Enchondromas are benign cartilage tumors and precursors to malignant chondrosarcomas. Somatic mutations in the isocitrate dehydrogenase genes (IDH1 and IDH2) are present in the majority of these tumor types. How these mutations cause enchondromas is unclear. Here, we identified the spectrum of IDH mutations in human enchondromas and chondrosarcomas and studied their effects in mice. A broad range of mutations was identified, including the previously unreported IDH1-R132Q mutation. These mutations harbored enzymatic activity to catalyze α-ketoglutarate to D-2-hydroxyglutarate (D-2HG). Mice expressing Idh1-R132Q in one allele in cells expressing type 2 collagen showed a disordered growth plate, with persistence of type X-expressing chondrocytes. Chondrocyte cell cultures from these animals or controls showed that there was an increase in proliferation and expression of genes characteristic of hypertrophic chondrocytes with expression of Idh1-R132Q or 2HG treatment. Col2a1-Cre;Idh1-R132Q mutant knock-in mice (mutant allele expressed in chondrocytes) did not survive after the neonatal stage. Col2a1-Cre/ERT2;Idh1-R132 mutant conditional knock-in mice, in which Cre was induced by tamoxifen after weaning, developed multiple enchondroma-like lesions. Taken together, these data show that mutant IDH or D-2HG causes persistence of chondrocytes, giving rise to rests of growth-plate cells that persist in the bone as enchondromas.isocitrate dehydrogenase | cartilage tumor | hedgehog E nchondromas, one of the most common benign tumors occurring in bone, are present in more than 3% of the population (1, 2). They are composed of cells derived from chondrocytes and occur as solitary lesions or multiple lesions in enchondromatosis syndromes (Ollier disease or Maffucci syndrome-in the latter, enchondromas are associated with vascular malformations). Clinical problems caused by enchondromas include pain, fractures, and skeletal deformity. There is a potential for malignant progression to chondrosarcoma that may be greater than 50% in some cases of multiple enchondromatosis (i.e., Maffucci syndrome) (3-7). Many chondrosarcomas are thought to derive from enchondromas, and such sarcomas are termed central chondrosarcomas (3).The hedgehog (Hh) signaling pathway is constitutively active in enchondromas and chondrosarcomas (8,9). Hh is important in growth-plate chondrocyte differentiation, where it cooperates with parathyroid hormone-like hormone in a negative feedback loop to inhibit the differentiation of proliferative growth-plate chondrocytes (6,(10)(11)(12)(13)(14). Disruption of this feedback loop can result in either skeletal dysplasias with abnormal bone growth or enchondromas; 5% of enchondromas harbor mutation in parathyroid hormone-like hormone receptor (PTHR1), resulting in activation of Hh signaling (6,(10)(11)(12)(13)(14), and expression of a mutant PTHR1 or overexpression of the Hh-regulated transcription factor Gli2 under the Col2a1 promoter causes enchondroma-like cartilage lesions to develop adjacent to the growth-plate ...
The osteoclast is a multinucleated monocyte/macrophage lineage cell that degrades bone. Here we used lineage tracing studies, labeling cells expressing Cx3cr1, Csf1r, or Flt3 to identify the precursors of osteoclast in mice. We identified an erythromyeloid progenitor (EMP)-derived osteoclast precursor population. Yolk-sac macrophages of EMP origin produced neonatal osteoclasts that can create a space for postnatal bone marrow hematopoiesis. Furthermore, EMPs gave rise to long-lasting osteoclast precursors that contributed to postnatal bone remodeling in both physiological and pathological settings. Our single cell RNA-sequencing data showed that EMP-derived osteoclast precursors arose independently from hematopoietic stem cell (HSC) lineage and the data from fate tracking of EMP-and HSC-lineage provided a possibility of cell-Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:
The cell of origin for most mesenchymal tumors is unclear. One cell type that contributes to this lineages is the pericyte, a cell expressing Ng2/Cspg4. Using lineage tracing, we demonstrated that bone and soft tissue sarcomas driven by the deletion of the Trp53 tumor suppressor, or desmoid tumors driven by a mutation in Apc can derive from cells expressing Ng2/Cspg4. Deletion of the Trp53 tumor suppressor gene in these cells resulted in the bone and soft tissue sarcomas that closely resemble human sarcomas, while stabilizing β-catenin in this same cell type caused desmoid tumors. Comparing expression between Ng2/Cspg4 expressing pericytes lacking Trp53 and sarcomas that arose from deletion of Trp53, showed inhibition of β-catenin signaling in the sarcomas. Activation of β-catenin inhibited the formation and growth of sarcomas. Thus, pericytes can be a cell of origin for mesenchymal tumors, and β-catenin dysregulation plays an important role in the neoplastic phenotype.
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