Forschung & Innovation
Publikationen
The Role of Phagocytic Cells in the Achilles Tendon
PMU Autor*innen
Yasir Majeed, Maria Kokozidou, Clemens Gogele, Andreas Traweger, Christine Lehner, Herbert Tempfer, Gundula Gesine Schulze-Tanzil
Alle Autor*innen
Yasir Majeed, Maria Kokozidou, Clemens Gogele, Andreas Traweger, Christine Lehner, Herbert Tempfer, Gundula Gesine Schulze-Tanzil
Fachzeitschrift
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
Kurzfassung
Macrophages and other phagocytic cells are central regulators of tendon immunobiology, orchestrating inflammation, tissue repair, and extracellular matrix (ECM) remodeling in the tendons. They derive from circulating monocytes and resident tendon-specific populations, including tenophages. Macrophage polarization along the M1/M2 axis exerts a decisive influence on tendon healing trajectories. Activated M1 macrophages promote the early healing phase for debris clearance initiating the reparative cascade. However, their sustained activity leads to inflammation, ECM degradation, impaired healing, tendinopathy, and heterotopic ossification (HO). Conversely, a timed shift toward activated M2 macrophages promotes resolution of inflammation, angiogenesis, ECM deposition, and fibrocartilage formation, whereas excessive or prolonged M2 activity facilitates adhesion formation, fibrosis, scarring and HO. Recent single-cell and spatial profiling studies showed macrophage heterogeneity across tendon compartments, thereby extending the classical M1/M2 paradigm and underscoring the relevance of macrophages/resident tendon cell's interaction in tendon-specific local niches. Mechanobiological stimuli (depending on magnitude, frequency and duration) further modulate macrophage phenotypes and tendon healing. Emerging coculture models and human tendon-on-chip systems provide high-resolution platforms for dissecting these spatiotemporal interactions. Promising therapeutic approaches comprise the application of extracellular vesicles, controlled mechanoloading regimens, and immunomodulatory biomaterials demonstrating potential to induce regenerative macrophage signatures for improved healing outcomes. Notably, platelet-rich plasma (PRP) formulations shape macrophage responses: leukocyte-rich PRP preferentially promotes M1 activity whereas leukocyte-poor PRP supports M2 polarization. Thus, mechano- and immunomodulatory strategies can offer precise control over macrophage dynamics. Regarding the Achilles tendon pathologies, such approaches are helpful by directing macrophage-mediated inflammation towards effective tendon healing outcomes.
Keywords
TENDINOPATHY, MACROPHAGES, HETEROTOPIC OSSIFICATION, Achilles tendon, M1 and M2 polarization, Healing, Tenophages