Imidazolium trans-imidazoledimethylsulphoxidetetrachlororuthenate ImH[trans-RuCl4(DMSO)Im] (NAMI-A), a ruthenium compound that replaces Na+ with ImH+ in the molecule of Na[trans-RuCl4(DMSO)Im] (NAMI), was studied for the anti-metastasis effects in models of solid metastasizing tumours of the mouse. NAMI-A, given i.p. at 35 mg/kg/day for six consecutive days, a dose equimolar to that of NAMI, to mice bearing Lewis lung carcinoma and MCa mammary carcinoma, markedly reduces lung metastasis weight by 80-90%, with an effect equal or even superior to that of NAMI, depending on the experimental system adopted. Correspondingly, NAMI-A increases the content of connective tissue in the tumour matrix, around blood vessels, and in the tumour capsule, augments the percentage of tumour cells in G2/M phase and reduces the amount of CD45+ cells infiltrating the tumour parenchyma. The effects of the same doses on spleen lymphocytes correspond to an increase of CD8+ subset without any change of the distribution of cells in G0/G1, S and G2/M phases. The study shows that NAMI-A behaves similarly to NAMI on the several parameters examined in comparison experiments and therefore we suggest to credit NAMI-A with all the biological actions already described for NAMI during the last 3 years. The replacement of Na+ with ImH+ therefore, besides the better chemical stability of the molecule, confers to [trans-RuCl4(DMSO)Im]- a closer similarity with a true drug to be used in humans, and suggests this molecule for future studies of preclinical toxicology and phase I and II clinical trials.
The effects of the new molecule ImH[trans-RuCl4(DMSO)Im] (NAMI-A), administered orally or intraperitoneally to adjuvant-arthritic rats or orally to mice bearing s.c. or i.m. implants of MCa mammary carcinoma, were studied. NAMI-A was not able to modify the progression of chronic inflammation in the complete Freund-adjuvant injected animals. Histology indicated a significant worsening of the inflammatory process, characterised by an increased infiltration of inflammatory cells, as well as by a remarkable deposition of connective tissue fibres around the blood vessels and alveolar walls. NAMI-A had no effect on primary i.m. implanted MCa mammary carcinoma growth and its lung metastasis formation, but significantly interfered with the cell cycle of primary tumor cells following bolus oral administration. On the contrary, NAMI-A caused a significant inhibition of lung metastasis accompanied by a dramatic deposition of connective tissue fibres around the primary tumor mass, when given as medicated food to mice implanted s.c. with MCa tumor. These data indicated that NAMI-A is well absorbed after oral administration although there is no connection between lung concentration and the antimetastatic activity. Conversely, the marked deposition of connective tissues in NAMI-A treated animals is in agreement with the reported effects of the compound on extracellular matrix and tumor blood vessels.
The anti-metastatic ruthenium complex NaCtrans-RuCI4(DMSO)lm] was given i.p. at 22 and 44 mg/kg/day, on days 8-13 after tumour implantation, to mice carrying S.C. implants of MCa mammary carcinoma. The aim ofthe study was to compare the effects on lung metastasis formation with those on primary tumour cells. This investigation was based on flow cytometry analysis after propidium iodide and acridine orange staining, histology of tumour parenchyma and RT-PCR analysis for the type-IV collagenases MMP-9 and MMP-2 and their respective inhibitors TIMP-I and TIMP-2 mRNAs. Nactrans-RuCl,(DMSO)lm] is not cytotoxic for tumour cells but has the capacity of interacting with nucleic acids, giving a general reduction of nucleic acid content as shown by a marked reduction of acridine orange staining and a tendency to a reduction of DNA polyploidy with marked reduction of 8n and 4n cell populations. Na[trans-RuCI~(DMSO)lm] also influences a proteolytic system which has the potential of degrading the basement membrane and has been related to metastatic aggressiveness: it markedly reduces, in a dose-dependent manner, MMP-2/TIMP-2 balance, but not that of MMP-9/TIMP-I. The different enzyrne/inhibitor mRNA levels between untreated and treated tumours seem to be unaffected by tumour-infiltrating lymphocytes and are paralleled by the maintenance of connective tissue around blood vessels in the tumour mass. Correspondingly, lung metastasis formation is markedly reduced , to less than 10% of that seen in conbols. o 1996 Wiley-Liss, Inc. Basic research on synthetic drugs, effective against tumour metastases, has recently highlighted the effects of a ruthenium complex, namely sodium trans-rutheniumtetrachloridedimeth-ylsulphoxideimidazole (hereafter indicated by Na[trans-RuCI4(DMSO)Im]) (Sava er al., 1992a, b, 1993, 1994). The effects of this new generation ruthenium(II1) complex on solid metastasizing tumour are particularly evident on the formation of spontaneous metastases. The selectivity of Na[trans-RuCI4(DMSO)Im] on lung metastases is also marked on advanced metastases and accounts for a significant prolonga-tion of the host's survival time; combined with surgical removal of primary tumour, Na[trans-RuC14(DMSO)Im] prevents the formation of metastases and inhibits the growth of those already formed (Sava et al., 1994). The histological analysis of tumour growth and of healthy host tissues such as lung and kidney epithelia, muscle and liver cells, splenocytes and bone-marrow cells, by light microscopy and by SEM, shows a lack of significant cytotoxicity (Gagliardi et al., 1994). It thus appears that the selective anti-metastatic effects do not result directly from histological modification of the primary tumour structure. This observation is supported by the fact that Na[trans-RuCI4(DMSO)Im] has a marked propensity to bind to meta-static cells rather than to other tumour cell clones. Metastases represent the greatest obstacle to post-surgery and/or radio-therapy cures in that they often show a low chemosensitivity to the available an...
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