NOVEL AMINO ACID TRANSPORTER-TARGETED RADIOTRACERS FOR BREAST CANCER IMAGING

Breast cancer is the most common malignancy among women in the world. Its 5-year survival rate ranges from 23.4% in patients with stage IV to 98% in stage I disease, highlighting the importance of early detection and diagnosis. 18F-2-Fluoro-2-deoxy-glucose (18F-FDG), using positron emission tomography (PET), is the most common functional imaging tool for breast cancer diagnosis currently. Unfortunately, 18F-FDG-PET has several limitations such as poorly differentiating tumor tissues from inflammatory and normal brain tissues. Therefore, 18F-labeled amino acid-based radiotracers have been reported as an alternative, which is based on the fact that tumor cells uptake and consume more amino acids to sustain their uncontrolled growth. Among those radiotracers, 18F-labeled tyrosine and its derivatives have shown high tumor uptake and great ability to differentiate tumor tissue from inflammatory sites in brain tumors and squamous cell carcinoma. They enter the tumor cells via L-type amino acid transporters (LAT), which were reported to be highly expressed in many cancer cell lines and correlate positively with tumor growth. Nevertheless, the low radiosynthesis yield and demand of an on-site cyclotron limit the use of 18F-labeled tyrosine analogues. In this study, four Technetium-99m (99mTc) labeled tyrosine/ AMT (α-methyl tyrosine)-based radiotracers were successfully synthesized and evaluated for their potentials in breast cancer imaging. In order to radiolabel tyrosine and AMT, the chelators N,N’-ethylene-di-L-cysteine (EC) and 1,4,8,11-tetra-azacyclotetradecane (N4 cyclam) were selected to coordinate 99mTc. These chelators have been reported to provide stable chelation ability with 99mTc. By using the chelator technology, the same target ligand could be labeled with different radioisotopes for various imaging modalities for tumor diagnosis, or for internal radionuclide therapy in future. Based on the in vitro and in vivo evaluation using the rat mammary tumor models, 99mTc-EC-AMT is considered as the most suitable radiotracer for breast cancer imaging overall, however, 99mTc-EC-Tyrosine will be more preferred for differential diagnosis of tumor from inflammation.

Modification of mutagen sensitivity by chemopreventive agents {\it in vitro\/}

The clinical application of chemopreventive agents is expected to prevent the appearance of cancer by arresting carcinogenesis or reversing it in the precancerous stages. The hypothesis of the present investigations was that chemopreventive agents (retinoids and antioxidant vitamins) may counteract the clastogenic effects of bleomycin in vitro in both lymphoblastoid cell lines and primary lymphocyte cultures and that a similar phenomenon can be detected in lymphocytes from individuals treated with 13-cis-retinoic acid. The efficacy of 13-cis-retinoic acid, n-(4-hydroxyphenyl)-retinamide, ascorbic acid, n-acetyl-l-cysteine, alpha-tocopherol, and alpha-tocopherol-acid succinate was tested against bleomycin-induced chromosomal breakage.^ The results provided direct evidence of the concentration-related protective effects of these agents against bleomycin-induced clastogenicity in cultures of human lymphoblastoid cell lines in vitro. Similar anticlastogenic protection was demonstrated with 13-cis-retinoic acid, ascorbic acid, n-acetyl-l-cysteine, and alpha-tocopherol-acid succinate in primary lymphocyte cultures in vitro. The in vitro anticlastogenic effect of 13-cis-retinoic acid was also demonstrated in lymphocyte cultures from peripheral blood samples from patients treated with this retinoid.^ An important consideration is that the concentrations used in the present investigations are comparable to those achieved in clinical situations.^ The in vitro anticlastogenic effect of these retinoids and antioxidants may constitute an important element of their chemopreventive properties. The results corroborate the hypothesis that these compounds may be effective in clinical chemoprevention trials. The bleomycin-assay may also be used as a short-term test to evaluate the antimutagenic effects of various agents. ^