Novel tumortropic ester derivatives of 99mTc(V) mesodimercapto succinic acid with low affinity for bone tissue.

Starting from our previous finding that 99mTc(V) dimercaptosuccinic acid (99mTc(V)-DMSA), a useful agent for the localization of osteosarcoma and bone metastases, loses its bone affinity when one ester group is introduced into the complex we studied the impact of esterification in more detail. This paper reports on the evaluation of various ester complexes of 99mTc(V)-DMSA in rats and tumour-bearing nude mice with regard to their tumour retention and improvement of the tumour to tissue ratios. The distribution patterns of the complexes [99mTcO(DMSA)2]- (A), [99mTcO(DMSA/DMSEt)]- (B) and [99mTcO(DMSEt)2]- (C) are gradually changed with the number of ester groups in the anionic complex. However, the asymmetric diester complex [99mTcO(DMSA/DMSEt2)]- (D) is very slowly cleared, especially from the blood of nude mice. Moreover, this complex differs significantly from the symmetrical complex C in its elimination behaviour from the liver and kidneys. The tumour uptake is maintained with complexes that contain one or two non-hydrolysable ester functions. Preliminary biodistribution studies of the monoethyl and diethyl ester complexes B, C and D in comparison with A in tumour-bearing nude mice showed similar uptake into the human squamous cell carcinoma (FaDu) as well as into the human colonic cell carcinoma (HT29) of nude mice. The low bone accumulation of B, C and D results in excellent tumour-to-bone ratios, e.g., approx. 3:1 for the ester complex B compared to approx. 1:2 for complex A. Differences were observed in the accumulation and elimination behaviour of the complexes A and B in various bone structures of rats. The age-dependent uptake of A and B was compared in long bone (femur) and in cranial bone of rats. The results suggest that 99mTc(V)-DMSA complexes that contain a functional ester, and their 188Re analogues, may be superior to 99mTc(V)/188Re(V)-DMSA in diagnostic and therapeutic nuclear medicine.