Figure 3
Figure 3. BCOR mRNA and protein expression in AML patients carrying BCOR disruptive mutations. (A) Box plots of BCOR mRNA levels quantified by real-time RT-PCR in 5 primary AML patients with BCOR disruptive mutations introducing premature stop codons (before the second last exon) compared with 14 BCOR-unmutated AML patients. All of the 5 BCOR-mutated AML patients display substantially decreased BCOR mRNA levels (P = .006 by Wilcoxon 2-sample test of ΔCt values). (B) Western blot analysis of BCOR protein expression in normal donor CD34+ hematopoietic cells (CD34+ I and CD34+ II, left panels) and in primary AML cells isolated from 15 patients with wild-type BCOR gene (right panels) showing a specific protein band of variable intensity corresponding to full-length BCOR (192 kDa predicted MW; arrow). (C) Western blot analysis of primary AML cells isolated from 5 patients harboring BCOR disruptive mutations (labeled in red: patient 326 with Thr733AlafsX5; patient 406II with Asn1485LysfsX5; patient 258A with Leu245ThrfsX19; patient 447A with Pro1115ThrfsX41; and patient 644A with His674MetfsX41). As a comparison, full-length BCOR expression in lysates from further 4 AML patients (patients 226, 157, 309, and 409) all devoid of BCOR mutations is shown. In the top panels, a specific protein band corresponding to full-length BCOR (192 kDa predicted MW) is observed (arrow) in wild-type BCOR AML, but not in BCOR-mutated AML. In patient 406II, a new faint band is detected (arrowhead) that likely corresponds to a truncated BCOR protein (162 kDa predicted MW). (B-C) The OCI/AML3 cell line not carrying BCOR mutations was used as a positive control for full-length BCOR protein expression. Protein lysate loading was evaluated by blotting the membranes with an anti-NPM1 or anti–β-tubulin Ab. Vertical lines have been inserted to indicate repositioned gel lanes.

BCOR mRNA and protein expression in AML patients carrying BCOR disruptive mutations. (A) Box plots of BCOR mRNA levels quantified by real-time RT-PCR in 5 primary AML patients with BCOR disruptive mutations introducing premature stop codons (before the second last exon) compared with 14 BCOR-unmutated AML patients. All of the 5 BCOR-mutated AML patients display substantially decreased BCOR mRNA levels (P = .006 by Wilcoxon 2-sample test of ΔCt values). (B) Western blot analysis of BCOR protein expression in normal donor CD34+ hematopoietic cells (CD34+ I and CD34+ II, left panels) and in primary AML cells isolated from 15 patients with wild-type BCOR gene (right panels) showing a specific protein band of variable intensity corresponding to full-length BCOR (192 kDa predicted MW; arrow). (C) Western blot analysis of primary AML cells isolated from 5 patients harboring BCOR disruptive mutations (labeled in red: patient 326 with Thr733AlafsX5; patient 406II with Asn1485LysfsX5; patient 258A with Leu245ThrfsX19; patient 447A with Pro1115ThrfsX41; and patient 644A with His674MetfsX41). As a comparison, full-length BCOR expression in lysates from further 4 AML patients (patients 226, 157, 309, and 409) all devoid of BCOR mutations is shown. In the top panels, a specific protein band corresponding to full-length BCOR (192 kDa predicted MW) is observed (arrow) in wild-type BCOR AML, but not in BCOR-mutated AML. In patient 406II, a new faint band is detected (arrowhead) that likely corresponds to a truncated BCOR protein (162 kDa predicted MW). (B-C) The OCI/AML3 cell line not carrying BCOR mutations was used as a positive control for full-length BCOR protein expression. Protein lysate loading was evaluated by blotting the membranes with an anti-NPM1 or anti–β-tubulin Ab. Vertical lines have been inserted to indicate repositioned gel lanes.

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