Neutropenia with impaired host defense against microbial infection in mice lacking androgen receptor

KH Chuang, S Altuwaijri, G Li, JJ Lai, CY Chu… - Journal of Experimental …, 2009 - rupress.org
KH Chuang, S Altuwaijri, G Li, JJ Lai, CY Chu, KP Lai, HY Lin, JW Hsu, P Keng, MC Wu…
Journal of Experimental Medicine, 2009rupress.org
Neutrophils, the major phagocytes that form the first line of cell-mediated defense against
microbial infection, are produced in the bone marrow and released into the circulation in
response to granulocyte-colony stimulating factor (G-CSF). Here, we report that androgen
receptor knockout (ARKO) mice are neutropenic and susceptible to acute bacterial infection,
whereas castration only results in moderate neutrophil reduction in mice and humans.
Androgen supplement can restore neutrophil counts via stabilizing AR in castrated mice, but …
Neutrophils, the major phagocytes that form the first line of cell-mediated defense against microbial infection, are produced in the bone marrow and released into the circulation in response to granulocyte-colony stimulating factor (G-CSF). Here, we report that androgen receptor knockout (ARKO) mice are neutropenic and susceptible to acute bacterial infection, whereas castration only results in moderate neutrophil reduction in mice and humans. Androgen supplement can restore neutrophil counts via stabilizing AR in castrated mice, but not in ARKO and testicular feminization mutant (Tfm) mice. Our results show that deletion of the AR gene does not influence myeloid lineage commitment, but significantly reduces the proliferative activity of neutrophil precursors and retards neutrophil maturation. CXCR2-dependent migration is also decreased in ARKO neutrophils as compared with wild-type controls. G-CSF is unable to delay apoptosis in ARKO neutrophils, and ARKO mice show a poor granulopoietic response to exogenous G-CSF injection. In addition, AR can restore G-CSF–dependent granulocytic differentiation upon transduction into ARKO progenitors. We further found that AR augments G-CSF signaling by activating extracellular signal-regulated kinase 1/2 and also by sustaining Stat3 activity via diminishing the inhibitory binding of PIAS3 to Stat3. Collectively, our findings demonstrate an essential role for AR in granulopoiesis and host defense against microbial infection.
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