AI Article Synopsis
- - Emerging research highlights that osteoclasts (OCs) have important roles in both bone formation and regeneration, beyond their traditional function of bone resorption, but their lifecycle and characteristics are still not fully understood.
- - Osteoclasts originate from osteoclast precursors (OCPs) derived from erythromyeloid progenitors (EMPs) during embryonic development and shift to being primarily sourced from hematopoietic stem cells (HSCs) postnatally, with their absence leading to serious bone structure issues.
- - The paper also discusses the challenges in isolating pure OC cultures and understanding their in vivo functions, as they interact closely with the immune system and blood vessels, and it offers insights into OCP
Article Abstract
Emerging evidence illustrates that osteoclasts (OCs) play diverse roles beyond bone resorption, contributing significantly to bone formation and regeneration. Despite this, OCs remain mysterious cells, with aspects of their lifespan-from origin, fusion, alterations in cellular characteristics, to functions-remaining incompletely understood. Recent studies have identified that embryonic osteoclastogenesis is primarily driven by osteoclast precursors (OCPs) derived from erythromyeloid progenitors (EMPs). These precursor cells subsequently fuse into OCs essential for normal bone development and repair. Postnatally, hematopoietic stem cells (HSCs) become the primary source of OCs, gradually replacing EMP-derived OCs and assuming functional roles in adulthood. The absence of OCs during bone development results in bone structure malformation, including abnormal bone marrow cavity formation and shorter long bones. Additionally, OCs are reported to have intimate interactions with blood vessels, influencing bone formation and repair through angiogenesis regulation. Upon biomaterial implantation, activation of the innate immune system ensues immediately. OCs, originating from macrophages, closely interact with the immune system. Furthermore, evidence from material-induced bone formation events suggests that OCs are pivotal in these de novo bone formation processes. Nevertheless, achieving a pure OC culture remains challenging, and interpreting OC functions in vivo faces difficulties due to the presence of other multinucleated cells around bone-forming biomaterials. We here describe the fusion characteristics of OCPs and summarize reliable markers and morphological changes in OCs during their fusion process, providing guidance for researchers in identifying OCs both in vitro and in vivo. This review focuses on OC formation, characterization, and the roles of OCs beyond resorption in various bone pathophysiological processes. Finally, therapeutic strategies targeting OCs are discussed.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11469995 | PMC |
| http://dx.doi.org/10.1186/s13619-024-00205-x | DOI Listing |
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