Loss of ATRX promotes aggressive features of osteosarcoma with increased NF-κB signaling and integrin binding
Suzanne Bartholf DeWitt, Sarah Hoskinson Plumlee, Hailey E. Brighton, Dharshan Sivaraj, E.J. Martz, Maryam Zand, Vardhman Kumar, Maya U. Sheth, Warren Floyd, Jacob V. Spruance, Nathan Hawkey, Shyni Varghese, Jianhua Ruan, David G. Kirsch, Jason A. Somarelli, Ben Alman, William C. Eward
Suzanne Bartholf DeWitt, Sarah Hoskinson Plumlee, Hailey E. Brighton, Dharshan Sivaraj, E.J. Martz, Maryam Zand, Vardhman Kumar, Maya U. Sheth, Warren Floyd, Jacob V. Spruance, Nathan Hawkey, Shyni Varghese, Jianhua Ruan, David G. Kirsch, Jason A. Somarelli, Ben Alman, William C. Eward
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Research Article Oncology

Loss of ATRX promotes aggressive features of osteosarcoma with increased NF-κB signaling and integrin binding

Abstract

Osteosarcoma (OS) is a lethal disease with few known targeted therapies. Here, we show that decreased ATRX expression is associated with more aggressive tumor cell phenotypes, including increased growth, migration, invasion, and metastasis. These phenotypic changes correspond with activation of NF-κB signaling, extracellular matrix remodeling, increased integrin αvβ3 expression, and ETS family transcription factor binding. Here, we characterize these changes in vitro, in vivo, and in a data set of human OS patients. This increased aggression substantially sensitizes ATRX-deficient OS cells to integrin signaling inhibition. Thus, ATRX plays an important tumor-suppression role in OS, and loss of function of this gene may underlie new therapeutic vulnerabilities. The relationship between ATRX expression and integrin binding, NF-κB activation, and ETS family transcription factor binding has not been described in previous studies and may impact the pathophysiology of other diseases with ATRX loss, including other cancers and the ATR-X α thalassemia intellectual disability syndrome.

Authors

Suzanne Bartholf DeWitt, Sarah Hoskinson Plumlee, Hailey E. Brighton, Dharshan Sivaraj, E.J. Martz, Maryam Zand, Vardhman Kumar, Maya U. Sheth, Warren Floyd, Jacob V. Spruance, Nathan Hawkey, Shyni Varghese, Jianhua Ruan, David G. Kirsch, Jason A. Somarelli, Ben Alman, William C. Eward

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Figure 2

ATRX loss promotes tumor initiation and growth.

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ATRX loss promotes tumor initiation and growth. (A) Loss of ATRX expres...
(A) Loss of ATRX expression increased the rate of tumor formation in an Osterix-Cre–driven mouse model of OS. Kaplan-Meier, log-rank P = 0.0021, experimental cohorts Osx-Cre+p53fl/flRbfl/fl (n = 26 males and 25 females) or Osx-Cre+p53fl/flRbfl/flATRXfl/fl/y (n = 22 males and 25 females). (B and C) Western blot and qPCR results showing knockdown (KD) of ATRX with 2 shRNA constructs in the 143B human OS cell line. Dunnett’s multiple-comparison test, P < 0.0001 for both NS versus shATRX-1 and NS versus shATRX-2 for qPCR results. (D) Established xenografts of the 143B human OS cell line with ATRX shRNA KD showed greater final tumor volume compared with NS controls (1-way ANOVA with multiple comparisons, P = 0.04 shATRX-1 versus NS, P = 0.006 shATRX-2 versus NS; n = 3 males and 2 females per treatment group). (E) Western blot results show effective CRISPR-Cas9 KO of ATRX expression in the 143B human OS cell line. (F and G) Established xenografts of the 143B cell line with ATRX KO had a faster rate of tumor growth (1-way repeated-measures ANOVA, log transform, P = 0.02) and larger final tumor volumes compared with WT cells (Student’s t test, P = 0.03; n = 5 males and 5 females per treatment group). (H) Histology of xenograft tumors. The expected ATRX expression status of all WT and KO tumors was validated by IHC for ATRX. All xenograft tumors stained strongly for Ki-67 (greater than 95% positive), suggesting high cellular proliferation in all tumors. No significant differences were observed in the xenograft tumors with IHC staining for cleaved caspase 3 with less than 5% of cells staining positively in all tumors. Positive control is shown.