Therapeutic potential of pure antioestrogens in the treatment of breast cancer

Novel 7-analogues of 17β-oestradiol like ICI 164,384, differ from all antioestrogens described previously in being entirely free of partial agonist activity. In adult rats, ICI 164,384 blocks completely the stimulatory effects of endogenous or exogenous oestrogens and produces a castration-like involution of the uterus without affecting the hypothalamic-pituitary-ovarian axis. If analogues effects were achived in patients, peripherally-selective complete oestrogen withdrawal would occur, which presents a novel pharmacological option not achieved by any current treatment. Studies with human breast cancer cells showed that ICI 164,384 reduced to a greater extent than did tamoxifen, the mitotic fraction. This difference may reflect a synergistic stimulatory interaction between serum growth factors like insulin, and the partial agonist effect of tamoxifen which is not seen with ICI 164,384. In long-term culture in the presence of ICI 164,384 no resistant cell lines developed, as has been observed previously in studies with tamoxifen. Pure antioestrogens might thus have a further therapeutic advantage over partial agonists like tamoxifen in reducing the probability of treatment failure due to the regrowth of tumours from resistant cells.     

Biology and action of colony-stimulating factor-1

Colony-stimulating factor-1 (CSF-1), also known as macrophage colony-stimulating factor, controls the survival, proliferation, and differentiation of mono-nuclear phagocytes and regulates cells of the female reproductive tract. It appears to play an autocrine and/or paracrine role in cancers of the ovary, endometrium, breast, and myeloid and lymphoid tissues. Through alternative mRNA splicing and differential post-translational proteolytic processing, CSF-1 can either be secreted into the circulation as a glycoprotein or chondroitin sulfate-containing proteoglycan or be expressed as a membrane-spanning glycoprotein on the surface of CSF-1-producing cells. Studies with the op/op mouse, which possesses an inactivating mutation in the CSF-1 gene, have established the central role of CSF-1 in directly regulating osteoclastogenesis and macrophage production. CSF-1 appears to preferentially regulate the development of macrophages found in tissues undergoing active morphogenesis and/or tissue remodeling. These CSF-1 dependent macrophages may, via putative trophic and/or scavenger functions, regulate characteristics such as dermal thickness, male fertility, and neural processing. Apart from its expression on mononuclear phagocytes and their precursors, CSF-1 receptor (CSF-1R) expression on certain nonmononuclear phagocytic cells in the female reproductive tract and studies in the op/op mouse indicate that CSF-1 plays important roles in female reproduction. Restoration of circulating CSF-1 to op/op mice has preliminarily defined target cell populations that are regulated either humorally or locally by the synthesis of cell-surface CSF-1 or by sequestration of the CSF-1 proteoglycan. The CSF-1R is a tyrosine kinase encoded by the c-fms proto-oncogene product. Studies by several groups have used cells expressing either the murine or human CSF-1R in fibroblasts to pinpoint the requirement of kinase activity and the importance of various receptor tyrosine phosphorylation sites for signaling pathways stimulated by CSF-1. To investigate post-CSF-1R signaling in the macrophage, proteins that are rapidly phosphorylated on tyrosine in response to CSF-1 have been identified, together with proteins associated with them. Studies on several of these proteins, including protein tyrosine phosphatase 1C, the c-cbl proto-oncogene product, and protein tyrosine phosphatase-phi are discussed. Mol Reprod Dev 46:4–10, 1997. © 1997 Wiley-Liss, Inc.     

2-Methoxyestradiol—Biology and mechanism of action

In the last decade the endogenous estradiol metabolite, 2-methoxyestradiol (2ME), has gained more and more interest due to its marked anticancerogenic properties and possible cardiovascular benefits, as shown in numerous animal and experimental investigations. Some promising results in terms of the usage of 2ME as a therapeutic agent were obtained by various clinical studies in patients with breast cancer and prostate cancer. However, one main problem appears to be the bioavailability of 2ME, therefore new formulations are now in the test phase. In this review, the most important aspects of the biology and molecular mechanisms of 2ME are summarized.     

Infectivity and mode of action of Baculoviruses

The genus Baculovirus contains three subgroups of viral types: (1) nuclear polyhedrosis viruses (NPVs), (2) granulosis viruses (GVs), and (3) nonoccluded baculoviruses. While little information is available for viruses from the third subgroup, several aspects of the infectivity and mode of action of NPVs and GVs have been studied. The most common route of entry of a virus into an insect host is per os, and both virus types enter midgut cells (primary site of infection) by membrane fusion. However, two distinct mechanisms of virus uncoating occur among the baculoviruses: NPVs uncoat within the nucleus, whereas GVs uncoat at the nuclear pore complex. Baculoviruses of subgroup 3 appear to uncoat by either mechanism. In addition to replicating within the nucleus, NPV inoculum virus may pass through the intestinal epithelium immediately after ingestion, thereby establishing a systemic infection of the hemocoel prior to virus replication in midgut cells. The GVs do not appear to pass through midgut cells as rapidly as NPVs and in general, the developmental cycle of GVs is longer than that of NPVs. NPVs have been grown in cell culture while GVs have not.     

Bt: mode of action and use

The insecticidal toxins from Bacillus thuringiensis (Bt) represent a class of biopesticides that are attractive alternatives to broad-spectrum "hard" chemistries. The U.S. Food Quality Protection Act and the European Economic Council directives aimed at reducing the use of carbamate and organophosphate insecticides were expected to increase the use of narrowly targeted, "soft" compounds like Bt. Here we summarize the unique mode of action of Bt, which contributes to pest selectivity. We also review the patterns of Bt use in general agriculture and in specific niche markets. Despite continued predictions of dramatic growth for biopesticides due to US Food Quality Protection Act-induced cancellations of older insecticides, Bt use has remained relatively constant, even in niche markets where Bt has traditionally been relatively high.     

Histamine tautomerism and its mode of action

An established combination of quantum mechanical calculations and molecular dynamics simulations (Worth, C.A., King, P.M. and Richards, W.G. (1989) Biochim. Biophys. Acta 993, 134-136; Cieplak, P., Singh, U.C. and Kollman, P.A. (1987) Int. J. Quant. Chem. QBS14, 65-74; Reynolds, C.A., King, P.M. and Richards, W.G. (1988) Nature 334, 80-82) has been used to calculate the tautomer ratios of histamine species in aqueous solution. The results are in good agreement with experiment and provide a bridge between experimental data and earlier theoretical calculations.     

The mode of action of primycin

Primycin, an antibiotic active against Gram-positive microorganisms increased the permeability ofBacillus subtilis cell membranes when used in bacteriostatic concentrations. On addition of the antibiotic to the washed cell suspension, a dose-dependent increase in the conductivity was observed. Furthermore, an enhanced leakage of the nucleotides (measured by the³²P-ATP release from the³²P-labelled culture) could be detected.To get more information about the mechanism of the primycin-membrane interaction, the effect of the antibiotic on the ATPase activity of membrane vesicles prepared from bothBacillus subtilis andEscherichia coli B was studied. Activation was found at about 0.5 nmol antibiotic/g protein and its extent was approximately the same as with sonicated membranes used as controls. Stimulation of ATPase activity was also achieved with vesicles prewashed with 3 mM Tris-HCl buffer.Purified membrane ATPase fromBacillus subtilis could not be activated by primycin at all; above 0.3 nmol/g protein concentration the enzyme was inhibited. When acting on membrane vesicles isolated fromEscherichia coli B, inhibition without previous activation was observed, although sonication caused a substantial activation on the ATPase of these membranes.These observations confirmed our suggestion that the primary target of primycin action is the cell membrane in Gram-positive microorganisms.Abbreviations OD Optical density     

Biological properties and mode of action of clavams

The clavams valclavam and hydroxyethylclavam were both bacteriostatic and fungistatic. The molecular basis for growth inhibition of Escherichia coli was a non-competitive inhibition of homoserine-O-succinyltransferase (EC 2.3.1.46), thus blocking methionine biosynthesis. Eucaryotes such as Saccharomyces cerevisiae were inhibited by a different mode of action. Instead of interfering with methionine biosynthesis, the clavams inhibited the formation of RNA in living cells, although the RNA-polymerases of isolated yeast nuclei were not inhibited. The action of valclavam on E. coli was dependent on functional peptide transport systems.Abbreviations CoA coenzyme A - mic mimimal inhibitory concentration - SAM S-adenosylmethionine - TCA trichloroacetic acid Offprint requests to: H. Zähner Metabolic products of microorganisms 241 (Metabolic products of microorganisms, 240. Rohr J, Zeeck A (1987) Urdamycins, new angucycline antibiotic form Streptomyces fradiae. II. Structural studies of urdamycin B to F. J Antibiotics, in press