Lina Wasserman

Growth inhibition of murine melanoma by butyric acid and dimethylsulfoxide

Treatment of B16-F10 melanoma cells with dimethylsulfoxide (DMSO) or butyric acid (BA) inhibits cell growth and delays tumor appearance in syngeneic mice. Both agents induce morphological changes in these cells. Treatment of melanoma cells with DMSO results in a marked increase in tyrosinase activity and melanin content. BA, on the other hand, does not increase melanin content and decreases tyrosinase activity. The data show that there are marked differences in the effect of DMSO and BA on melanin biosynthesis, whereas both agents inhibit cell growth and cause a delay in tumor appearance. These findings indicate that decreased proliferation of melanoma cells and induction of melanin biosynthesis are not necessarily associated phenomena.

The effect of aloe emodin on the proliferation of a new Merkel carcinoma cell line

A free-floating cell line has been established from a metastatic lesion of a Merkel cell carcinoma (MCC) patient. The cell line was characterized by immunocytochemical reactions with antibodies against the epithelial and neuroendocrine antigens: cytokeratin 20, neuron-specific enolase, chromogranin A, neurofilament protein, synaptophysin, and calcitonin. Karyotype analysis of the MCC cells showed deletion in chromosomes 3 and 7, loss of chromosome 10, and several translocations in other chromosomes. No mutation was detected in the TP53 gene, after analyzing the complete coding region. Growth factors such as basic fibroblast growth factor, transforming growth factor-&bgr;, and nerve and epidermal growth factors had no effect on the proliferation of the cells. The differentiation-inducing agents sodium butyrate and dimethyl sulfoxide, especially the former, markedly inhibited the proliferation of the MCC cells. Aloe emodin, a natural constituent of aloe vera leaves, significantly inhibited the growth of MCC cells. Aloe emodin has been reported to be nontoxic for normal cells but to possess specific toxicity for neuroectodermal tumor cells. Differentiation-inducing agents, and aloe emodin, merit further investigation as potential agents for treating MCC.

Butyric acid and pivaloyloxymethyl butyrate, AN-9, a novel butyric acid derivative, induce apoptosis in HL-60 cells

A novel butyric acid derivative, pivaloyloxymethyl butyrate, AN-9, was previously shown to be a potent differentiating agent. AN-9 exerts a significant anticancer activity in vitro and in vivo. In all the activities examined, AN-9 was more potent than butyric acid. Here we show that AN-9 and butyric acid induce cell death by apoptosis. Exposure of HL-60 cells to butyric acid and AN-9 decreased cell numbers and induced cell differentiation and the appearance of typical apoptotic features. Induction of apoptosis and/or differentiation by AN-9 and butyric acid was dependent on the concentration and the time of exposure to the drugs. The advantage of AN-9 over butyric acid was further confirmed. Apoptosis induced by AN-9 occurred after a shorter exposure and at lower drug concentrations than that induced by butyric acid. Apoptosis by AN-9 was accompanied by reduction in Bcl-2 expression. Preincubation with antioxidants did not protect HL-60 cells from apoptosis induced by AN-9. HL-60 cells that were induced to differentiate by preincubation with retinoic acid or low AN-9 concentrations were more resistant to apoptosis, induced later by high concentrations of AN-9, than were undifferentiated cells.

Cardiomyocytes cultured in serum-free medium: Growth and creatine kinase activity

Primary cultures of newborn rat heart cells were grown for up to 3 weeks in serum-free medium supplemented by insulin, hydrocortisone, transferrin and fetuin. The cells resumed spontaneous beating at 20 h post plating. Mean rates of beating on the second and third day were 79.5 and 94 beats per min, respectively. Cell proliferation occurred during the first 3 days of culture with maximal rates of DNA and protein synthesis on the second day. The highest values of creatine kinase activity were observed on days 2-5 and the three cytoplasmic isozymes, MM, MB and BB, were present in the cultures in proportions similar to those of the newborn heart, indicating stability of the differentiated state of the cells. The relative amount of each isozyme remained unchanged throughout the experiments, MM constituted 70-90% of enzyme activity, MB contributed up to 30% and BB did not exceed 15% of activity. The very low proportion of BB and the lack of increase in this isozyme with age of culture support our earlier morphological observations that non-myocytes do not overgrow the culture.

Anti-proliferative effects and phenotypic alterations induced by 8-hydroxyquinoline in melanoma cell lines

The effect of the transition metal chelator, 8-hydroxyquinoline (8-HQ), was examined on the growth and phenotype expression of B16 mouse melanoma cells. Micromolar concentrations of 8-HQ inhibited the growth of B16 cells as well as human melanoma cell lines. Removal of 8-HQ from the culture medium restored normal cell growth. Growth inhibition by 8-HQ was accompanied by phenotypic alterations that included changes in cell morphology, increased production of melanin and enhanced activities of the enzymes gamma-glutamyl transpeptidase and NADPH cytochrome c reductase. These changes might be associated with a better differentiated phenotype.

Differential Effects of Sodium Butyrate and Dimethylsulfoxide on Gamma-Glutamyl Transpeptidase and Alkaline Phosphatase Activities in MCF-7 Breast Cancer Cells

Sodium butyrate and dimethylsulfoxide (DMSO), two known chemical inducers of cell differentiation, were examined on MCF-7 breast cancer cells. Both agents reduce the proliferative capacity of MCF-7 cells, as reflected by inhibition of colony formation in semisolid agar. Sodium butyrate is shown to enhance markedly the activity of two plasma membrane-bound enzymes, alkaline phosphatase and gamma-glutamyl transpeptidase. DMSO does not enhance the activity of these enzymes, but rather induces a small decrease in gamma-glutamyl transpeptidase activity. The present results show that although both agents inhibit cell proliferation, they have a distinct effect on phenotypic expression.

Growth inhibition and induction of phenotypic alterations by tiazofurin: Differential effects on MCF-7 breast cancer and HBL-100 breast cell lines☆☆☆

The effect of the nucleoside anti-metabolite tiazofurin (TR) was examined on the growth and phenotypic alterations of MCF-7 breast cancer and HBL-100 normal breast cell lines. TR was shown to inhibit MCF-7 cell growth. This inhibition could be reversed by exogenous addition of guanosine. The anti-proliferative effect of TR is accompanied by phenotypic alterations that include lipid accumulation and an increase in alkaline phosphatase activity. In contrast to MCF-7 cells, the HBL-100 breast milk derived cell line is relatively resistant to inhibition by TR. Alkaline phosphatase is not affected by TR and untreated cells accumulate lipid droplets, similar to TR-treated MCF-7 cells. Determination of GTP and ATP pools in both cell lines revealed that TR markedly reduces GTP content in MCF-7 cells. In HBL-100 cells, TR induces only a small decrease in GTP and does not affect ATP levels. The prototypic IMP dehydrogenase inhibitor, mycophenolic acid (MA), markedly inhibits HBL-100 cell growth, similarly to its effect on MCF-7 breast cancer cells. These findings may suggest differential metabolism of TR in MCF-7 and HBL-100 cells.

Histochemical localization of acidic glycosaminoglycans in normal human placentae.

First-trimester and term placentae were studied histochemically with alcian blue stain before and after specific enzyme treatments. A specific deposition of glycosaminoglycans was detected in the villous stroma, fetal blood vessels and on the surface of the syncytiotrophoblast, the latter being discontinuous and of variable thickness. Treatments of sections with hyaluronidases from Streptomyces and from bovine testes and with chondroitinase ABC indicated the presence of (1) chondroitin sulphates and hyaluronic acid mainly in the stroma; (2) heparan sulphate and dermatan sulphate associated with villous fetal blood vessels and the intervillous surface of the syncytiotrophoblast. It is suggested that the location of individual glycosaminoglycans could be related to their functions with regard to the maintenance of the structural integrity of the placenta by preventing its compression and to their involvement in blood anticoagulation and in lipid metabolism.

A cell line with unusual characteristics from an ovarian carcinoma patient: Modulation of sensitivity to antitumour drugs

A cell line (GZL-8) was established by cloning from ascitic fluid of an untreated ovarian carcinoma patient. The cells grew rapidly, accumulated lipids and showed chromosomal alterations. One of the marker chromosomes showed characteristics of a Y-like chromosome. This unusual finding was confirmed by DNA hybridisation using specific probes to the Y chromosome. The cells stained with fluorescent antibodies to desmoplakin and cytokeratins 8, 18, 19, and weakly with vimentin but not with desmin. The presence of epithelial membrane antigen, human milk fat globulin, alpha-lactalbumin, alpha-fetoprotein, placental alkaline phosphatase and oestrogen receptor-related antigen was demonstrated by indirect immunoperoxidase staining, but no CA-125 antigen could be detected. The cells showed positive reaction with antibodies to P-glycoprotein. The function of the P-glycoprotein transport system was demonstrated by the rhodamine-123 release test. The cells were initially responsive to doxorubicin, and to high concentrations of cisplatin. Growth inhibition by doxorubicin, especially at low doses was enhanced by the addition of verapamil or tamoxifen. This was shown by the soft agar clonogenic assay, by direct cell counting and by the MTT reducing test. Our results show that combination between drug and sensitivity modulators may be of potential clinical value in ovarian cancer.

Sodium butyrate enhances the activities of membranal enzymes and increases drug sensitivity in a cell line from ascitic fluid of an ovarian carcinoma patient

The effect of sodium butyrate was examined on the growth and phenotypic expression of a cell line derived from the ascitic fluid of an untreated patient with ovarian carcinoma. The chemical inducer of differentiation, sodium butyrate, markedly enhances the activity of the membrane-bound glycoprotein enzymes, alkaline phosphatase and gamma-glutamyl transpeptidase. The alkaline phosphatase corresponds to placental Regan type. Sodium butyrate (1 mM) alone has only a small inhibitory effect on cell growth. However, it was shown to potentiate the anti-proliferative effect of Adriamycin and to render the cells sensitive to cis-platinum.