Osteoarthritis, involving degeneration of cartilage tissue and underlying bone in joints, is characterized by chronic inflammation in the affected tissues. Unresolved inflammatory signaling is a feature of aging, disruptive to tissue structure and function. In many age-related inflammatory conditions, researchers are investigating the behavior of the innate immune cells call macrophages. Macrophages can switch between states known as polarizations, the most clearly distinguished of which are M1 (inflammatory and aggressive in attacking pathogens) versus M2 (anti-inflammatory and acting to aid regenerative processes). In many inflammation-associated conditions, macrophages appear overly biased towards M1, amplifying inflammation.
Primary osteoarthritis (OA) is a prevalent degenerative joint disease that mostly affects the knee joint. It is a condition that occurs around the world. Because of the aging population and the increase in obesity prevalence, the incidence of primary OA is increasing each year. Joint replacement can completely subside the pain and minimize movement disorders caused by advanced OA, while nonsteroidal drugs and injection of sodium hyaluronate into the joint cavity can only partially relieve the pain; hence, it is critical to search for new methods to treat OA.
Increasing lines of evidence show that primary OA is a chronic inflammatory disorder, with synovial inflammation as the main characteristic. Macrophages, as one of the immune cells, can be polarized to produce M1 (proinflammatory) and M2 (anti-inflammatory) types during synovial inflammation in OA. Following polarization, macrophages do not come in direct contact with chondrocytes; however, they affect chondrocyte metabolism through paracrine production of a significant quantity of inflammatory cytokines, matrix metalloproteinases, and growth factors and thus participate in inducing joint pain, cartilage injury, angiogenesis, and osteophyte formation.
The main pathways that influence the polarization of macrophages are the Toll-like receptor and NF-κB pathways. The study of how macrophage polarization affects OA disease progression has gradually become one of the approaches to prevent and treat OA. Experimental studies have found that the treatment of macrophage polarization in primary OA can effectively relieve synovial inflammation and reduce cartilage damage. The present article summarizes the influence of inflammatory factors secreted by macrophages after polarization on OA disease progression, the main signaling pathways that induce macrophage differentiation, and the role of different polarized types of macrophages in OA; thus, providing a reference for preventing and treating primary OA.
Link: https://doi.org/10.1186/s13018-024-05052-9
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