C Dowding scite author profile

Normal haematopoietic cell regulation involves interaction between marrow stromal cells and haematopoietic progenitor cells which may be facilitated by specific recognition and adhesion. Some leukaemogenic events might produce a selective growth advantage by altering this regulatory network, possibly by diminishing the capacities of cells to adhere to stromal elements. Using an in vitro culture system which allows investigation of adhesion to stromal layers and subsequent colony formation by blast colony-forming cells (B1-CFC) in normal marrow and Ph+ chronic myeloid leukaemic (CML) blood, we compared the adhesive properties of normal and malignant progenitor cells. We present evidence that altered adhesive interactions between primitive progenitor cells and marrow stromal cells occur in CML.

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Potential Mechanisms of Action of Interferon-αin CML

Dowding

Gordon

Guo

et al. 1993

Leukemia & Lymphoma

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Treatment with interferon-alpha (IFN-alpha) adequately controls the leukemic cell mass in the majority of newly diagnosed patients with chronic myeloid leukemia (CML). However, the degree of response ranges from no 'hematologic' response to complete suppression of the leukemic clone. The mechanism(s) by which IFN-alpha elicits these responses is unknown, but in vitro studies have indicated that IFN-alpha might function by (1) selective toxicity against the leukemic clone, (2) enhancement of 'immune' regulation, and (3) modulation of bone marrow microenvironmental regulation of hematopoiesis. Using in vitro clonogenic assays we were unable to demonstrate that IFN-alpha selectively inhibited the proliferation of CML progenitor cells. We also found no difference in the expression of LFA-3 on normal or CML CD34+ cells. However, by panning and co-culturing hematopoietic cells on monolayers of bone marrow stromal cells, grown with and without IFN-alpha, we found that IFN-alpha enhanced the adhesion of CML progenitors to stromal cells, whereas adhesion by normal progenitor cells was essentially unaffected. This enhanced adhesion by CML progenitor cells was associated with a reduction in neuraminic acid levels in the extracellular matrix overlying stromal cells. Therefore, it is possible that one of the mechanisms by which IFN-alpha exerts its regulatory effect on the leukemic clone is through enhancement of hematopoietic cell-microenvironmental cell interactions.

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Interferon-alpha overrides the deficient adhesion of chronic myeloid leukemia primitive progenitor cells to bone marrow stromal cells

Dowding

Guo

Osterholz

et al. 1991

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Primitive blast colony-forming cells (BI-CFC) from chronic myeloid leukemia (CML) patients are defective in their attachment to bone marrow-derived stromal cells compared with normal BI-CFC. We investigated the effect of recombinant interferon-alpha 2a (IFN-alpha) on this interaction between hematopoietic progenitor cells and bone marrow-derived stromal cells by culturing normal stromal cells with IFN- alpha (50 to 5,000 U/mL). At 50 U/mL we found that: (1) the capacity of stromal cells to bind two types of CML primitive progenitor cells (BI- CFC and long-term culture-initiating cells) was increased; and (2) the amount of sulfated glycosaminoglycans (GAGs) in the stromal layer was increased. However, sulfated GAGs were not directly involved in binding CML BI-CFC, unlike binding by normal BI-CFC, which is sulfated GAG- dependent. Neuraminidase-treated control stromal cells bound an increased number of CML BI-CFC, reproducing the effect of IFN-alpha, whereas the binding to IFN-alpha-treated stromal cells was unaffected by neuraminidase treatment. Thus, the enhanced attachment by primitive CML progenitor cells to INF-alpha-treated stromal cells might be due to changes in the neuraminic acid composition in the stromal cell layer. Our in vitro evidence may provide insights into the mechanism of action of IFN-alpha in vivo. Prolonged administration may alter the marrow microenvironment in some patients such that it can restrain the aberrant proliferation of Philadelphia chromosome (Ph)-positive stem cells while permitting Ph-negative stem cells to function normally.

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Chemotherapy and autografting for chronic granulocytic leukaemia in transformation: probable prolongation of survival for some patients

et al. 1984

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Between June 1977 and July 1983 51 patients with Ph1-positive chronic granulocytic leukaemia (CGL) in transformation were treated either by chemotherapy or by chemoradiotherapy followed by autografting with haemopoietic stem cells collected from their peripheral blood at the time of diagnosis. Forty-eight patients were restored to a second chronic phase. The median duration of survival after autografting was 26 weeks (range 2-152 weeks). Twenty-one patients with relatively long durations of second chronic phase were treated again by autografting as consolidation or when transformation recurred; this selected group of patients survived longer than the 30 patients treated by autografting only once (medians 52 v. 13 weeks respectively, P less than 0.01). There was no significant influence of the patients' age, splenectomy status, type of transformation, treatment pre-autograft or number of nucleated cells autografted on the duration of survival. Three patients treated in myeloid blastic transformation were restored to partially Ph1-negative haemopoiesis. We conclude that this approach to the management of CGL in transformation can offer benefit for a minority of patients and that further chemotherapy and autografting for patients still in second chronic phase may be valuable.

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C Dowding

Altered adhesive interactions with marrow stroma of haematopoietic progenitor cells in chronic myeloid leukaemia

Potential Mechanisms of Action of Interferon-αin CML

Interferon-alpha overrides the deficient adhesion of chronic myeloid leukemia primitive progenitor cells to bone marrow stromal cells

Chemotherapy and autografting for chronic granulocytic leukaemia in transformation: probable prolongation of survival for some patients

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