APA
Sánchez, Ángela & Relaño, Carlos & Carrasco, Araceli & Contreras Jurado, Silvia Constanza & Martín Duce, Antonio & Aranda, Ana & Alemany, Susana .Map3k8 controls granulocyte colony-stimulating factor production and neutrophil precursor proliferation in lipopolysaccharide-induced emergency granulopoiesis.
ISO 690
Sánchez, Ángela & Relaño, Carlos & Carrasco, Araceli & Contreras Jurado, Silvia Constanza & Martín Duce, Antonio & Aranda, Ana & Alemany, Susana. Map3k8 controls granulocyte colony-stimulating factor production and neutrophil precursor proliferation in lipopolysaccharide-induced emergency granulopoiesis.
https://hdl.handle.net/20.500.12080/26183
Résumé:
Map3k8 has been proposed as a useful target for the treatment of inflammatory diseases. We
show here that during lipopolysaccharide-induced emergency granulopoiesis, Map3k8 deficiency
strongly impairs the increase in circulating mature (Ly6GhighCD11b+) and immature (Ly6GlowCD11b+)
neutrophils. After chimaeric bone marrow (BM) transplantation into recipient Map3k8¿/¿ mice,
lipopolysaccharide treatment did not increase circulating Ly6GhighCD11b+ cells and strongly decreased
circulating Ly6GlowCD11b+ cells. Lipopolysaccharide-treated Map3k8¿/¿ mice showed decreased
production of granulocyte colony-stimulating factor (G-CSF), a key factor in neutrophil expansion,
and a Map3k8 inhibitor blocked lipopolysaccharide-mediated G-CSF expression in endothelial cell
lines. Ly6GlowCD11b+ BM cells from lipopolysaccharide-treated Map3k8¿/¿ mice displayed impaired
expression of CCAAT-enhancer-binding protein ¿, which depends on G-CSF for expression and is crucial
for cell cycle acceleration in this life-threatening condition. Accordingly, lipopolysaccharide-treated
Map3k8¿/¿ mice showed decreased Ly6GlowCD11b+ BM cell proliferation, as evidenced by a decrease
in the percentage of the most immature precursors, which have the highest proliferation capacity
among this cell population. Thus, Map3k8 expression by non-haematopoietic tissue is required for
lipopolysaccharide-induced emergency granulopoiesis. The novel observation that inhibition of Map3k8
activity decreases neutrophilia during life-threatening systemic infection suggests a possible risk in the
proposed use of Map3k8 blockade as an anti-inflammatory therapy.