Marie-France Poupon

Lonidamine triggers apoptosis via a direct, Bcl-2-inhibited effect on the mitochondrial permeability transition pore.

The molecular mode of action of lonidamine, a therapeutic agent employed in cancer chemotherapy, has been elusive. Here we provide evidence that lonidamine (LND) acts on mitochondria to induce apoptosis. LND provokes a disruption of the mitochondrial transmembrane potential which precedes signs of nuclear apoptosis and cytolysis. The mitochondrial and cytocidal effects of LND are not prevented by inhibitors of caspases or of mRNA or protein synthesis. However, they are prevented by transfection-enforced overexpression of Bcl-2, an oncoprotein which inhibits apoptosis by stabilizing the mitochondrial membrane barrier function. Accordingly, the cell death-inducing effect of LND is amplified by simultaneous addition of PK11195, an isoquinoline ligand of the peripheral benzodiazepine receptor which antagonizes the cytoprotective effect of Bcl-2. When added to isolated nuclei, LND fails to provoke DNA degradation unless mitochondria are added simultaneously. In isolated mitochondria, LND causes the dissipation of the mitochondrial inner transmembrane potential and the release of apoptogenic factors capable of inducing nuclear apoptosis in vitro. Thus the mitochondrion is the subcellular target of LND. All effects of LND on isolated mitochondria are counteracted by cyclosporin A, an inhibitor of the mitochondrial PT pore. We therefore tested the effect of LND on the purified PT pore reconstituted into liposomes. LND permeabilizes liposomal membranes containing the PT pore. This effect is prevented by addition of recombinant Bcl-2 protein but not by a mutant Bcl-2 protein that has lost its apoptosis-inhibitory function. Altogether these data indicate that LND represents a novel type of anti-cancer agent which induces apoptosis via a direct effect on the mitochondrial PT pore.

Inhibition of constitutive NF-κB activity suppresses tumorigenicity of ewing sarcoma EW7 cells

Ewing sarcoma is 1 of the most aggressive tumors that can affect children and young adults. Despite advances in therapy, the prognosis remains poor emphasizing the need for defining new targets for treatment. We investigated a possible role of nuclear factor‐κB (NF‐κB) activity of Ewing sarcoma‐derived EW7 cells in their tumorigenicity. In these cells, expression of a degradation‐resistant form of the inhibitory factor IκBα inhibited NF‐κB activity without affecting their in vitro proliferation rate. It causes, however, a remarkable loss of their ability to generate tumors in nude mice that correlates with both a decrease in extracellular matrix (ECM) protein secretion and an acquisition of sensitivity to murine tumor necrosis factor α (TNFα)‐induced apoptosis. These data support the concept that NF‐κB activity plays a role in the tumorigenicity of Ewing sarcoma cells, identifying NF‐κB as a potential target for reducing Ewing tumor progression.

Association of SIBA treatment and a Met-depleted diet inhibitsin vitro growth andin vivo metastatic spread of experimental tumor cell lines

We have used 5′-deoxy-5′-S isobutyl-thioadenosine (SIBA), an analog ofS-adenosylhomocysteine, alone or in association with a methionine-depleted diet in order to obtain an antitumoral effect in two different tumor models: a transplantable rat rhabdomyosarcoma (RMS-J1) induced by i.m. injection of nickel and the well-known Lewis lung carcinoma (3LL) of C57BL/6 mice. Since SIBA has been reported to inhibit the methyl group transfer from methionine toS-adenosylhomocysteine, among other activities, its association with a reduction of methyl donors, achieved by methionine depletion of the diet (in vivo) or the culture medium (in vitro), should logically lead to an additive effect.In vitro, 3LL and RMS-J1 were sensitive to the cytotoxic effect of SIBA and were methioninedependent for their proliferation. Fibroblast proliferation was not affected by these two treatments alone or in association.In vivo, either SIBA treatment or a low methionine diet led to a significant decrease in the metastatic character of these two tumors; however, local tumor growth was not significantly affected. The median number of 3LL metastases counted in the lungs was reduced from 100 to 18 by SIBA treatment, and to 27 by the low methionine diet. No additive effect could be detected when the treatments were given simultaneously. RMS-J1-bearing rats treated with SIBA and fed a low Met diet underwent primary tumor excision. The median numbers of lung metastatic nodules were 27, 26, 14 and 8 for the control, SIBA-treated rats, methionine-deprived rats and rats receiving the combined therapy. Expressed as percentages 20 per cent were cured, 23 per cent showed a low number of lung metastases (P < 10), whereas all the rats in the control group developed more than 10 pulmonary nodules. No cytotoxic effect could be observed on the treated rats. The role of SIBA and methionine depletion, as agents interfering with transmethylation processes, in regard to the control of tumor development, namely metastatic invasiveness, is discussed.

Binding and internalization of exogenous glycosaminoglycans in weakly and highly metastatic rhabdomyosarcoma cells

The fate of exogenous glycosaminoglycans in cultures of strongly (RMS 0) and weakly (RMS 8) metastatic rat rhabdomyosarcoma cells was studied. The time course and concentration dependence of binding and internalization of the radiolabeled sulfated glycosaminoglycans were determined. Weakly metastatic cells took up heparin, heparan and dermatan sulfates into their pericellular compartment at a higher rate than the strongly metastatic RMS 0 cells. The RMS 8 cells exhibited about two times more binding sites for these iduronic acid containing glycosaminoglycans, and internalized higher amounts of them than the RMS 0 cells. The uptake of the chondroitin sulfate into the peri- and intracellular compartments of both cell types was about 5-15% of that of the other glycosaminoglycans studied. The specificity of displacement of the pericellular heparin and dermatan sulfate by the unlabeled glycosaminoglycans indicates the involvement of specific structural features of the polysaccharide chains in the interactions of glycosaminoglycans with the surface of rhabdomyosarcoma cells, beside ionic forces due to the polyanionic character of the glycosaminoglycans. Heparin and heparan sulfate degradation products, mainly large oligosaccharides, were recovered from the surface of RMS 0 cells but were absent on the surface of the RMS 8 cells. About 30% of the internalized heparin and heparan sulfate was present in the partially degraded form in both cell types. Oligosaccharides derived from glycosaminoglycans were not released into the medium. The decrease in the amount of iduronic acid containing glycosaminoglycans internalized by the highly invasive cells seems to be correlated with an increased cell-associated degradation and with an apparent loss of glycosaminoglycan binding sites on the cell surface.

Cell surface glycosaminoglycans of rat rhabdomyosarcoma lines with different metastatic potentials and of non-malignant rat myoblasts

Glycosaminoglycans of cultured nickel-induced rat rhabdomyosarcoma cell lines with different metastatic potentials and of non-malignant myoblasts, grown in the presence or in the absence of hydrocortisone, were studied comparatively. The newly formed [3H]glucosamine-labelled cell surface proteoglycans and glycosaminoglycans were separated by ion exchange chromatography and partially characterized. The overall incorporation of the label in the glycosaminoglycan fractions and the average molecular weight of the heparan and of the chondroitin sulfate proteoglycans was lower in the malignant cells than in the non-malignant L6 myoblasts. The strongly metastatic 9-4/0 parental line and the 6 subline were relatively richer in chondroitin sulfate and poorer in dermatan sulfate labels than the very weakly metastatic 8 subline and the L6 myoblasts. Hyaluronic acid and heparan sulfate labels were inversely related to the metastatic capacity of the cell lines studied. Hydrocortisone treatment induced an increase in the cell surface chondroitin and dermatan sulfate labels in the case of the strongly metastatic lines, and a decrease of the same parameters in the case of the weakly metastatic 8 line.

Effects of glycosaminoglycans and extracellular matrix components on metastatic rat rhabdomyosarcoma tumor and myoblast cell proliferation

Experiments were performed to determine the relative effects of glycosaminoglycans and extracellular matrix components alone or in association with various substrates, including extracellular matrix, on the proliferation of rat rhabdomyosarcoma (RMS) cell lines of different metastatic potential and nontumorigenic rat myoblast L6 cells. The assays used various substrates: tissue culture plastic, type I and IV collagen, fibronectin, laminin and extracellular matrix deposited by corneal endothelial cells. In control experiments, tumor cells grew faster on fibronectin and extracellular matrix than on the other substrates, and their proliferation rate was decreased slightly by laminin. Collagens were growth-inhibitory only for the highly metastatic line. The proliferation rate of L6 myoblasts was not greatly affected by the different substrates. The addition of exogenous glycosaminoglycans to the culture medium modified cell proliferation on the various substrates. Heparin inhibited the growth of all the cell lines tested, independent of the substrate. When cultured on laminin substrate the proliferation rates of the cell lines were depressed by addition of heparan sulfate to the medium, and this effect was more pronounced in the metastatic RMS lines. Chondroitin sulfate and dermatan sulfate enhanced the growth rates of the tumorigenic cells when cultured on collagen type I surfaces. Hydrocortisone, which induces myogenic differentiation, decreased the cell proliferation rates of all the cell lines tested and intensified the inhibitory effects of heparin when added simultaneously to the culture medium. The results showed that glycosaminoglycans and other matrix components can affect the proliferation rates of rhabdomyosarcoma cell lines.

Antimetastatic effect of immunomodulators from Nocardia opaca in mice and rats activation of peritoneal macrophages by these fractions

SummaryNocardia delipidated cell mitogen (NDCM), a particulate fraction prepared from Nocardia opaca, injected i.p. in an oil/water emulsion to F6 rhabdomyosarcoma-bearing rats, inhibited the development of pulmonary metastases; 6 out of 10 rats were protected. Repeated i.p. administration of emulsified NDCM and of two other compounds, a Nocardia water soluble mitogen (NWSM a hydrosoluble fraction) and purified cell walls (CW, an insoluble macromolecular fraction) in Lewis lung carcinoma (LLC)-bearing mice resulted in a significant reduction of lung metastases. The efficiency of these fractions was enhanced by association with monokines. A combination regimen of NDCM, NWSM, and CW (100 μg/0.1 ml) and monokines (0.1 ml), injected i.p. in LLC-bearing mice, yielded a greater antimetastatic effect than either therapy alone. Peritoneal macrophages from mice which had been injected i.p. with NWSM or CW, when triggered either by TPA (tetradecanoyl phorbol acetate) or by zymosan, released large quantities of hydrogen peroxide and had a high rate of glucose consumption. These macrophages were activated as judged by their cytostatic activity against syngeneic P815 mastocytoma growth; they expressed biochemical markers which have been reported to characterize the activated state. Incubation of thioglycollate-elicited peritoneal macrophages with NWSM, and monokines for 72 h resulted in a cytotoxic activity against labeled LLC cells; addition of macrophage activating factor significantly increased the cytotoxic capacity of these macrophages. In view of this we postulate that the antimetastatic effect of soluble and insoluble N. opaca fractions and monokines might be mediated by activated peritoneal macrophages.

Cell surface glycosaminoglycans of a tumor cell line and its DNA transfected variant differing in their lung colonizing potential

A highly lung-colonizing cell line RMS/82 was obtained by DNA transfection from a low lung-colonizing line RMS/8, a clone of a rat rhabdomyosarcoma cell line. The cells were metabolically labeled with3H-glucosamine and35S-sulfate. The newly synthesized pericellular glycosaminoglycans and the ability of the cells from the two lines to degrade extracellular matrix components were studied comparatively. The following conclusions were obtained: 1) Thein vitro proliferation rate is not a determinant in the modulation of the colonizing potential of these cells; 2) The strongly colonizing RMS/82 cells release more radioactivity from the radiolabeled extracellular matrix than their weakly colonizing counterparts; 3) The cells with a high colonizing potential incorporated less radioactivity into the cell surface glycosaminoglycans, and exhibited a lower heparan sulfate to chondroitin sulfate ratio than the weakly colonizing RMS/8 line.

Modulation of proteoglycan metabolism by hydrocortisone and by growth factors in rhabdomyosarcoma cell lines of different metastatic potentials

Glycosaminoglycans of cultured nickel-induced rat rhabdomyosarcoma cell lines with different metastatic potentials, grown in the presence or in the absence of hydrocortisone and of growth factor (EDF and EDGF) were investigated comparatively. The newly formed [35S]sulphate and [3H]glucosamine-labelled glycosaminoglycans were analysed in the extra-, peri- and intra-cellular compartments of the following cell lines: the strongly metastatic and colonizing 9-4/0 parental line, the very weakly metastatic and weakly colonizing subline 8 and the very weakly metastatic but colonizing subline 13a2.The cell surface of the weakly metastatic 8 and 13a2 lines was richer at least 5 and 2 times respectively in sulphated glycosaminoglycan label than the surface of the strongly metastatic 9-4/0 parental line. Hydrocortisone provoked an approximately four-fold increase in the label of the sulphated cell surface glycosaminoglycans of the 9-4/0 line. The pattern of the labelled cell surface glycosaminoglycans of these cells become similar to that of cells from the very weakly invading subline 8. Hydrocortisone induced only minor changes in the distribution of the glycosaminoglycans in the 8 and 13a2 lines, and at the same time, their proliferation rate and differentiation state was only slightly affected by this drug. Conversely to hydrocortisone, EGF increases the proliferation of the 9-4/0 line and also increases the label in sulphated cell surface glycosaminoglycans. This increase is about 50 per cent of that obtained by hydrocortisone. Thus, the accumulation of the glycosaminoglycan label on the cell surface is not directly related to the cell growth in the case of these cells.The results suggest that sulphated cell surface glycosaminoglycans, especially chondroitin sulphate, are involved in the inhibition of metastasis formation of the rhabdomyosarcoma cell lines studied.

Responses of Metastatic Rhabdomyosarcoma Cells and Normal Myoblasts to Growth Factors Derived from Normal Tissues

During metastasis tumor cells may be affected by a variety of environmental factors including intercellular substances and growth factors of host origin. We have studied this relationship on several cloned cell lines derived from a rat rhabdomyosarcoma selected on the basis of their metastatic potential. We show that the parental cell line (9–4/0) was stimulated to proliferate in vitro by Epidermal Growth Factor (EGF), pituitary Fibroblast Growth Factor (pFGF) and Eye Derived Growth Factor (EDGF) in the presence of 10% fetal calf serum (FCS). Six sublines which differed in their doubling time and metastatic potential were studied. These growth factors stimulate all these cells to some extent but some cell lines were more responsive to EGF than to EDGF or to FGF, while other cell lines were more responsive to EDGF and very little to EGF. One cloned cell line (14) was chosen to study the different parameters playing a role in growth factor stimulation. This growth factor-increased proliferation was independent on the FCS concentration and on the initial cell density.