Lorna B Woolford scite author profile

To attain therapeutic levels of gene-modified hematopoietic stem cells, it may be necessary in the majority of disorders to provide an in vivo selective advantage that facilitates the expansion of their numbers. A popular strategy to achieve in vivo selection has been to employ drug selection while coexpressing a transgene that conveys chemoresistance, such as O6-methylguanine-DNA-methyltransferase (MGMT). An alternate approach is to confer an enhanced proliferative potential upon gene-modified hematopoietic stem cells through the delivery of the homeobox transcription factor HOXB4. By developing a novel tricistronic retroviral vector, we have facilitated the simultaneous coexpression of a mutant version of MGMT and HOXB4 in retrovirally transduced bone marrow. Using an in vivo competitive repopulation assay, we demonstrate that primary bone marrow cells containing this construct show enhanced reconstitution following transplant and improved selection subsequent to chemotherapeutic challenge in comparison to cells expressing either HOXB4 or MGMT alone. This selection advantage was evident even when HOXB4/MGMT-coexpressing cells were infused along with a large excess of unmodified cells. We propose that this selection cassette may facilitate the in vivo expansion of gene-modified hematopoietic stem cells at a level in excess of previous strategies.

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The relative spatial distribution of in vitro‐CFCs in the bone marrow, responding to specific growth factors

Cui

Lord

Woolford

et al. 1996

Cell Proliferation

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Haemopoietic progenitor cells are stimulated by a range of growth factors which promote colony growth in culture. The progenitors are a part of an age-structured developmental hierarchy in the tissue. The growth factors, although overlapping in their effects, stimulate cells preferentially at different stages in this programme. Femoral bone marrow was fractionated into axial (close to the central venous sinus) and marginal (close to the bone surface) cells. Progenitors which responded to IL-3, GM-CSF, G-CSF, M-CSF and SCF were then assayed in soft agar cultures. Consequent plots of their spatial distributions showed that the more primitive cells in vitro (responding to IL-3) were concentrated close to the bone surface. The peak concentrations of cells responding primarily to growth factors with progressively more affinity to more mature progenitor cells correspondingly appeared progressively further from the bone surface and closer to the point of release at the central venous sinus. This suggests that the developmental/maturational process in haemopoiesis is accompanied by a progressive movement of cells from the bone surface towards the central axial regions of the bone cavities. The most primitive cells are however exposed, close to the centre of the cavity, by a combination of SCF and G-CSF (or by a 50-fold increase in G-CSF concentration alone). These results corroborate earlier data which indicate a developmental movement of cells from the centre of the marrow tissue towards the bone surface and back again, sequentially encountering a series of growth factors which promote their differentiation into mature cells, for release at the central venous sinus.

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Lorna B Woolford

Stimulation and inhibition of proliferation in the small intestinal crypts of the mouse after in vivo administration of growth factors.

Tumour induction by methyl-nitroso-urea following preconceptional paternal contamination with plutonium-239

Enhanced in vivo selection of bone marrow cells by retroviral-mediated coexpression of mutant O6-methylguanine-DNA-methyltransferase and HOXB4

The relative spatial distribution of in vitro‐CFCs in the bone marrow, responding to specific growth factors

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