Paracrine osteoprotegerin and β-catenin stabilization support synovial sarcomagenesis in periosteal cells
Jared J. Barrott, … , Mario R. Capecchi, Kevin B. Jones
Jared J. Barrott, … , Mario R. Capecchi, Kevin B. Jones
Published November 20, 2017
Citation Information: J Clin Invest. 2018;128(1):207-218. https://doi.org/10.1172/JCI94955.
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Research Article Development Oncology

Paracrine osteoprotegerin and β-catenin stabilization support synovial sarcomagenesis in periosteal cells

Abstract

Synovial sarcoma (SS) is an aggressive soft-tissue sarcoma that is often discovered during adolescence and young adulthood. Despite the name, synovial sarcoma does not typically arise from a synoviocyte but instead arises in close proximity to bones. Previous work demonstrated that mice expressing the characteristic SS18-SSX fusion oncogene in myogenic factor 5–expressing (Myf5-expressing) cells develop fully penetrant sarcomagenesis, suggesting skeletal muscle progenitor cell origin. However, Myf5 is not restricted to committed myoblasts in embryos but is also expressed in multipotent mesenchymal progenitors. Here, we demonstrated that human SS and mouse tumors arising from SS18-SSX expression in the embryonic, but not postnatal, Myf5 lineage share an anatomic location that is frequently adjacent to bone. Additionally, we showed that SS can originate from periosteal cells expressing SS18-SSX alone and from preosteoblasts expressing the fusion oncogene accompanied by the added stabilization of β-catenin, which is a common secondary change in SS. Expression and secretion of the osteoclastogenesis inhibitory factor osteoprotegerin enabled early growth of SS18-SSX2–transformed cells, indicating a paracrine link between the bone and synovial sarcomagenesis. These findings explain the skeletal contact frequently observed in human SS and may provide alternate means of enabling SS18-SSX–driven oncogenesis in cells as differentiated as preosteoblasts.

Authors

Jared J. Barrott, Benjamin E. Illum, Huifeng Jin, Matthew L. Hedberg, Yanliang Wang, Allie Grossmann, Malay Haldar, Mario R. Capecchi, Kevin B. Jones

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Figure 1

Synovial sarcomagenesis occurs in proximity to bone.

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Synovial sarcomagenesis occurs in proximity to bone. (A) Representative ...
(A) Representative MRIs demonstrate the relationship of human SSs to bone in 5 patients with tumors directly abutting the bone surface (black arrowheads) and 1 patient in whom the tumor did not touch the bone directly (white arrowhead), abutting instead the knee joint capsule. (B) Pie charts demonstrating the prevalence of neoplasms touching bone among human SSs (n = 48) and neoplasms near bone (within 1 centimeter) among non-SS human soft-tissue sarcomas (STSs) of the extremities (n = 28). (C) MRIs demonstrating SSs (solid white arrowheads) and adjacent bones (empty white arrowheads) in Myf5Cre hSS2 mice, as well as (D) H&E-stained histology images from the same, demonstrating tumor cells abutting, involving, or replacing periosteum (Black arrowheads indicate the periosteal surface with tumor involvement. Open arrowheads indicate the endosteal surface and marrow space.). Scale bars: 100 μm. (E) Pie chart demonstrating the prevalence of tumor cells touching the bone surface in random sections of tumors from 8 mice (n = 33 tumors).