Soluble fibrin augments platelet/tumor cell adherence in vitro and in vivo, and enhances experimental metastasis.

There is considerable evidence for a relationship between hemostasis and malignancy. Since platelet adhesion to tumor cells has been implicated in the metastatic process and plasma levels of fibrinogen (Fg) and soluble fibrin (sFn) monomer are increased in cancer, we hypothesized that these molecules might enhance tumor-platelet interaction. We therefore studied binding of sFn monomer to tumor cells in a static microplate adhesion assay and determined the effect of pre-treating tumor cells with sFn on tumor cell-induced thrombocytopenia and experimental metastasis. Soluble fibrin (produced by adding thrombin to FXIII- and plasminogen-free Fg in the presence of Gly-Pro-Arg-Pro-amide (GPRP-NH2) significantly increased platelet adherence to tumor cells. This effect was primarily mediated by the integrins alphaIIb beta3 on the platelet and CD 54 (ICAM-1) on the tumor cells. Platelets adhered to untreated A375 cells (28 +/- 8 platelets/tumor cell) and this was not significantly affected by pre-treatment of the tumor cells with fibrinogen or GPRP-NH2. Although thrombin treatment increased adherence, pre-incubation of the tumor cells with sFn resulted in a further increase in platelet binding to tumor cells. In contrast to untreated tumor cells, intravenous injection of sFn-treated A 375 cells reduced the platelet count in anticoagulated mice, supporting the in vitro finding that sFn enhanced tumor cell-platelet adherence. In a more aggressive model of experimental metastasis, treating tumor cells with sFn enhanced lung seeding by 65% compared to untreated cells. Extrapolation of our data to the clinical situation suggests that coagulation activation, and subsequent increase in circulating Fn monomer, may enhance platelet adhesion to circulating tumor cells and thereby facilitate metastatic spread.

Blockade of GpIIb/IIIa inhibits the release of vascular endothelial growth factor (VEGF) from tumor cell-activated platelets and experimental metastasis.

Evidence that platelets play a role in tumor metastasis includes the observation of circulating tumor cell-platelet aggregates and the anti-metastatic effect of thrombocytopenia and anti-platelet drugs. Platelets have recently been shown to contain vascular endothelial growth factor (VEGF) which is released during clotting. We therefore studied the effects of (1) tumor cell-platelet adherence and tumor cell TF activity on platelet VEGF release; and (2) the effects of GpIIb/IIIa blockade on tumor cell-induced platelet VEGF release, tumor cell-induced thrombocytopenia and experimental metastasis. Adherent A375 human melanoma cells (TF+) and KG1 myeloid leukemia (TF-) cells were cultured in RPMI containing 10% fetal bovine serum. Platelet-rich plasma was obtained from normal citrated whole blood and the presence of VEGF (34 and 44 kDa isoforms) confirmed by immunoblotting. Platelet-rich plasma with or without anti-GpIIb/IIIa (Abciximab) was added to A375 monolayers and supernatant VEGF measured by ELISA. Tumor cell-induced platelet activation and release were determined by CD62P expression and serotonin release respectively. In vitro, tumor cell-platelet adherence was evaluated by flow cytometry. In vivo, thrombocytopenia and lung seeding were assessed 30 min and 18 days, respectively, after i.v. injection of Lewis Lung carcinoma (LL2) cells into control or murine 7E3 F(ab')(2) (6 mg/ kg) athymic rats. Maximal in vitro platelet activation (72% serotonin release) occurred 30 min after adding platelets to tumor cells. At this time, 87% of the A375 cells had adhered to platelets. Abciximab significantly (P<0.05) reduced platelet adherence to tumor cells as evidenced by flow cytometry. Incubation of A375 cells with platelets induced VEGF release in a time-dependent manner. This release was significantly inhibited by Abciximab (81% at 30 min; P<0.05). In the presence of fibrinogen and FII, VEGF release induced by A375 (TF+) cells was significantly higher than that induced by KG1 (TF-) cells (105.5+/-24 vs. 42+/-7 pg/ml; P<0.001). Omitting fibrinogen or FII from the reaction mixture markedly decreased VEGF release. In vivo, GpIIb/IIIa blockade with murine 7E3 F(ab')(2) reduced LL2 tumor cell-induced thrombocytopenia by 90% (P<0.001) and lung seeding by 82% (P<0.05). We conclude that TF-bearing tumor cells can activate platelets largely via thrombin generation, and that such activation is associated with release of VEGF. This may enhance metastasis, possibly by increasing extravasation at points of adhesion to vascular endothelium.

Fibrin monomer increases platelet adherence to tumor cells in a flowing system: a possible role in metastasis?

Considerable evidence exists linking hemostasis and malignancy. Platelet adhesion to tumor cells has been implicated in the metastatic process. Plasma fibrinogen (Fg) and fibrin (Fn) monomer, increased in cancer, may play a role in tumor biology. Binding of Fn monomer to tumor cells and its effect on platelet-tumor cell adhesion in a flowing system were studied. Fn monomer was produced by adding thrombin (1 micro/mL) to FXIII- and plasminogen-free Fg in the presence of Gly-Pro-Arg-Pro (GPRP) amide. Fn monomer binding to live A375 cells was visualized by confocal laser scanning microscopy (CLSM). Adherent cells were perfused for 1h with Fn monomer, washed and stained in situ with anti-human Fn (American Biogenetic Sciences, Inc.) followed by goat anti-mouse IgG(FITC). Platelet adherence to Fn monomer treated A375 cells was performed under flow conditions by passing platelets (5x10(4)/microl 0.25 mL/min; labeled with the carbocyanine dye DiI) over the tumor cells for 30 min. CLSM images were obtained after washing. There was considerable binding of Fn monomer, but not Fg alone. Platelets adhered relatively weakly to untreated A375 cells and this was not significantly affected by pre-treatment of the tumor cells with fibrinogen or thrombin. However, pre-treatment with Fn monomer resulted in extensive platelet binding to tumor cells, suggesting that coagulation activation and the subsequent increase in circulating Fn monomer may enhance platelet adhesion to circulating tumor cells and thereby facilitate metastatic spread.