Figure 2
c-Met inhibition impairs progenitor cell mobilization. (A) Mice were injected with anti–c-Met Abs, 5 consecutive injections of G-CSF or anti–c-Met on days 4 and 5 of G-CSF administration. The frequency of circulating progenitor cells was analyzed. (B) Numbers of circulating progenitors in mice injected with vehicle, PHA, 5 consecutive doses of G-CSF with vehicle, or c-Met inhibitor. (C) A representative FACS analysis showing, in the upper lane, the percentage of circulating SKL cells in control mice or mice receiving c-Met Abs, or G-CSF alone or together with c-Met Abs. The lower lane depicts the percentage of SKL in the blood of mice injected with vehicle or c-Met inhibitor or G-CSF with vehicle or c-Met inhibitor. (D-E) A summary of ≥ 3 independent experiments showing the percentage of circulating SKL cells (D) in mice that were given anti–c-Met Abs, or G-CSF alone or G-CSF in combination with anti c-met Abs or (E) in mice that were injected with vehicle or with c-Met inhibitor, or G-CSF together with vehicle or c-Met inhibitor. (F) Percentage of circulating SKL/CD34− cells in mice that were injected with vehicle, HGF, G-CSF together with vehicle, or c-Met inhibitor. In all the experiments, mobilization was evaluated after 3-5 hours after the last injection. (G) Representative FACS plot showing the percentage of CD34− cells within the SKL population in the circulation of mice treated with DMSO, G-CSF and vehicle, or G-CSF and c-Met inhibitor. (H) Representative FACS plot showing the percentage of CD34− cells within the SKL population in the circulation of mice treated with PBS or HGF. In all the experiments, mobilization was evaluated after 3-5 hours from the last injection. Indicated values are presented as mean ± SE in ≥ 3 independent experiments, 6 mice in each group. *P < .05; **P < .001.

c-Met inhibition impairs progenitor cell mobilization. (A) Mice were injected with anti–c-Met Abs, 5 consecutive injections of G-CSF or anti–c-Met on days 4 and 5 of G-CSF administration. The frequency of circulating progenitor cells was analyzed. (B) Numbers of circulating progenitors in mice injected with vehicle, PHA, 5 consecutive doses of G-CSF with vehicle, or c-Met inhibitor. (C) A representative FACS analysis showing, in the upper lane, the percentage of circulating SKL cells in control mice or mice receiving c-Met Abs, or G-CSF alone or together with c-Met Abs. The lower lane depicts the percentage of SKL in the blood of mice injected with vehicle or c-Met inhibitor or G-CSF with vehicle or c-Met inhibitor. (D-E) A summary of ≥ 3 independent experiments showing the percentage of circulating SKL cells (D) in mice that were given anti–c-Met Abs, or G-CSF alone or G-CSF in combination with anti c-met Abs or (E) in mice that were injected with vehicle or with c-Met inhibitor, or G-CSF together with vehicle or c-Met inhibitor. (F) Percentage of circulating SKL/CD34 cells in mice that were injected with vehicle, HGF, G-CSF together with vehicle, or c-Met inhibitor. In all the experiments, mobilization was evaluated after 3-5 hours after the last injection. (G) Representative FACS plot showing the percentage of CD34 cells within the SKL population in the circulation of mice treated with DMSO, G-CSF and vehicle, or G-CSF and c-Met inhibitor. (H) Representative FACS plot showing the percentage of CD34 cells within the SKL population in the circulation of mice treated with PBS or HGF. In all the experiments, mobilization was evaluated after 3-5 hours from the last injection. Indicated values are presented as mean ± SE in ≥ 3 independent experiments, 6 mice in each group. *P < .05; **P < .001.

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