The anticarcinogenic effects and mechanisms of the biotechnological drugs of Panax ginseng C.A. Meyer cultivated in Russia, bioginseng, panaxel and panaxel-5, were studied. Bioginseng was produced from a tissue culture of ginseng root cultured on standard medium, whereas panaxel and panaxel-5 were produced from ginseng tissue root cultures using standard mediums enriched with 2-carboxyethylgermanium sesquioxide and 1-hydroxygermatran-monohydrate respectively. All three ginseng drugs inhibited the development of mammary tumors induced by intramammary injections of N-methyl-N-nitrosourea (MNU) in rats, the development of the brain and spinal cord tumors induced by transplacental administration of N-ethyl-N-nitrosourea (ENU) in rats, and the development of uterine, cervical and vaginal tumors induced by intravaginal applications of 7,12-dimethylbenz(a)anthracene (DMBA) in mice. The ginseng drugs induced the cytotoxic activity of macrophages in mice, enhanced T-lymphocyte rosette formation in guinea pigs exposed to cyclophosphamide, and stimulated the production of thyroid hormones in rats. These mechanisms may contribute to the anticarcinogenic action of the ginseng drugs. The organic germanium compounds present in panaxel and panaxel-5 did not potentiate the anticarcinogenic or immuno-stimulatory effects as much as biogeinseng. Preliminary clinical trials with panaxel and bioginseng were carried out in patients with precancerous lesions of the esophagus and endometrium. Panaxel was found to have a strong therapeutic effect in patients suffering from chronic erosive esophagitis. Bioginseng induced the regression of adenomatous-cystic hyperplasia of the endometrium in some patients. Thus, we conclude that the drugs of ginseng appear to hold considerable promise for future cancer chemoprevention.
The dynamics of growth-stimulating and cytotoxic activity of mouse peritoneal macrophages (PMo) in response to in vivo and in vitro bacillus Calmette-Guérin (BCG) or bestatin treatment was studied. It was shown that BCG and bestatin induce cytotoxicity in PMo, and that after the cytotoxic response strong growth-stimulating activity develops. PMo, rendered cytotoxic in vivo and afterwards cultivated in vitro, displayed the same switch from a cytotoxic to a growth-stimulating phase. These results suggest that the growth-stimulating phase is the obligatory PMo response to biological response modifiers (BRM) at least to BCG and bestatin. The growth rate of tumours, transplanted into mice during the cytotoxic phase of the response to BCG, was suppressed, whereas tumours transplanted during the growth-stimulating phase were stimulated. It appears that the development of a growth-stimulating phase after the cytotoxic phase of response to activation by BRM could be one of the reasons for the limited effectiveness of immunotherapy based on the application of macrophage activators.
Synthetic peptides corresponding to the 59-72 (I), 60-72 (II) and 61-72 (III) sequences of human interleukin 2 with their N(alpha) acetylated and C(alpha) methylated termini were shown to exhibit pronounced hepatoprotective properties. These peptides neutralized hepatotoxic effects of such agents as tetrachloromethane and galactosamine in experiments in vivo. The peptide action revealed as normalization of duration of the thiopental narcosis of experimental animals and the level of hepatospecific enzymes in their blood. The effects of peptides (I)-(III) proved to be similar to that of prednisolone (the well-known anti-inflammatory agent), whereas the bestatine cytotoxic dipeptide had no hepatoprotecting effect. The target of the hepatoprotective activity of the peptides was shown to be the preliminary activated macrophages. We proposed that this activity of the peptides was associated with their interaction with the a-subunit of the interleukin 2 receptor (IL-2Ralpha), because the X-Ray analysis pointed to this region as one of binding sites of IL-2 with IL-2Ralpha. Experiments on the influence of the most active (59-72)-peptide on growth of the IL-2 dependent cell line (CTLL) confirmed this proposal. The 3H-labeled peptide corresponding to the 59-72 sequence ofthe human IL-2 was shown to bind to the CTLL cels. We assumed that the binding of this peptide was specific and occurred precisely with IL-2Ra and virtually determined the binding constant. Its value (1.41 x 10(-6) M) was comparable with that of the interaction of IL-2 with IL-2Ralpha (approximately 10(-7) M).
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