Previously it has been hypothesized that the granulopoietic and erythropoietic lineages may compete for differentiating stem cells. According to this hypothesis one would expect that a stimulation of granulopoiesis by G-CSF administration would lead to a reduction of the stem cell pool and be followed by a decline of erythropoietic progenitor numbers. In addition one would expect an enhanced response of granulopoiesis if G-CSF administration were combined with suppression of erythropoiesis by red cell transfusion. To evaluate whether this hypothesis holds true C57bl mice were injected subcutaneously for 6 d with 3.75 micrograms rh G-CSF/mouse/d (150 micrograms G-CSF/kg body weight/d). Marrow CFU-S numbers showed an increase to 160\% on day 2, followed by a decrease to 50\% of control on day 6. Splenic and peripheral blood CFU-S increased 20-fold and 10-fold, respectively. Marrow CFU-E declined to 40\% of the control value. Splenic CFU-E increased 10-fold. The increase in marrow CFU-GM numbers ranged between 140\% and 180\%. CFU-GM obtained from the spleen and the peripheral blood increased 60-fold and 15-fold, respectively. Regarding the CFU-S and CFU-GM a similar pattern of response was found in an experiment where rh G-CSF administration was combined with an additional red cell transfusion. These data do not provide convincing evidence for an exhaustion of haemopoietic stem cells during treatment with G-CSF. They rather suggest that an important side effect of G-CSF treatment is a release of CFU-S and progenitors from the marrow to the peripheral blood and a reseeding in the spleen.
%0 Journal Article
%1 Bungart.1990
%A Bungart, B.
%A Loeffler, Markus
%A Goris, H.
%A Dontje, B.
%A Diehl, Volker
%A Nijhof, W.
%D 1990
%J British journal of haematology
%K IMISE-Publikationen
%N 2
%P 174–179
%T Differential effects of recombinant human colony stimulating factor (rh G-CSF) on stem cells in marrow, spleen and peripheral blood in mice
%V 76
%X Previously it has been hypothesized that the granulopoietic and erythropoietic lineages may compete for differentiating stem cells. According to this hypothesis one would expect that a stimulation of granulopoiesis by G-CSF administration would lead to a reduction of the stem cell pool and be followed by a decline of erythropoietic progenitor numbers. In addition one would expect an enhanced response of granulopoiesis if G-CSF administration were combined with suppression of erythropoiesis by red cell transfusion. To evaluate whether this hypothesis holds true C57bl mice were injected subcutaneously for 6 d with 3.75 micrograms rh G-CSF/mouse/d (150 micrograms G-CSF/kg body weight/d). Marrow CFU-S numbers showed an increase to 160\% on day 2, followed by a decrease to 50\% of control on day 6. Splenic and peripheral blood CFU-S increased 20-fold and 10-fold, respectively. Marrow CFU-E declined to 40\% of the control value. Splenic CFU-E increased 10-fold. The increase in marrow CFU-GM numbers ranged between 140\% and 180\%. CFU-GM obtained from the spleen and the peripheral blood increased 60-fold and 15-fold, respectively. Regarding the CFU-S and CFU-GM a similar pattern of response was found in an experiment where rh G-CSF administration was combined with an additional red cell transfusion. These data do not provide convincing evidence for an exhaustion of haemopoietic stem cells during treatment with G-CSF. They rather suggest that an important side effect of G-CSF treatment is a release of CFU-S and progenitors from the marrow to the peripheral blood and a reseeding in the spleen.
@article{Bungart.1990,
abstract = {Previously it has been hypothesized that the granulopoietic and erythropoietic lineages may compete for differentiating stem cells. According to this hypothesis one would expect that a stimulation of granulopoiesis by G-CSF administration would lead to a reduction of the stem cell pool and be followed by a decline of erythropoietic progenitor numbers. In addition one would expect an enhanced response of granulopoiesis if G-CSF administration were combined with suppression of erythropoiesis by red cell transfusion. To evaluate whether this hypothesis holds true C57bl mice were injected subcutaneously for 6 d with 3.75 micrograms rh G-CSF/mouse/d (150 micrograms G-CSF/kg body weight/d). Marrow CFU-S numbers showed an increase to 160\% on day 2, followed by a decrease to 50\% of control on day 6. Splenic and peripheral blood CFU-S increased 20-fold and 10-fold, respectively. Marrow CFU-E declined to 40\% of the control value. Splenic CFU-E increased 10-fold. The increase in marrow CFU-GM numbers ranged between 140\% and 180\%. CFU-GM obtained from the spleen and the peripheral blood increased 60-fold and 15-fold, respectively. Regarding the CFU-S and CFU-GM a similar pattern of response was found in an experiment where rh G-CSF administration was combined with an additional red cell transfusion. These data do not provide convincing evidence for an exhaustion of haemopoietic stem cells during treatment with G-CSF. They rather suggest that an important side effect of G-CSF treatment is a release of CFU-S and progenitors from the marrow to the peripheral blood and a reseeding in the spleen.},
added-at = {2014-10-17T12:55:42.000+0200},
author = {Bungart, B. and Loeffler, Markus and Goris, H. and Dontje, B. and Diehl, Volker and Nijhof, W.},
biburl = {https://www.bibsonomy.org/bibtex/27f817f90c3222ccab5ab1da0be1eb217/drtester},
interhash = {99904d7ecf9c39ae924e34fd8cc37f52},
intrahash = {7f817f90c3222ccab5ab1da0be1eb217},
journal = {British journal of haematology},
keywords = {IMISE-Publikationen},
number = 2,
pages = {174–179},
timestamp = {2014-12-02T23:58:48.000+0100},
title = {Differential effects of recombinant human colony stimulating factor (rh G-CSF) on stem cells in marrow, spleen and peripheral blood in mice},
volume = 76,
year = 1990
}