Macrophages: their emerging roles in bone

BP Sinder, AR Pettit, LK McCauley - Journal of Bone and …, 2015 - academic.oup.com
Journal of Bone and Mineral Research, 2015academic.oup.com
Macrophages are present in nearly all tissues and are critical for development, homeostasis,
and regeneration. Resident tissue macrophages of bone, termed osteal macrophages, are
recently classified myeloid cells that are distinct from osteoclasts. Osteal macrophages are
located immediately adjacent to osteoblasts, regulate bone formation, and play diverse roles
in skeletal homeostasis. Genetic or pharmacological modulation of macrophages in vivo
results in significant bone phenotypes, and these phenotypes depend on which …
Abstract
Macrophages are present in nearly all tissues and are critical for development, homeostasis, and regeneration. Resident tissue macrophages of bone, termed osteal macrophages, are recently classified myeloid cells that are distinct from osteoclasts. Osteal macrophages are located immediately adjacent to osteoblasts, regulate bone formation, and play diverse roles in skeletal homeostasis. Genetic or pharmacological modulation of macrophages in vivo results in significant bone phenotypes, and these phenotypes depend on which macrophage subsets are altered. Macrophages are also key mediators of osseous wound healing and fracture repair, with distinct roles at various stages of the repair process. A central function of macrophages is their phagocytic ability. Each day, billions of cells die in the body and efferocytosis (phagocytosis of apoptotic cells) is a critical process in both clearing dead cells and recruitment of replacement progenitor cells to maintain homeostasis. Recent data suggest a role for efferocytosis in bone biology and these new mechanisms are outlined. Finally, although macrophages have an established role in primary tumors, emerging evidence suggests that macrophages in bone support cancers which preferentially metastasize to the skeleton. Collectively, this developing area of osteoimmunology raises new questions and promises to provide novel insights into pathophysiologic conditions as well as therapeutic and regenerative approaches vital for skeletal health. © 2015 American Society for Bone and Mineral Research.
Oxford University Press