Frontiers | The Macrophage-Osteoclast Axis in Osteoimmunity and Osteo-Related Diseases
Knockout and Double Knockout of Cathepsin K and Mmp9 reveals a novel function of Cathepsin K as a regulator of osteoclast gene expression and bone homeostasis
Frontiers | The Osteoclast Traces the Route to Bone Tumors and Metastases
Osteoclast‐targeting small molecules for the treatment of neoplastic bone metastases - Kawatani - 2009 - Cancer Science - Wiley Online Library
CD44 deficiency inhibits unloading-induced cortical bone loss through downregulation of osteoclast activity | Scientific Reports
MMP-9 is important for stimulation of bone angiogenesis by osteoclasts... | Download Scientific Diagram
Identification and Characterization of the New Osteoclast Progenitor with Macrophage Phenotypes Being Able to Differentiate into Mature Osteoclasts - Takeshita - 2000 - Journal of Bone and Mineral Research - Wiley Online Library
Deficiency of PDK1 in osteoclasts delays fracture healing and repair
Evidence for excessive osteoclast activation in SIRT6 null mice | Scientific Reports
MMP-9 is important for stimulation of angiogenesis by osteoclasts in... | Download Scientific Diagram
Unraveling metalloproteinase function in skeletal biology and disease using genetically altered mice - ScienceDirect
HDAC6 regulates dental mesenchymal stem cells and osteoclast differentiation | BMC Oral Health | Full Text
Rosmarinic acid and arbutin suppress osteoclast differentiation by inhibiting superoxide and NFATc1 downregulation in RAW 264.7 cells
Complete abrogation of key osteoclast markers with a membrane-anchored tissue inhibitor of metalloproteinase | Bone & Joint Research
Osteoclast-mediated bone resorption is controlled by a compensatory network of secreted and membrane-tethered metalloproteinas
IJMS | Free Full-Text | Influence of the TGF-β Superfamily on Osteoclasts/Osteoblasts Balance in Physiological and Pathological Bone Conditions
Inhibitory Effects of KP-A159, a Thiazolopyridine Derivative, on Osteoclast Differentiation, Function, and Inflammatory Bone Loss via Suppression of RANKL-Induced MAP Kinase Signaling Pathway | PLOS ONE