Fig. 3.
Fig. 3. Concordant expression of TCR Vβ2 by the primary T-ALL sample and engrafted NOD/SCID bone marrow and spleen. / MNCs from primary T-ALL obtained from a patient (A) and from bone marrow and spleen cells (B and C, respectively) harvested from a NOD/SCID mouse preconditioned with cord blood MNCs (10 × 106) and implanted with T-ALL leukemia from the patient (3.3 × 106 cells) were analyzed by flow cytometry for surface expression of TCR Vβ2. In the panels presented, the expression of Vβ2 was determined simultaneously with the expression of the T-ALL marker CD7. The CD7 and Vβ2 mAbs were used as FITC and PE conjugates, respectively. Isotype-matched control mAbs (FITC- or PE-conjugated IgG1) were used to determine appropriate cursor settings for analysis. Percentages of human Vβ2+CD7+ double-positive cells were 80%, 91%, and 93%, respectively, for samples A, B, and C.

Concordant expression of TCR Vβ2 by the primary T-ALL sample and engrafted NOD/SCID bone marrow and spleen.

MNCs from primary T-ALL obtained from a patient (A) and from bone marrow and spleen cells (B and C, respectively) harvested from a NOD/SCID mouse preconditioned with cord blood MNCs (10 × 106) and implanted with T-ALL leukemia from the patient (3.3 × 106 cells) were analyzed by flow cytometry for surface expression of TCR Vβ2. In the panels presented, the expression of Vβ2 was determined simultaneously with the expression of the T-ALL marker CD7. The CD7 and Vβ2 mAbs were used as FITC and PE conjugates, respectively. Isotype-matched control mAbs (FITC- or PE-conjugated IgG1) were used to determine appropriate cursor settings for analysis. Percentages of human Vβ2+CD7+ double-positive cells were 80%, 91%, and 93%, respectively, for samples A, B, and C.

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