Mechanical Strain Tightly Controls Fibroblast Growth Factor-2 Release From Cultured Human Vascular Smooth Muscle Cells
1997
Although fibroblast growth factor-2 (FGF-2) participates in the response to vascular injury, the role of cellular deformation in FGF-2 release is incompletely understood. To test the hypothesis that mechanical strain tightly controls FGF-2 release, a novel device was used to impose homogeneous and uniform biaxial strain to human vascular smooth muscle cells. Release of FGF-2 increased with the number of cycles of strain (14%, 1 Hz); 1, 9, and 90 cycles of strain, respectively, released 0.55±0.06%, 2.9±0.3%, and 5.5±1.3% of the total cellular FGF-2 (versus 0.00±0.40% for control, P<.05), but release was not further increased for strain of 90 to 90 000 cycles. Mechanical release of FGF-2 depended on both the frequency and amplitude of deformation. For example, strain (90 cycles, 1 Hz) at 4% amplitude released only 0.1±0.1% of the total FGF-2, but strain at 14% and 33% amplitudes, respectively, released 5.7±0.5% and 19.0±3.0% of the FGF-2 cellular pool (P<.05), suggesting a strain amplitude threshold for FGF...
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