Cooperative cell invasion: matrix metalloproteinase–mediated incorporation between cells

Cooperative invasion is observed in heterogeneous mixes of cancer cells. Two distinct tumor cell subtypes, neuroblastoma neuronal- and substrate-type cells, are shown to mutually influence each other’s invasion.

[1]  G. O'Neill,et al.  Rac GTPase regulation of 3D invasion in neuroblastomas lacking MYCN amplification , 2017, Cell adhesion & migration.

[2]  Yunyun Zhou,et al.  An epigenetically distinct breast cancer cell subpopulation promotes collective invasion. , 2015, The Journal of clinical investigation.

[3]  K. Stroka,et al.  VE-Cadherin-Independent Cancer Cell Incorporation into the Vascular Endothelium Precedes Transmigration , 2014, PloS one.

[4]  S. Etienne-Manneville,et al.  Neighborly relations during collective migration. , 2014, Current opinion in cell biology.

[5]  C. Wellbrock,et al.  Heterogeneous Tumor Subpopulations Cooperate to Drive Invasion , 2014, Cell reports.

[6]  Andrew J. Ewald,et al.  Collective Invasion in Breast Cancer Requires a Conserved Basal Epithelial Program , 2013, Cell.

[7]  G. O'Neill,et al.  NEDD9 Regulates 3D Migratory Activity Independent of the Rac1 Morphology Switch in Glioma and Neuroblastoma , 2013, Molecular Cancer Research.

[8]  Shawn P. Carey,et al.  Leading malignant cells initiate collective epithelial cell invasion in a three-dimensional heterotypic tumor spheroid model , 2013, Clinical & Experimental Metastasis.

[9]  G. Pearson,et al.  Breast cancer subtype-specific interactions with the microenvironment dictate mechanisms of invasion. , 2011, Cancer Research.

[10]  G. O'Neill,et al.  The actin-associating protein Tm5NM1 blocks mesenchymal motility without transition to amoeboid motility , 2011, Oncogene.

[11]  Erik Sahai,et al.  Localised and reversible TGFβ signalling switches breast cancer cells from cohesive to single cell motility , 2009, Nature Cell Biology.

[12]  L. Coussens,et al.  CD4(+) T cells regulate pulmonary metastasis of mammary carcinomas by enhancing protumor properties of macrophages. , 2009, Cancer cell.

[13]  E. Sahai,et al.  Rac Activation and Inactivation Control Plasticity of Tumor Cell Movement , 2008, Cell.

[14]  E. Sahai,et al.  Fibroblast-led collective invasion of carcinoma cells with differing roles for RhoGTPases in leading and following cells , 2007, Nature Cell Biology.

[15]  Yarong Wang,et al.  Direct visualization of macrophage-assisted tumor cell intravasation in mammary tumors. , 2007, Cancer research.

[16]  W. Gerald,et al.  Origin of neuroblastic tumors: clues for future therapeutics , 2004, Expert review of molecular diagnostics.

[17]  P. Friedl Prespecification and plasticity: shifting mechanisms of cell migration. , 2004, Current opinion in cell biology.

[18]  R. Ross,et al.  A role for distinct cell types in determining malignancy in human neuroblastoma cell lines and tumors. , 2003, Cancer letters.

[19]  P. Friedl,et al.  Tumour-cell invasion and migration: diversity and escape mechanisms , 2003, Nature Reviews Cancer.

[20]  W. Gerald,et al.  Neuroblastic and Schwannian stromal cells of neuroblastoma are derived from a tumoral progenitor cell. , 2001, Cancer research.

[21]  A. Bernheim,et al.  Phenotypic and genotypic diversity of human neuroblastoma studied in three IGR cell line models derived from bone marrow metastases. , 1999, Cancer genetics and cytogenetics.

[22]  D. Simmons,et al.  CD44H expression by human neuroblastoma cells: relation to MYCN amplification and lineage differentiation. , 1994, Cancer research.

[23]  H. Hosoi,et al.  Schwannian cell differentiation of human neuroblastoma cell lines in vitro induced by bromodeoxyuridine. , 1988, Cancer research.

[24]  G. O'Neill,et al.  Oncogenes and Tumor Suppressors NEDD 9 Regulates 3 D Migratory Activity Independent of the Rac 1 Morphology Switch in Glioma and Neuroblastoma , 2014 .

[25]  P. Friedl,et al.  Cancer invasion and resistance: interconnected processes of disease progression and therapy failure. , 2012, Trends in molecular medicine.

[26]  M. Day,et al.  Soluble E-cadherin: more than a symptom of disease. , 2012, Frontiers in bioscience.

[27]  A. Bernheim,et al.  Stromal cells and human malignant neuroblasts derived from bone marrow metastasis may share common karyotypic abnormalities: the case of the IGR-N-91 cell line. , 2001, Medical and pediatric oncology.

[28]  C. Thiele Neuroblastoma Cell Lines , 1998 .

[29]  R A Ross,et al.  Phenotypic diversification in human neuroblastoma cells: expression of distinct neural crest lineages. , 1989, Cancer research.