99mTc-N2S2-Tat (49-57)-bombesin internalized in nuclei of prostate and breast cancer cells: kinetics, dosimetry and effect on cellular proliferation.

BACKGROUND: The gastrin-releasing peptide receptor (GRP-r) is overexpressed in prostate and breast cancers. technetium-99m-bombesin (Tc-BN) has been reported as a radiopharmaceutical with specific cell GRP-r binding. The HIV Tat (49-57)-derived peptide has been used to deliver a large variety of molecules to cell nuclei. A new hybrid radiopharmaceutical of type Tc-N2S2-Tat(49-57)-Lys-BN (Tc-Tat-BN) internalized in cancer cell nuclei could act as an effective system of targeted radiotherapy using Auger and internal conversion electron emissions near DNA. AIM: The aim of this study was to assess the in-vitro nucleus internalization kinetics of Tc-Tat-BN in GRP r-positive cancer cells and to evaluate the subcellular-level radiation-absorbed dose associated with the observed effect on cancer cell DNA proliferation. METHODS: Tc-Tat-BN in-vitro internalization kinetics were evaluated in human prostate cancer PC-3 cells and breast carcinoma cell lines MCF7 and MDA-MB231. Nuclei from cells were isolated using a nuclear extraction kit. Total disintegration in each subcellular compartment was calculated by the integration of experimental time-activity kinetic curves. Nucleus internalization was corroborated by confocal microscopy images using immunofluorescently labelled Tat-BN. The PENELOPE code was used to simulate and calculate the absorbed dose by the contribution of Auger and internal conversion electrons in the cytoplasm and nucleus using geometric models built from immunofluorescent cell images. A cell proliferation kit was used to evaluate DNA concentration after cancer cell incubation with Tc-Tat-BN. RESULTS: The results showed that 59.7, 61.2 and 41.5% of total disintegration per unit of Tc-Tat-BN activity (1 Bq) bound to the cell occurred in the nucleus of PC-3, MCF7 and MDA-MB231, respectively. The Tc-Tat-BN absorbed doses delivered to nuclei were 0.142 mGy/decay (PC-3), 0.434 mGy/decay (MCF7) and 0.276 mGy/decay (MDA-MB231). Tc-Tat-BN produced a significant decrease in PC-3 (52.98%), MCF7 (45.71%) and MDA-MB231 (35.80%) cellular proliferation with respect to untreated cells. CONCLUSION: The hybrid radiopharmaceutical could be potentially useful as a therapeutic agent for prostate and breast cancers.

Lys3-bombesin conjugated to 99mTc-labelled gold nanoparticles for in vivo gastrin releasing peptide-receptor imaging.

UNLABELLED: The gastrin releasing peptide-receptor (GRP-r) is over-expressed in breast and prostate cancer and lymph node metastases. Lys3-bombesin is a peptide that binds with high affinity to GRP-r. The aim of this research was to prepare a multifunctional system of technetium-99m labelled gold nanoparticles conjugated to Lys3-bombesin/HYNIC-GGC and to evaluate its biological behaviour as a potential radiopharmaceutical for in vivo GRP-r imaging. METHODS: Lys3-bombesin and hydrazinonicotinamide-Gly-Gly-Cys-NH2 (HYNIC-GGC) peptides were conjugated to gold nanoparticles (AuNP, 20 nm) to prepare a multifunctional system of HYNIC-GGC-AuNP-Lys3-bombesin by means of spontaneous reaction of the thiol (Cys) present in HYNIC-GGC sequence and the amine of Lys3-bombesin. The nanoconjugate was characterized by transmission electron microscopy (TEM), IR, UV-Vis, Raman, and X-ray photoelectron spectroscopy (XPS). Technetium-99m labelling through the HYNIC-GGC ligand was carried out using EDDA/tricine as coligands and SnCl2 as reducing agent with further size exclusion chromatography purification. Radiochemical purity was determined by size exclusion HPLC and ITLC-SG analyses. In vitro binding studies were carried out in human prostate cancer PC-3 cells (GRP-r positive cells). Biodistribution studies were accomplished in athymic mice with PC-3 induced tumours and images obtained using a micro-SPECT/CT system. RESULTS: TEM and spectroscopy techniques demonstrated that AuNPs were functionalized with HYNIC-GGC-NH2 and Lys3-bombesin through interactions with thiol groups of Cysteine and the N-terminal and epsilon-amine of Lysine respectively. Radio-chromatograms showed radiochemical purity higher than 95%. 99mTc-EDDA/HYNIC-GGC-AuNP-Lys3-bombesin (99mTc-AuNP-Lys3-bombesin) showed specific recognition for GRP-r over-expressed in PC-3 cells. After administration of 99mTc-AuNP-Lys3-bombesin in mice the pancreas-to-blood ratio was 36 at 1 h demonstrating ability to target in vivo GRP receptor-bearing cells. In vivo micro-SPECT/CT images in mice showed an evident tumour uptake (6.39 +/- 0.83% IA/g at 1 h). CONCLUSIONS: This study demonstrated that the 99mTc-AuNP-Lys3-bombesin multifunctional system shows specific recognition for GRP-r and suitable properties to be used as a molecular imaging agent.