R Beaupain scite author profile

R Beaupain

4Publications

97Citation Statements Received

40Citation Statements Given

How they've been cited

100

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Affiliations

Hôpital Avicenne, Institute Curie, Inserm

Publications

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Mapping the cellular distribution of labelled molecules by SIMS microscopy

Hindié

Coulomb

Beaupain

et al. 1992

Biology of the Cell

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We took advantage of one of the main possibilities of ion microscopy, ie isotopic analysis, to study the cellular distribution of molecules labelled either with carbon 14 or with stable isotopes of low natural abundance such as nitrogen 15 and deuterium. The surface of the sample is bombarded with an ion beam (O2+, Cs+ etc). Secondary ions emitted from the sample are filtered by a mass spectrometer and the distribution of the labelling isotope is recorded. In this way, we obtained images showing the characteristic distribution of 14C-thymidine and D-arginine in human fibroblasts, and of 15N-adenine in organotypic cultures of human breast cancer cells. The spatial resolution on the acquired images was close to 0.1 micron when using the UPS-ONERA ion microprobe. The sensitivity of the method for detecting carbon 14 is far greater than that of autoradiography and the technique is both fast and quantitative. On the other hand, the capacity of ion microscopy for studying the tissular distribution of molecules labelled with stable isotopes, opens the way for biological and pharmacological tracer studies of human diseases.

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Fibroblast‐mediated differentiation in human breast carcinoma cells (MCF‐7) grown as nodules IN VITRO

Brouty‐Boyé¹,

Mainguéné²,

Magnien³

et al. 1994

Intl Journal of Cancer

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The growth of cells in 3-dimensional form as nodules in vitro facilitates studies of in vivo cellular interactions. Taking advantage of this technique, human breast carcinoma cells (MCF-7) were co-cultured with stromal fibroblasts isolated from either normal or tumorous breast tissue to study the influence of such fibroblasts on tumor-cell growth and differentiation. Ten days after co-culture of carcinoma cells with fibroblasts from normal tissue at a 1:10 ratio, the size of nodules began to increase and stabilize by day 30 while the fibroblast number decreased and finally disappeared. Concurrently, the carcinoma cells underwent a progressive redifferentiation process which histologically resulted in the appearance of highly developed papillar and tubular structures after 2 months in culture. The production of mucins was further evidence that these cells had undergone differentiation. By contrast, when MCF-7 cells were grown alone or with fibroblasts isolated from a breast carcinoma, the nodules continued to exhibit their characteristic histodedifferentiation properties and did not grow. The re-establishment of a normal epithelial state of differentiation in MCF-7 carcinoma nodules indicates that the phenotypic characteristics of tumor cells are reversible and are influenced or controlled by the stromal environment by which these tumor cells are surrounded or in contact with. Overall, our results open the possibility of exploiting the effects that connective tissue cells have on tumor-cell differentiation for use in prevention and treatment of cancer.

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Spatial organization of three‐dimensional cocultures of adriamycin‐sensitive and ‐resistant human breast cancer MCF‐7 cells

Starzec

Bron

Kraemer

et al. 2003

Biology of the Cell

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Genetic and cellular heterogeneity is one of mechanisms involved in increasing tumour aggressiveness during neoplastic progression. Development of drug-resistant tumour cell subpopulations is a major problem in clinical oncology. Multi-drug resistant tumour cells survive when exposed to cytotoxic agents. Here, we studied in a three-dimensional (3D) coculture system, called "ex vivo nodules", how drug-resistant and sensitive tumour cells settle down in a 3D space. For this, we cocultured adriamycin-sensitive (MCF-7S) and -resistant (MCF-7R) human breast cancer cells in long term nodules. We showed that both types of cells are able to grow separately or in coculture until five weeks in spheroidal forms. MCF-7R cells did not loose their multi-drug resistance when cultured in nodules as measured by RT-PCR. Curiously, the exterior aspects of mixed (MCF-7S/ MCF-7R) nodules and MCF-7R nodules were similar whereas MCF-7S nodules were completely different. Nevertheless, morphologically these three nodule types were distinct, in particular in their density. Immunostaining showed that in mixed nodules, MCF-7R cells were arranged at the periphery, whereas the MCF-7S cells are in the central part of the nodules.Even if the mechanism of this arrangement remained unclear, this work shows that three-dimensional cell culture is well adapted to the study of the relationships between adhesion mechanisms and drug-resistance.

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Effects of human recombinant interferons-α2, -β and -γ on growth and survival of human cancer nodules maintained in continuous organotypic culture

Beaupain

Billard

Falcoff

1986

European Journal of Cancer and Clinical Oncology

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R Beaupain

Mapping the cellular distribution of labelled molecules by SIMS microscopy

Fibroblast‐mediated differentiation in human breast carcinoma cells (MCF‐7) grown as nodules IN VITRO

Spatial organization of three‐dimensional cocultures of adriamycin‐sensitive and ‐resistant human breast cancer MCF‐7 cells

Effects of human recombinant interferons-α2, -β and -γ on growth and survival of human cancer nodules maintained in continuous organotypic culture

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