Cell cycle analysis of SP LAM subsets and phenotypic evolution of MOMF in the liver of T-ALL mice.
Funding
National Natural Science Foundation of China
History
ARTICLE ABSTRACT
Macrophages play important roles in both physiologic and pathologic processes and arise from successive waves of embryonic and adult hematopoiesis. Monocyte-derived macrophages (MOMF) exert distinct functions under pathologic conditions, and leukemia-associated macrophages (LAM) show considerable diversities in activation and functional phenotype. However, their origin and pathologic roles have not been well elucidated. Here we used wild-type and CCR2−/− mice to study the pathologic roles of monocyte-derived LAM in extramedullary tissues in models of Notch1-induced T-cell acute lymphoblastic leukemia (T-ALL). MOMF existed in the resting liver and spleen. In the spleen, Ly6C+ monocytes gave rise to the Ly6C+ macrophage subset. Furthermore, an increase of monocyte-derived LAM, including the Ly6C+ subset, was detected in the extramedullary tissues in leukemic mice. More monocyte-derived LAM, including Ly6C+ LAM, was detected in the spleens of leukemic mice transplanted with exogeneous mononuclear cells. Moreover, Ly6C+ LAM exhibited increased M1-related characteristics and contributed to sterile inflammation. In CCR2−/− leukemic mice, reduced Ly6C+ LAM, relieved sterile inflammation, and reduced distribution of leukemia cells were detected in extramedullary tissues. In addition, monocyte-derived Ly6C+ LAM expressed high levels of CCL8 and CCL9/10. Blocking CCR1 and CCR2 relieved hepatosplenomegaly and inhibited the extramedullary distribution of leukemia cells in T-ALL mice. Collectively, our findings reveal the multifaceted pathologic roles of monocyte-derived LAM in T-ALL progression.
This study links monocyte-derived leukemia-associated macrophages with noninfectious inflammation and extramedullary distribution of leukemia cells during leukemia progression, providing new insight into macrophage-based immunotherapy in leukemia.