Characterization of a doxorubicin-resistant murine melanoma line: Studies on cross-resistance and its circumvention

Supino, Rosanna; Prosperi, Ennio; Formelli, Franca; Mariani, Mariangela; Parmiani, Giorgio

doi:10.1038/bjc.1986.149

Cited by 29 publications

(19 citation statements)

References 15 publications

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“…The lower colonization potential of the resistant line is directly related to the cloning efficiency which has been found to be 10 times lower for the resistant line (Supino et al, 1986) and confirm similar findings on B16 melanoma subclones (Stackpole et al, 1985b). Such a correlation does not exist between the cloning efficiency and the tumourigenicity of these two lines as already reported for B16 melanoma cells in culture (Kreider & Schomayer, 1975 (Biedler et al, 1975;Biedler et al, 1983) Nowak et al, 1973).…”

Section: Dx-sensitivity Of B16 Melanoma Linessupporting

confidence: 77%

“…B16V cells show a pattern similar to B16 cells while B16VDXR cells, as found in vitro (Supino et al, 1986), show besides a first and a second peak similar to those of sensitive cells, a third peak shifted towards higher values (hypertetraploid).…”

Section: Dx-sensitivity Of B16 Melanoma Linesmentioning

confidence: 62%

“…The fact that B16VDXR showed after in vivo growth the same higher DNA content compared to the sensitive line B16V found in vitro (Supino et al, 1986), indicates that no cell selection occurred during in vivo growth. Similarly no selection seems to have occurred in the sensitive line B16V obtained by growing the parental B16 melanoma in vitro.…”

Section: Dx-sensitivity Of B16 Melanoma Linesmentioning

confidence: 81%

“…As reported for other murine tumours (Schabel et al, 1983), no cross-resistance was found for this The main biological properties that characterize the B16VDXR line in vivo compared to the parent line B16V are the longer latency period with consequent longer survival time and the lower colonization capacity, all features which go along with lower malignancy as reported for other drugresistant tumours (Biedler et al, 1983). The longer latency of the B16VDXR line correlates with the in vitro longer doubling time (25 vs. 15h) (Supino et al, 1986) and this might be responsible for the different sensitivity to both DX and cis-DDP. In fact it has been reported that while rapidly growing tumours are more sensitive to DX than slowly growing tumours, the opposite is true for cis-DDP (Mattern et al, 1981).…”

Section: Dx-sensitivity Of B16 Melanoma Linesmentioning

confidence: 99%

“…Detailed description of the in vitro assays of levels of resistance has been reported (Supino et al, 1986). Briefly, cells were treated at cell seeding with different concentrations of DX.…”

Section: Index Of Resistance (Ri) In Vitromentioning

confidence: 99%

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In vivo characterization of a doxorubicin resistant B16 melanoma cell line

Formelli¹,

Róssi²,

Supino³

et al. 1986

Br J Cancer

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Doxorubicin (DX) is one of the most widely used antineoplastic drugs because it exhibits considerable activity against a broad spectrum of solid tumours and leukaemias. Unfortunately, as for anticancer drugs in general, tumours often are either resistant from the outset or become so after chemotherapy. This phenomenon, together with metastatic spread, represents the most important obstacles which limit the success of chemotherapy. In order to understand the mechanisms involved in anthracycline resistance, several experimental systems have been developed both in vitro and in vivo (Biedler et al., 1983;Dan0, 1972;Inaba et al., 1979). Most of the in vivo studies, however, have been performed either on leukaemias or sarcomas grown in ascitic form and treated with i.p. administration of the drugs to be tested, i.e. by an assay which mimics the in vitro situation (Biedler et al., 1983;Seeber et al., 1982), or on solid tumours whose sensitivity and resistance to DX were tested only in in vitro assays (Giavazzi et al., 1983

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Section: Dx-sensitivity Of B16 Melanoma Linessupporting

confidence: 77%

Section: Dx-sensitivity Of B16 Melanoma Linesmentioning

confidence: 62%

Section: Dx-sensitivity Of B16 Melanoma Linesmentioning

confidence: 81%

Section: Dx-sensitivity Of B16 Melanoma Linesmentioning

confidence: 99%

Section: Index Of Resistance (Ri) In Vitromentioning

confidence: 99%

See 3 more Smart Citations

In vivo characterization of a doxorubicin resistant B16 melanoma cell line

Formelli¹,

Róssi²,

Supino³

et al. 1986

Br J Cancer

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A study of cross‐resistance pattern and expression of molecular markers of multidrug resistance in a human small‐cell lung‐cancer cell line selected with doxorubicin

Supino

Binaschi

Capranico

et al. 1993

Intl Journal of Cancer

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A doxorubicin-resistant variant of the human small-cell lung-cancer cell line N592 was selected by in vitro continuous exposure to increasing drug concentrations. The aim of this study was to examine the cross-resistance pattern, cellular pharmacokinetics of doxorubicin and expression of molecular factors of resistance. The sub-line N592/DX exhibited a multidrug-resistance phenotype, which was somewhat atypical, since it included cisplatin. Development of doxorubicin resistance could not be attributed to differential doxorubicin uptake or retention. Verapamil partially reverted doxorubicin resistance without affecting cellular pharmacokinetics. These findings are consistent with undetectable levels of mdr-1-gene expression in these cells. A molecular analysis of other putative mechanisms of multidrug resistance indicated no alterations in GSH levels or GSH-related enzymes, but a marginal reduction of topoisomerase II alpha expression in the resistant sub-line. This reduction, which was associated with an increase in topoisomerase I, does not explain the high degree of resistance. This study supports the view that alternative, unidentified mechanisms, which may be of clinical relevance, must be involved in the development of multidrug resistance of small-cell lung cancer.

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Decorin and chondroitin‐6 sulfate inhibit B16V melanoma cell migration and invasion by cellular acidification

Stock¹,

Jungmann

Seidler

2011

Journal Cellular Physiology

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In vivo, cells are embedded in an environment generated and maintained by multiple cell-cell and cell-matrix interactions. While transiting the dermis metastasizing melanoma cells interact with the extracellular matrix (ECM) and fibroblasts. To study the roles of ECM components and fibroblasts in melanoma (B16V) cell migration and invasion, we established a co-culture system consisting of fibroblasts, their collagen-rich matrix and B16V cells. The crosstalk between B16V cells and fibroblasts was indicated by a clear increase in release and activity of matrix-metallo-protease-2. Time-lapse microscopy revealed that in B16V cells exposed to either decorin or chondroitin sulfates migration and invasion decreased by more than 50%. Decorin led to a reversible, chondroitin-6-sulfate to an irreversible, cytosolic acidification of B16V cells. Interestingly, decorin lowered NHE1 activity whereas chondroitin-6-sulfate did not. Furthermore, decorin and chondroitin-6-sulfate also acidified the pH at the cell surface which might prevent migration due to strong adhesion. In conclusion, the present co-culture system is an appropriate tool to analyze migration, invasion, and MMP release depending on cell-matrix interactions and the crosstalk between the invasive cells and those surrounded by their self-made matrix. We show a so far unknown function of decorin and chondroitin-6-sulfate: their ability to inhibit B16V cell migration by intracellular acidification.

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Characterization of a doxorubicin-resistant murine melanoma line: Studies on cross-resistance and its circumvention

Cited by 29 publications

References 15 publications

In vivo characterization of a doxorubicin resistant B16 melanoma cell line

In vivo characterization of a doxorubicin resistant B16 melanoma cell line

A study of cross‐resistance pattern and expression of molecular markers of multidrug resistance in a human small‐cell lung‐cancer cell line selected with doxorubicin

Decorin and chondroitin‐6 sulfate inhibit B16V melanoma cell migration and invasion by cellular acidification

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