The use of diaminodithiol for labeling small molecules with technetium-99m

Abstract

To investigate the labeling of small molecules with 99mTc by the bifunctional chelate approach, we have synthesized both a fatty acid and an estrone derivative containing a chelator of the N 2S 2 type. In the case of the fatty acid, this was a diaminodithiol (DADT) while for the estrone, a diaminodisulfide (DADS) was attached. The estrone derivative (5-(2-methylene estrone 3-methyl ether)-3,3,10,10-tetramethyl-1, 2-dithia-5,8-diazacyclodecane hydrochloride, DADS-E) was prepared by alkylation of DADS while the fatty acid derivative ( N-(11-undecanoic acid)- N, N′-bis(2-methyl-2-mercaptopropyl) ethylenediamine hydrochloride, DADT-FA) was synthesized by alkylation of DADS followed by reduction. DADS-E was labeled in ethanol at elevated temperatures while DADT-FA was labeled at room temperature, both by stannous reduction. Paper chromatography showed both to be labeled and reverse-phase HPLC showed multiple peaks for both. Serum stability studies were performed by incubation at 37 °C with aliquots removed at 1 min and 1 day for analysis by size-exclusion HPLC. Initially, little pertechnetate or binding to serum proteins was observed whereas after 1 day the majority of activity in both cases was protein bound with 20 and 38% pertechnetate appearing for DADT-FA and DADS-E respectively. In conclusion, small biologically active molecules may be labeled with 99mTc through an attached diaminodithiol or diaminodisulfide group.