Justin D Spengeman scite author profile

Infant acute lymphoblastic leukemia (ALL) is frequently characterized by the t(4;11)(q21;q23) cytogenetic abnormality encoding the MLL/AF4 oncogene, increased HOX gene expression and a pro-B/monocytoid phenotype. We have previously established a novel MLL/AF4-positive cell line, B-lineage 3 (BLIN-3), which retains several features of normal B-lineage development (functional Ig gene rearrangement and apoptotic sensitivity to stromal cell withdrawal) not generally observed in infant ALL. We now use microarray analysis to identify patterns of gene expression in BLIN-3 that may modulate MLL/AF4 oncogenesis and contribute to the retention of normal Blineage developmental characteristics. Comparison of 6815 expressed genes in BLIN-3 with published microarray data on leukemic blasts from t(4;11) patients indicated that BLIN-3 was unique in lacking the expression of certain HOX-A cluster genes. These results were validated by RT-PCR showing no expression of HOX A7 or HOX A9 in BLIN-3. A HOX C8 promoter reporter was active in BLIN-3, indicating that lack of HOX gene expression in BLIN-3 was not due to a nonfunctional MLL/AF4. Our results suggest that B-lineage development can proceed in t(4;11) leukemic blasts in the absence of HOX-A gene expression.

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Activated EGFR Promotes the Survival of B-Lineage Acute Leukemia in the Absence of Stromal Cells

Spengeman¹,

Green²,

McCubrey³

et al. 2005

Cell Cycle

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B-lineage acute leukemia (B-ALL) cells often require stromal cell support for optimal proliferation and apoptotic resistance. In addition, stromal cell contact can promote resistance to chemotherapeutic agents. However, the precise biochemical pathways within the leukemic cell that are activated by the bone marrow microenvironment which result promotion of cell proliferation and apoptotic protection are not fully characterized. We have recently reported that simultaneous inhibition of the MEK and PI3K pathways or the MEK and mTOR pathways promote rapid apoptosis of the stromal cell dependent B-lineage ALL cell line BLIN-2 in the presence of stromal cell support. These data indicated that stromal cell induced apoptotic protection is mediated by PI3K/mTOR and MEK in a mechanism(s) that suggests cross-talk or points of convergence. The EGF receptor (EGFR) has been reported to activate both MEK and PI3K. We report herein that use of the EGFR inhibitor, AG1478, inhibits BLIN-2 survival in the presence of stromal cells. FACS analysis revealed that EGFR is expressed on the surface of BLIN-2 cells. The addition of EGF to BLIN-2 cultures in the absence of stromal cells prolongs BLIN-2 survival. Similarly, introduction of a constitutively active form of EGFR, v-ErbB, into BLIN-2 prolongs the survival of BLIN-2 cells in the absence of stromal cell support. These data provide evidence that stimulation of the EGFR pathway is one mechanism by which the bone marrow microenvironment may contribute to the growth and survival of B-cell acute leukemia.

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Justin D Spengeman

Increased Protein Expression of the PTEN Tumor Suppressor in the Presence of Constitutively Active Notch-1

B-cell development in the presence of the MLL/AF4 oncoprotein proceeds in the absence of HOX A7 and HOX A9 expression

Activated EGFR Promotes the Survival of B-Lineage Acute Leukemia in the Absence of Stromal Cells

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