We studied the effects on platelet function of different human tumour cells cultured "in vitro": Mo T lymphocyte cell line, NCI-N592 small cell lung carcinoma cell line, and 5637 bladder carcinoma cell line. Mo and NCI-N592 cells possessed a slight, dose-dependent platelet aggregating activity, which was completely abolished by apyrase and unaffected by hirudin. The cell-free supernatant also induced an aggregation response, which was very similar to that obtained with tumour cell suspensions. The presence of ADP in the cell-free supernatants of cell suspensions was confirmed by HPLC analysis. On the contrary, aggregation induced by 5637 cells was preceded by a significant lag phase; it was not affected by apyrase but it was abolished by hirudin, and the cell-free supernatant had no effect. These data suggest that Mo and NCI-N592 cells activate platelets by producing ADP, while 5637 cells stimulate platelet function by generating thrombin. The amount of ADP produced by the first two tumour cell lines was measured by bioassay: the extent of such production was similar for both cell lines and the maximum was reached after 60 minutes and maintained for up to 3 hours. These results suggest that neoplastic cells can activate platelets by different mechanisms: such investigations should be performed in homologous systems and in well-defined experimental conditions.
Human tumor cells cultured "in vitro" activate platelet function by producing ADP or thrombin.
MELONI, FEDERICA;
1989-01-01
Abstract
We studied the effects on platelet function of different human tumour cells cultured "in vitro": Mo T lymphocyte cell line, NCI-N592 small cell lung carcinoma cell line, and 5637 bladder carcinoma cell line. Mo and NCI-N592 cells possessed a slight, dose-dependent platelet aggregating activity, which was completely abolished by apyrase and unaffected by hirudin. The cell-free supernatant also induced an aggregation response, which was very similar to that obtained with tumour cell suspensions. The presence of ADP in the cell-free supernatants of cell suspensions was confirmed by HPLC analysis. On the contrary, aggregation induced by 5637 cells was preceded by a significant lag phase; it was not affected by apyrase but it was abolished by hirudin, and the cell-free supernatant had no effect. These data suggest that Mo and NCI-N592 cells activate platelets by producing ADP, while 5637 cells stimulate platelet function by generating thrombin. The amount of ADP produced by the first two tumour cell lines was measured by bioassay: the extent of such production was similar for both cell lines and the maximum was reached after 60 minutes and maintained for up to 3 hours. These results suggest that neoplastic cells can activate platelets by different mechanisms: such investigations should be performed in homologous systems and in well-defined experimental conditions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.