John Fuller scite author profile

Constitutive HOXA5 Expression Inhibits Erythropoiesis and Increases Myelopoiesis From Human Hematopoietic Progenitors

Fuller

¹

,

Petersen

²

,

Izadi

³

et al. 1999

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The role of the homeobox gene HOXA5 in normal human hematopoiesis was studied by constitutively expressing theHOXA5 cDNA in CD34+ and CD34+CD38− cells from bone marrow and cord blood. By using retroviral vectors that contained both HOXA5and a cell surface marker gene, pure populations of progenitors that expressed the transgene were obtained for analysis of differentiation patterns. Based on both immunophenotypic and morphological analysis of cultures from transduced CD34+ cells, HOXA5expression caused a significant shift toward myeloid differentiation and away from erythroid differentiation in comparison to CD34+ cells transduced with Control vectors (P= .001, n = 15 for immunophenotypic analysis; and P < .0001, n = 19 for morphological analysis). Transduction of more primitive progenitors (CD34+CD38− cells) resulted in a significantly greater effect on differentiation than did transduction of the largely committed CD34+ population (P = .006 for difference between HOXA5 effect on CD34+v CD34+CD38−cells). Erythroid progenitors (burst-forming unit-erythroid [BFU-E]) were significantly decreased in frequency among progenitors transduced with the HOXA5 vector (P = .016, n = 7), with no reduction in total CFU numbers. Clonal analysis of single cells transduced with HOXA5 or control vectors (cultured in erythroid culture conditions) showed that HOXA5expression prevented erythroid differentiation and produced clones with a preponderance of undifferentiated blasts. These studies show that constitutive expression of HOXA5 inhibits human erythropoiesis and promotes myelopoiesis. The reciprocal inhibition of erythropoiesis and promotion of myelopoiesis in the absence of any demonstrable effect on proliferation suggests that HOXA5 diverts differentiation at a mulitpotent progenitor stage away from the erythroid toward the myeloid pathway.

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Characterization of HOX Gene Expression During Myelopoiesis: Role of HOX A5 in Lineage Commitment and Maturation

Fuller

¹

,

McAdara

²

,

Yaron

³

et al. 1999

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During the process of normal hematopoiesis, proliferation is tightly linked to maturation. The molecular mechanisms that lead to production of mature effector cells with a variety of phenotypes and functions from a single multipotent progenitor are only beginning to be elucidated. It is important to determine how these maturation events are regulated at the molecular level, because this will provide significant insights into the process of normal hematopoiesis as well as leukemogenesis. Transcription factors containing the highly conserved homeobox motif show considerable promise as potential regulators of hematopoietic maturation events. In this study, we focused on identification and characterization of homeobox genes of the HOX family that are important in regulating normal human myeloid differentiation induced by the hematopoietic growth factor, granulocyte-macrophage colony-stimulating factor (GM-CSF). We have identified three homeobox genes, HOX A5, HOX B6, and HOX B7, which are expressed during early myelopoiesis. Treating bone marrow cells with antisense oligodeoxynucleotides to HOX A5 resulted in inhibition of granulocytic/monocytic hematopoiesis and increased the generation of erythroid progenitors. Also, overexpression of HOX A5 inhibited erythroid differentiation of the K562 cell line. Based on these observations, we propose that HOX A5 functions as an important regulator of hematopoietic lineage determination and maturation.

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Structure, function, and biology of SHIP proteins

Rohrschneider¹,

Fuller²,

Wolf³

et al. 2000

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Constitutive HOXA5 Expression Inhibits Erythropoiesis and Increases Myelopoiesis From Human Hematopoietic Progenitors

Crooks

¹

,

Fuller

²

,

Petersen

³

et al. 1999

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The role of the homeobox gene HOXA5 in normal human hematopoiesis was studied by constitutively expressing theHOXA5 cDNA in CD34+ and CD34+CD38− cells from bone marrow and cord blood. By using retroviral vectors that contained both HOXA5and a cell surface marker gene, pure populations of progenitors that expressed the transgene were obtained for analysis of differentiation patterns. Based on both immunophenotypic and morphological analysis of cultures from transduced CD34+ cells, HOXA5expression caused a significant shift toward myeloid differentiation and away from erythroid differentiation in comparison to CD34+ cells transduced with Control vectors (P= .001, n = 15 for immunophenotypic analysis; and P < .0001, n = 19 for morphological analysis). Transduction of more primitive progenitors (CD34+CD38− cells) resulted in a significantly greater effect on differentiation than did transduction of the largely committed CD34+ population (P = .006 for difference between HOXA5 effect on CD34+v CD34+CD38−cells). Erythroid progenitors (burst-forming unit-erythroid [BFU-E]) were significantly decreased in frequency among progenitors transduced with the HOXA5 vector (P = .016, n = 7), with no reduction in total CFU numbers. Clonal analysis of single cells transduced with HOXA5 or control vectors (cultured in erythroid culture conditions) showed that HOXA5expression prevented erythroid differentiation and produced clones with a preponderance of undifferentiated blasts. These studies show that constitutive expression of HOXA5 inhibits human erythropoiesis and promotes myelopoiesis. The reciprocal inhibition of erythropoiesis and promotion of myelopoiesis in the absence of any demonstrable effect on proliferation suggests that HOXA5 diverts differentiation at a mulitpotent progenitor stage away from the erythroid toward the myeloid pathway.

show abstract

John Fuller

Constitutive HOXA5 Expression Inhibits Erythropoiesis and Increases Myelopoiesis From Human Hematopoietic Progenitors

Characterization of HOX Gene Expression During Myelopoiesis: Role of HOX A5 in Lineage Commitment and Maturation

Structure, function, and biology of SHIP proteins

Constitutive HOXA5 Expression Inhibits Erythropoiesis and Increases Myelopoiesis From Human Hematopoietic Progenitors

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