Abstract
Mononuclear phagocytes (MNPs) are critical in health to maintain tissue homeostasis and in disease as major effectors of innate immunity. In the adult, MNPs develop from bone marrow (BM) progenitors that differentiate to monocytes, tissue macrophages (Mϕs), and specialized cells (dendritic cells, microglia and osteoclasts). Colony Stimulating Factor-1 (CSF-1) acts through the CSF-1R to regulate proliferation, survival and differentiation of MNPs. GAB2, a member of the GAB family of scaffolding proteins (GAB1-3), modulates and amplifies signals from numerous receptors, through recruitment of phosphatidylinositol 3-kinase (PI3K) and Shp2 phosphatase. Knockdown studies in the 32D myeloid cell line from our lab showed that GAB2 is required for CSF-1 induced mitogenesis and activation of Akt, a PI3K effector. To test the hypothesis that the GAB2-PI3K axis is important for MNP development in vivo, we examined Mϕ development in GAB2 +/+ and −/− mice (gift of Josef Penninger). GAB2 is upregulated 14-fold during CSF-1-induced differentiation of primary BM cells from GAB2+/+ mice. A significant difference is detected in the steady state percentage of F4/80+ BM cells (F4/80 is a mature Mϕ marker): 17.5 ± 1.6 (GAB2+/+, n=8) vs. 11.4 ± 1.6 (GAB2–/−, n=6) (p=0.025, 2-sided t-test). Using the CFU-C progenitor assay with CSF-1 as the only growth factor, primary BM cells from GAB2 −/− mice show a striking 7-fold reduction in colony numbers compared to those from GAB2 +/+ mice (p=0.004) and the colonies were much smaller. Thus GAB2 is essential for optimal CSF-1-dependent Mϕ colony formation. We then used CD31 and Ly6C and flow cytometry to follow the kinetics of Mϕ formation during BM differentiation. These markers monitor sequential stages of Mϕ development: CD31highLy6C– -> CD31+Ly6C+ -> CD31-Ly6Chigh (
Author notes
Disclosure: No relevant conflicts of interest to declare.