K Hlubinová scite author profile

BackgroundHuman mesenchymal stromal cells (MSC) hold a promise for future cell-based therapies due to their immunomodulatory properties and/or secretory activity. Nevertheless non-neoplastic tumor compartment could also originate from MSC. We aimed to show whether multipotent MSC derived from human adipose tissue (AT-MSC) could create tumor cell-protective milieu and affect tumor cell behaviour in vitro and in vivo.ResultsHere we have demonstrated tumor-promoting effect of AT-MSC on human melanoma A375 cells. AT-MSC coinjection mediated abrogation of tumor latency and supported subcutaneous xenotransplant growth from very low melanoma cell doses. Tumor incidence was also significantly increased by AT-MSC-derived soluble factors. AT-MSC supported proliferation, suppressed apoptosis and modulated melanoma cell responses to cytotoxic drugs in vitro. Expression and multiplex cytokine assays confirmed synergistic increase in VEGF that contributed to the AT-MSC-mediated support of A375 xenotransplant growth. Production of G-CSF and other factors implicated in formation of supportive proinflammatory tumor cell microenvironment was also confirmed. SDF-1α/CXCR4 signalling contributed to tumor-promoting effect of systemic AT-MSC administration on A375 xenotransplants. However, no support was observed for human glioblastoma cells 8MGBA co-injected along with AT-MSC that did not sustain tumor xenotransplant growth in vivo. Tumor-inhibiting response could be attributed to the synergistic action of multiple cytokines produced by AT-MSC on glioblastoma cells.ConclusionsHerein we provide experimental evidence for MSC-mediated protective effect on melanoma A375 cells under nutrient-limiting and hostile environmental conditions resulting from mutual crosstalk between neoplastic and non-malignant cells. This tumor-favouring effect was not observed for the glioblastoma cells 8MGBA. Collectively, our data further strengthen the need for unravelling mechanisms underlying MSC-mediated modulation of tumor behaviour for possible future MSC clinical use in the context of malignant disease.

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HSV-tk expressing mesenchymal stem cells exert bystander effect on human glioblastoma cells

Matúšková

et al. 2010

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Fibroblast nemosis arrests growth and induces differentiation of human leukemia cells

Kankuri

Babušíková

Hlubinová

et al. 2007

Intl Journal of Cancer

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Interactive signaling between cancer cells and stroma plays an important role in determining tumor development. We recently found tumor cell-derived factors to induce fibroblast clustering, and that the high amounts of hepatocyte growth factor/scatter factor (HGF/SF) produced by these cell-cell contact-activated fibroblasts enhanced the invasiveness of c-Met-expressing cancer cells. We now observed that leukemia cells lacking c-Met respond to this novel type of fibroblast activation, nemosis, with growth arrest and differentiation to a dendritic cell-like phenotype. This effect was counteracted by introduction of c-Met expression into these cells. Moreover, those leukemia cell lines harboring properly processed c-Met showed no effect in response to nemosis. We propose this effect to be mediated by nemosis-derived cytokine signals, and present the potential candidates induced in the nemotic fibroblasts: interleukins-1, -6, -8, -11, leukemia inhibitory factor and granulocyte-macrophage-colony-stimulating factor. Our results emphasize the role of activated stromal fibroblasts in controlling progression of certain hematologic malignancies in a c-Met expression-dependent manner. ' 2007 Wiley-Liss, Inc.

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K Hlubinová

Tumor cell behaviour modulation by mesenchymal stromal cells

HSV-tk expressing mesenchymal stem cells exert bystander effect on human glioblastoma cells

Fibroblast nemosis arrests growth and induces differentiation of human leukemia cells

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