Supplemental Figure 1 from Jak1–STAT3 Signals Are Essential Effectors of the USP6/TRE17 Oncogene in Tumorigenesis
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posted on 2023-03-30, 23:45 authored by Laura Quick, Robert Young, Ian C. Henrich, Xiaoke Wang, Yan W. Asmann, Andre M. Oliveira, Margaret M. ChouP-STAT3 IHC
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NCI
NIH
Hauck Family Fund for Bioinformatics from Mayo Center for Individualized Medicine at Mayo Florida
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ARTICLE ABSTRACT
Bone and soft tissue tumors (BSTT) are relatively poorly understood, hampering the development of effective therapies. Here we report a critical effector pathway for the ubiquitin-specific protease 6 (USP6)/TRE17 oncogene, which is overexpressed upon chromosome translocation in various human tumors, including aneurysmal bone cyst (ABC) and the related benign lesion nodular fasciitis. Ectopic expression of USP6 is known to drive formation of tumors, which recapitulate key features of ABC and nodular fasciitis; however, the identity of USP6′s relevant substrates has been obscure. Here we report that the Jak1–STAT3 signaling pathway serves as an essential effector of USP6 in BSTT formation. We found that USP6 directly deubiquitinated Jak1, leading to its stabilization and activation of STAT3. The tumorigenic potential of USP6 was attenuated significantly by CRISPR-mediated deletion of Jak1 or STAT3, or by administration of a Jak family inhibitor. Analysis of primary clinical samples of nodular fasciitis confirmed the activation of a Jak1–STAT3 gene signature in vivo. Together, our studies highlight Jak1 as the first identified substrate for USP6, and they offer a mechanistic rationale for the clinical investigation of Jak and STAT3 inhibitors as therapeutics for the treatment of bone and soft tissue tumors along with other neoplasms driven by USP6 overexpression. Cancer Res; 76(18); 5337–47. ©2016 AACR.Usage metrics
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