American Society of Hematology

Figure 1.

$Figure 1. P210BCR-ABL leads to increased integrin-mediated adhesion to fibronectin. (A) Each set of points makes up an individual spin and is the number of cells (adherent fraction) at a particular location on the coverslip that experiences a known shear stress relative to the count at the center where the shear stress is zero. Expression of MigP210BCR-ABL (▦) allowed a higher fraction of cells to remain attached compared to vector control MigRI cells (•), indicating that MigP210BCR-ABL–expressing cells bound more tightly to fibronectin. Coverslips coated with BSA alone did not support significant cell binding to either MigRI (▾) or MigP210BCR-ABL (data not shown) cells. Binding of MigRI or MigP210BCR-ABL cells to BSA-coated surfaces was comparable, and at times so few cells remained attached after a spin that a detachment profile could not be generated. Curves fitted to the experimental points for MigRI-expressing cells on BSA-only–coated coverslips (▿), MigRI cells on fibronectin-coated coverslips (○), and MigP210BCR-ABL on fibronectin-coated coverslips (□). The dashed line represents an adherent fraction of 0.5. The critical shear stress (τ50) is defined as the point on the abscissa (shear stress) that corresponds to an adherent fraction of 0.5 along the fitted curve. (B) τ50 was determined for spins with 2 populations each of cells expressing MigRI (•) or MigP210BCR-ABL (○), indicating that an average of 1.5 to 1.6 times as much force is needed to detach 50% of MigP210BCR-ABL–expressing cells from fibronectin in our system. Each circle represents τ50 for a particular spin, and rectangles denote standard deviations above and below the mean. Significance is shown and is determined by comparing the MigRI population (#1 or #2) with the corresponding MigP210BCR-ABL population (#1 or #2). (C) MigRI cells were treated with a GRGDSP (RGD) peptide (P = .001), 0.02% sodium azide (NaAZ) (P =.001), or 1 mM EDTA (EDTA) (P = .001) and were assayed for the ability to bind fibronectin compared with untreated MigRI cells. MigRI cells were incubated on coverslips coated with BSA only as a negative control (P = .001). The percentage change in critical shear stress is relative to untreated MigRI cells.$

P210^BCR-ABL leads to increased integrin-mediated adhesion to fibronectin. (A) Each set of points makes up an individual spin and is the number of cells (adherent fraction) at a particular location on the coverslip that experiences a known shear stress relative to the count at the center where the shear stress is zero. Expression of MigP210^BCR-ABL (▦) allowed a higher fraction of cells to remain attached compared to vector control MigRI cells (•), indicating that MigP210^BCR-ABL–expressing cells bound more tightly to fibronectin. Coverslips coated with BSA alone did not support significant cell binding to either MigRI (▾) or MigP210^BCR-ABL (data not shown) cells. Binding of MigRI or MigP210^BCR-ABL cells to BSA-coated surfaces was comparable, and at times so few cells remained attached after a spin that a detachment profile could not be generated. Curves fitted to the experimental points for MigRI-expressing cells on BSA-only–coated coverslips (▿), MigRI cells on fibronectin-coated coverslips (○), and MigP210^BCR-ABL on fibronectin-coated coverslips (□). The dashed line represents an adherent fraction of 0.5. The critical shear stress (τ₅₀) is defined as the point on the abscissa (shear stress) that corresponds to an adherent fraction of 0.5 along the fitted curve. (B) τ₅₀ was determined for spins with 2 populations each of cells expressing MigRI (•) or MigP210^BCR-ABL (○), indicating that an average of 1.5 to 1.6 times as much force is needed to detach 50% of MigP210^BCR-ABL–expressing cells from fibronectin in our system. Each circle represents τ₅₀ for a particular spin, and rectangles denote standard deviations above and below the mean. Significance is shown and is determined by comparing the MigRI population (#1 or #2) with the corresponding MigP210^BCR-ABL population (#1 or #2). (C) MigRI cells were treated with a GRGDSP (RGD) peptide (P = .001), 0.02% sodium azide (NaAZ) (P =.001), or 1 mM EDTA (EDTA) (P = .001) and were assayed for the ability to bind fibronectin compared with untreated MigRI cells. MigRI cells were incubated on coverslips coated with BSA only as a negative control (P = .001). The percentage change in critical shear stress is relative to untreated MigRI cells.

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