PRC2 loss drives MPNST metastasis and matrix remodeling
Qierra R. Brockman, Amanda Scherer, Gavin R. McGivney, Wade R. Gutierrez, Andrew P. Voigt, Alexandra L. Isaacson, Emily A. Laverty, Grace Roughton, Vickie Knepper-Adrian, Benjamin Darbro, Munir R. Tanas, Christopher S. Stipp, Rebecca D. Dodd
Qierra R. Brockman, Amanda Scherer, Gavin R. McGivney, Wade R. Gutierrez, Andrew P. Voigt, Alexandra L. Isaacson, Emily A. Laverty, Grace Roughton, Vickie Knepper-Adrian, Benjamin Darbro, Munir R. Tanas, Christopher S. Stipp, Rebecca D. Dodd
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Research Article Oncology

PRC2 loss drives MPNST metastasis and matrix remodeling

Abstract

The histone methyltransferase PRC2 plays a complex role in cancer. Malignant peripheral nerve sheath tumors (MPNSTs) are aggressive sarcomas with frequent loss-of-function mutations in PRC2 that are associated with poor outcome. Here, we identify a critical role for PRC2 loss in driving MPNST metastasis. PRC2-dependent metastatic phenotypes included increased collagen-dependent invasion, upregulation of matrix-remodeling enzymes, and elevated lung metastasis in orthotopic mouse models. Furthermore, clinical sample analysis determined that PRC2 loss correlated with metastatic disease, increased fibrosis, and decreased survival in patients with MPNSTs. These results may have broad implications for PRC2 function across multiple cancers and provide a strong rationale for investigating potential therapies targeting ECM-remodeling enzymes and tumor fibrosis to improve outcomes in patients with MPNSTs.

Authors

Qierra R. Brockman, Amanda Scherer, Gavin R. McGivney, Wade R. Gutierrez, Andrew P. Voigt, Alexandra L. Isaacson, Emily A. Laverty, Grace Roughton, Vickie Knepper-Adrian, Benjamin Darbro, Munir R. Tanas, Christopher S. Stipp, Rebecca D. Dodd

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Figure 5

Inhibition of LOX enzyme function, but not MMP function, decreases PRC2-dependent metastatic phenotypes.

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Inhibition of LOX enzyme function, but not MMP function, decreases PRC2-...
(A) Schematic of Transwell invasion across collagen with either nontargeting control siRNA (NT siRNA) or pooled Lox siRNA transfection (LoxL2/3/4 siRNA). (B and D) Representative images (original magnification, 20×) of cell Transwell invasion and clustering of NC1 (B) and NP1 (D) isogenic cell lines 48 hours posttransfection (n = 4). (C and E) Transwell invasion cell number (left) and cluster area (right) with either NT siRNA or LoxL2/3/4 siRNA 48 hours after transfection for NC1 (C) and NP1 (E) isogenic cell lines (n = 4). Transwell invasion assays show increased invasion through collagen of ΔEed and ΔSuz12 cells compared with nontargeting control by Kruskal-Wallis with multiple comparisons. Data represent biological replicates with the mean ± SD; *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.