Restoration of femoral GM-CFC progenitors in sublethally irradiated mice of various ages treated with liposomal adamantylamide dipeptide.

In this study we tested the stimulatory effect of adamantylamide-l-alanyl-d-isoglutamine (AdDP) or its liposomal formulation (L-AdDP) on recovery of the granulocyte-macrophage hemopoietic progenitor cells in the bone marrow of sublethally irradiated mice of various ages. Number of GM-CFC progenitors in femur on day 10 was used as a parameter reflecting the stimulatory activity. Mice (aged 3-5 month) pre-treated with AdDP or L-AdDP via s.c. route displayed enhanced recovery of the granulocyte-macrophage hemopoietic progenitor cells at the dose of 5.5 Gy. Overaged mice (2 years) responded to the treatment when the dose was increased to 6.5 Gy, while radiation doses below 5.5 Gy should be used to see the stimulation effect in young mice (6 weeks). Entrapment of AdDP into liposomes enhanced costimulatory activity of sera of treated mice and prolongated this activity at least for 30 h after stimulation, in comparison to the mice treated with free AdDP where the costimulatory activity was spanned only up to 12 h. In conclusion, L-AdDP represents a suitable formulation of AdDP that induced recovery of GM-CFC progenitors in the femur of irradiated mice of various ages. The stimulatory effect depends on the extent of injury to bone marrow hemopoietic microenvironments caused by various doses of gamma-irradiation.

New platinum(IV) complex with adamantylamine ligand as a promising anti-cancer drug: comparison of in vitro cytotoxic potential towards A2780/cisR cisplatin-resistant cell line within homologous series of platinum(IV) complexes.

The aim of this study was to compare anti-tumor potency of platinum(IV) complexes with increasing hydrophobicity of their ligands. Cytotoxic potential of the new platinum(IV) complex, coded as LA-12 [(OC-6-43)-bis(acetato)(1-adamantylamine)amminedichloroplatinum(IV)], was compared within the series of complexes of the general formula (OC-6-43)-bis(acetato)(alkylamine)amminedichloroplatinum(IV). Alkylamine ligands with increasing hydrophobicity were: isopropylamine, cyclohexylamine, 1-adamantylamine and 3,5-dimethyl-1-adamantylamine. Particular platinum(IV) complexes were coded as LA-4, LA-2 (known as JM-216), LA-12 and LA-15, respectively. Cytotoxicity was tested with the microplate tetrazolium (MTT) assay on the panel of cancer cell lines and the results were verified by microscopy. HPLC was used to measure hydrophobicity, stability of complexes in various buffers and velocity constants for their reactivity with glutathione. Platinum(IV) complexes with bulky hydrophobic ligands (LA-12 and LA-15) demonstrated about one order higher velocity constant for pseudo-first-order reaction with glutathione in comparison to cisplatin, LA-4 and LA-2, whose velocity constants were close to those measured for cisplatin and related platinum(II) complexes. Cytotoxicities of LA-12 and LA-15 towards cisplatin-resistant epithelial carcinoma A2780/cisR were superior to cisplatin, LA-4 and LA-2 in both 24- and 72-h continuous exposure MTT tests. Rapid induction of apoptosis in the treated cancer cell lines and no cisplatin cross-resistance were found for LA-12, which is a candidate for clinical testing.

Platinum(IV) complex with adamantylamine as nonleaving amine group: synthesis, characterization, and in vitro antitumor activity against a panel of cisplatin-resistant cancer cell lines.

Procedure of the synthesis is described for new platinum(IV) drug LA-12 [(OC-6-43)-bis(acetato)(1-adamantylamine)amminedichloroplatinum(IV)]. The X-ray diffraction analysis shows that the structure is created by molecules with octahedral arrangement of ligands around a platinum atom and contains one H(2)O molecule that is not a part of the coordination sphere of platinum. This new drug is more reactive with glutathione than cisplatin and is lacking cross-resistance with cisplatin as proven on the panel of cancer cell lines.