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Title: In vivo effects of interleukin-11 and stem cell factor in combination with erythropoietin in the regulation of erythropoiesis. Author: de Haan G, Dontje B, Engel C, Loeffler M, Nijhof W. Journal: Br J Haematol; 1995 Aug; 90(4):783-90. PubMed ID: 7545423. Abstract: In this study we evaluated the in vivo effects of interleukin-11 (IL-11) and stem cell factor (SCF), in combination with erythropoietin (EPO) on murine erythropoiesis. Mice were treated for 7 d with IL-11. SCF and EPO, each at three dose levels. In total, 27 different dose combinations were tested. IL-11 as well as SCF could only marginally stimulate erythroid progenitor cell numbers, but IL-11 in combination with SCF was able to increase BFU-E and CFU-E numbers 4-fold, in the absence of exogenous EPO. This resulted in an increased reticulocyte count. In contrast with the stimulatory effect on immature erythroid cell stages, IL-11 treatment induced a mild anaemia, which probably resulted from a plasma volume expansion. The additional treatment with EPO resulted in strong synergistic effects on CFU-E numbers. The combination of high-dose IL-11 and high-dose SCF was able to increase the overall efficiency of EPO-induced erythroid amplification, which was reflected by a left-shift of the in vivo EPO dose-response curve. The stimulating effects of IL-11 and SCF were further demonstrated when the effects on the reticulocyte count of a single high-dose EPO injection were assessed in normal and SCF+IL-11 treated mice. Whereas a single EPO dose increased the reticulocyte count by a factor of 3, IL-11 + SCF pretreatment increased this to a factor of 7. This study shows that in vivo SCF and IL-11 are important modulators of red blood cell production. First, these factors probably increase the input from the stem cell compartment into the erythroid lineage, where subsequently EPO is required for further amplification. Additionally, however, IL-11 and SCF increase the overall efficiency of EPO-induced amplification, probably due to a stimulatory effect on late-stage erythroid cells and to a redistribution of cells from marrow to spleen.[Abstract] [Full Text] [Related] [New Search]