Dear Colleagues,

Osteoclasts are specialized cells that differentiate from multipotent hematopoietic precursors. During osteoclastogenesis, they gain the capacity to dissolve bone in a highly-regulated fashion. When osteoclasts contact bone under permissive conditions, they form a unique resorptive apparatus that consists of an actin ring and a ruffled membrane. The actin ring is an exceptionally dynamic, actin based cytoskeletal structure that forces the plasma membrane into the bone, sealing off an extracellular resorption compartment. This compartment is acidified by vacuolar H⁺-ATPases that pack the ruffled membrane, which is a specialized domain of the plasma membrane bounded by the actin ring. Acidification of the resorption compartment solubilizes bone mineral. Osteoclasts secrete the acid cysteine proteinase cathepsin K, which is active in the acidic environment of the resorption compartment to degrade the organic matrix of the bone. In this Special Issue of Biomolecules, the biomolecules that are vital to activate the formation of the resorption compartment and the key elements of the resorption apparatus will be examined in detail. This will include elements of the activation stage (RANKL/RANK/osteoprotegerin pathway and integrins), the resorption apparatus (actin and its associated proteins and V-ATPase and its accessories) and the signaling that arises from the activation and resorption activity of osteoclasts (extracellular vesicles, ephrins and semaphorins) that help couple bone resorption by osteoclasts with bone formation by osteoblasts. The focus of this Special Issue will be on how these biomolecules are distinctively utilized by osteoclasts to enable these highly specialized cells to accomplish their vital role in bone remodeling.

Prof. Dr. L. Shannon Holliday
Guest Editor

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• osteoclasts
• bone
• osteoblasts
• receptor activator of nuclear factor kappa b (RANK)
• vacuolar H⁺-ATPase (V-ATPase)
• podosome
• cathepsin K
• extracellular vesicle
• exosome
• integrins
• cortactin