were chosen as chelating groups because of the stability and size of their complexes with 99mTc and their ease of synthesis. Each ligand was attached to the omega-position of hexanoic acid (MAMA-HA and MAG-HA, respectively). In biodistribution studies, [99mTc]MAMA-HA showed high initial accumulation in the liver followed by clearance of the radioactivity in the urine. Analysis of the urine revealed [99mTc]MAMA-BA as the sole radiometabolite. Furthermore, when [99mTc]MAMA-HA was incubated with living liver slices, generation of [99mTc]MAMA-BA was observed. However, [99mTc]MAMA-HA remained intact when the compound was incubated with liver slices in the presence of 2-bromooctanoate, an inhibitor of beta-oxidation. The findings in this study indicated that [99mTc]MAMA-HA was metabolized by beta-oxidation after incorporation into the liver. On the other hand, poor hepatic accumulation was observed after administration of [99mTc]MAG-HA.