Malignant cells facilitate lung metastasis by bringing their own soil

Metastatic cancer cells (seeds) preferentially grow in the secondary sites with a permissive microenvironment (soil). We show that the metastatic cells can bring their own soil—stromal components including activated fibroblasts—from the primary site to the lungs. By analyzing the efferent blood from tumors, we found that viability of circulating metastatic cancer cells is higher if they are incorporated in heterotypic tumor–stroma cell fragments. Moreover, we show that these cotraveling stromal cells provide an early growth advantage to the accompanying metastatic cancer cells in the lungs. Consistent with this hypothesis, we demonstrate that partial depletion of the carcinoma-associated fibroblasts, which spontaneously spread to the lung tissue along with metastatic cancer cells, significantly decreases the number of metastases and extends survival after primary tumor resection. Finally, we show that the brain metastases from lung carcinoma and other carcinomas in patients contain carcinoma-associated fibroblasts, in contrast to primary brain tumors or normal brain tissue. Demonstration of the direct involvement of primary tumor stroma in metastasis has important conceptual and clinical implications for the colonization step in tumor progression.

[1]  A. Biankin,et al.  Tumorigenesis and Neoplastic Progression Role of Pancreatic Stellate Cells in Pancreatic Cancer Metastasis , 2010 .

[2]  Erik Sahai,et al.  Illuminating the metastatic process , 2007, Nature Reviews Cancer.

[3]  G. Nicolson,et al.  Malignant melanoma cell lines selected in vitro for increased homotypic adhesion properties have increased experimental metastatic potential , 1986, Clinical & Experimental Metastasis.

[4]  Wan-Wan Lin,et al.  Carcinoma-produced factors activate myeloid cells through TLR2 to stimulate metastasis , 2009, Nature.

[5]  I. Fidler The relationship of embolic homogeneity, number, size and viability to the incidence of experimental metastasis. , 1973, European journal of cancer.

[6]  I. Weissman,et al.  Little Evidence for Developmental Plasticity of Adult Hematopoietic Stem Cells , 2002, Science.

[7]  Rakesh K. Jain,et al.  Pathology: Cancer cells compress intratumour vessels , 2004, Nature.

[8]  S. Rafii,et al.  VEGFR1-positive haematopoietic bone marrow progenitors initiate the pre-metastatic niche , 2005, Nature.

[9]  Lars Holmgren,et al.  Angiostatin: A novel angiogenesis inhibitor that mediates the suppression of metastases by a lewis lung carcinoma , 1994, Cell.

[10]  M. F. Booth,et al.  Differential Transplantability of Tumor-Associated Stromal Cells , 2004, Cancer Research.

[11]  R. Jain,et al.  Cells shed from tumours show reduced clonogenicity, resistance to apoptosis, and in vivo tumorigenicity , 1999, British Journal of Cancer.

[12]  A. Al-Mehdi,et al.  Intravascular origin of metastasis from the proliferation of endothelium-attached tumor cells: a new model for metastasis , 2000, Nature Medicine.

[13]  Harold Varmus,et al.  Seeding and Propagation of Untransformed Mouse Mammary Cells in the Lung , 2008, Science.

[14]  I. Fidler,et al.  The pathogenesis of cancer metastasis: the 'seed and soil' hypothesis revisited , 2003, Nature Reviews Cancer.

[15]  R. Jain,et al.  Histopathologic findings and establishment of novel tumor lines from spontaneous tumors in FVB/N mice. , 2008, Comparative medicine.

[16]  E. Price,et al.  Isolation of mouse stromal cells associated with a human tumor using differential diphtheria toxin sensitivity. , 1999, The American journal of pathology.

[17]  J. Serody,et al.  Tumorigenesis and Neoplastic Progression C-C Chemokine Receptor 5 on Pulmonary Fibrocytes Facilitates Migration and Promotes Metastasis via Matrix Metalloproteinase 9 , 2010 .

[18]  L. Liotta,et al.  The significance of hematogenous tumor cell clumps in the metastatic process. , 1976, Cancer research.

[19]  I. Fidler,et al.  AACR centennial series: the biology of cancer metastasis: historical perspective. , 2010, Cancer research.

[20]  D. Ruiter,et al.  Tumour metastasis: is tissue an issue? , 2001, The Lancet. Oncology.

[21]  R. Jain,et al.  Evidence for incorporation of bone marrow-derived endothelial cells into perfused blood vessels in tumors. , 2006, Blood.

[22]  M. Shibuya,et al.  MMP9 induction by vascular endothelial growth factor receptor-1 is involved in lung-specific metastasis. , 2002, Cancer cell.

[23]  R. Jain,et al.  Tissue-isolated human tumor xenografts in athymic nude mice. , 1994, Microvascular research.