Mast cell–derived angiopoietin-1 plays a critical role in the growth of plasma cell tumors
Takayuki Nakayama, … , Lei Yao, Giovanna Tosato
Takayuki Nakayama, … , Lei Yao, Giovanna Tosato
Published November 1, 2004
Citation Information: J Clin Invest. 2004;114(9):1317-1325. https://doi.org/10.1172/JCI22089.
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Article Oncology

Mast cell–derived angiopoietin-1 plays a critical role in the growth of plasma cell tumors

Abstract

Multiple myeloma in humans is frequently associated with mast cell infiltration and neovascularization, which correlate directly with disease severity, but the mechanisms underlying this relationship remain unclear. Here, we report that primary murine mast cells express angiopoietin-1 (Ang-1) and low levels of VEGF-A but not Ang-2 and that 2 established murine plasmacytoma cell lines express high levels of VEGF-A but little or no Ang-1 or Ang-2. An in vivo angiogenesis assay using extracellular matrix components shows that mast cells and plasmacytoma cells, together, promote marked neovascularization composed of dilated vessels, which is prevented by neutralization of VEGF-A and Ang-1 but is only partially reduced by neutralization of either VEGF-A or Ang-1. Mast cells within extracellular matrix components express Ang-1, and recombinant Ang-1 together with plasmacytoma cells promotes extracellular matrix neovascularization similar to that induced by mast cells. A transplantation assay shows that primary mast cells accelerate tumor growth by established plasmacytoma cell lines and that neutralization of Ang-1 alone or with VEGF-A reduces significantly the growth of plasmacytomas containing mast cells. These results demonstrate that mast cell–derived Ang-1 promotes the growth of plasmacytomas by stimulating neovascularization and provide further evidence supporting a causal relationship between inflammation and tumor growth.

Authors

Takayuki Nakayama, Lei Yao, Giovanna Tosato

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Figure 2

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Effects of mast cells and plasmacytoma cells on angiogenesis in vivo. BA...
Effects of mast cells and plasmacytoma cells on angiogenesis in vivo. BALB/c nu/nu mice (3–5 mice per group) were inoculated s.c. with Matrigel (0.5 ml) in conjunction with BMMCs (0.5 × 106), TEPC2027 plasmacytoma cells (0.5 × 106), or BMMCs plus TEPC2027 cells (0.5 × 106 each). Matrigel plugs, removed after 7 days, were processed for histology. (A) Top row: Representative histological images of Matrigel plugs stained with Masson’s trichrome. Bottom row: Representative histological images of Matrigel plugs immunostained for κ light chain. Original magnification, ×20. (B) Quantitative analysis of neovascularization (top) and plasmacytoma cell infiltration (bottom) in all Matrigel plugs (3–5 plugs per group; 1 plug per animal). Neovascularization was measured as the areas occupied by vascular structures and is expressed as the mean surface area (± SD of measurements from individual plugs in each group) occupied by vascular structures in each group. Plasmacytoma cell infiltration was measured by counting plasmacytoma cells present in each plug section and is expressed as the mean cell number (± SD of measurements in individual plugs from each group). (C) Consecutive sections containing BMMCs plus TEPC2027 cells were double-stained with toluidine blue and Tie-2/Fc or control Fc. Mast cells, purple due to toluidine blue and brown due to Tie-2/Fc (but not control Fc), localize in the proximity of a vessel. Original magnification, ×40.