OBJECTIVE: Chronic myelomonocytic leukemia (CMML) is a heterogeneous disease with no effective treatments or cure. Several factors have been implicated in its pathogenesis. In the current study, we studied the dependence of CMML on granulocyte-macrophage colony-stimulating factor (GM-CSF). MATERIALS AND METHODS: We used in vitro colony assays in methylcellulose where CMML cells were tested in the presence or absence of the specific GM-CSF antagonist E21R. We also developed an in vivo model in which CMML cells were tested for their ability to engraft into immunodeficient mice transgenic for human GM-CSF. RESULTS: Bone marrow cells from seven of seven patients with CMML formed spontaneous colonies that were sensitive to E21R treatment, with reduction in colony growth by up to 92%. E21R also inhibited colony formation by CMML patient cells stimulated by exogenously added GM-CSF but not interleukin-3. In in vivo experiments we observed engraftment of CMML cells (but not normal cells) in immunodeficient mice transgenic for human GM-CSF. None engrafted in nontransgenic mice. Cell dose escalation showed that the optimal number was 0.5 to 1 x 10(8) peripheral blood mononuclear cells per mouse, which is equivalent to an infusion of 0.2 to 3.6 x 10(6) CD34(+) cells. Time course experiments showed that maximal engraftment occurred 6 weeks after injection. CONCLUSIONS: These results demonstrate that in some CMML patients, GM-CSF produced by either autocrine or paracrine mechanisms is a major growth determinant. The results suggest that therapies directed at blocking this cytokine could control the growth of some CMML patients in vivo.
OBJECTIVE:Chronic myelomonocytic leukemia (CMML) is a heterogeneous disease with no effective treatments or cure. Several factors have been implicated in its pathogenesis. In the current study, we studied the dependence of CMML on granulocyte-macrophage colony-stimulating factor (GM-CSF). MATERIALS AND METHODS: We used in vitro colony assays in methylcellulose where CMML cells were tested in the presence or absence of the specific GM-CSF antagonist E21R. We also developed an in vivo model in which CMML cells were tested for their ability to engraft into immunodeficientmice transgenic for humanGM-CSF. RESULTS: Bone marrow cells from seven of seven patients with CMML formed spontaneous colonies that were sensitive to E21R treatment, with reduction in colony growth by up to 92%. E21R also inhibited colony formation by CMMLpatient cells stimulated by exogenously added GM-CSF but not interleukin-3. In in vivo experiments we observed engraftment of CMML cells (but not normal cells) in immunodeficientmice transgenic for humanGM-CSF. None engrafted in nontransgenic mice. Cell dose escalation showed that the optimal number was 0.5 to 1 x 10(8) peripheral blood mononuclear cells per mouse, which is equivalent to an infusion of 0.2 to 3.6 x 10(6) CD34(+) cells. Time course experiments showed that maximal engraftment occurred 6 weeks after injection. CONCLUSIONS: These results demonstrate that in some CMMLpatients, GM-CSF produced by either autocrine or paracrine mechanisms is a major growth determinant. The results suggest that therapies directed at blocking this cytokine could control the growth of some CMMLpatients in vivo.
Authors: Timothy R Hercus; Winnie L T Kan; Sophie E Broughton; Denis Tvorogov; Hayley S Ramshaw; Jarrod J Sandow; Tracy L Nero; Urmi Dhagat; Emma J Thompson; Karen S Cheung Tung Shing; Duncan R McKenzie; Nicholas J Wilson; Catherine M Owczarek; Gino Vairo; Andrew D Nash; Vinay Tergaonkar; Timothy Hughes; Paul G Ekert; Michael S Samuel; Claudine S Bonder; Michele A Grimbaldeston; Michael W Parker; Angel F Lopez Journal: Cold Spring Harb Perspect Biol Date: 2018-06-01 Impact factor: 10.005
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