Heparan sulfate sulfatase SULF2 regulates PDGFRα signaling and growth in human and mouse malignant glioma
Joanna J. Phillips, … , David H. Rowitch, Zena Werb
Joanna J. Phillips, … , David H. Rowitch, Zena Werb
Published February 1, 2012
Citation Information: J Clin Invest. 2012;122(3):911-922. https://doi.org/10.1172/JCI58215.
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Heparan sulfate sulfatase SULF2 regulates PDGFRα signaling and growth in human and mouse malignant glioma

Abstract

Glioblastoma (GBM), a uniformly lethal brain cancer, is characterized by diffuse invasion and abnormal activation of multiple receptor tyrosine kinase (RTK) signaling pathways, presenting a major challenge to effective therapy. The activation of many RTK pathways is regulated by extracellular heparan sulfate proteoglycans (HSPG), suggesting these molecules may be effective targets in the tumor microenvironment. In this study, we demonstrated that the extracellular sulfatase, SULF2, an enzyme that regulates multiple HSPG-dependent RTK signaling pathways, was expressed in primary human GBM tumors and cell lines. Knockdown of SULF2 in human GBM cell lines and generation of gliomas from Sulf2–/– tumorigenic neurospheres resulted in decreased growth in vivo in mice. We found a striking SULF2 dependence in activity of PDGFRα, a major signaling pathway in GBM. Ablation of SULF2 resulted in decreased PDGFRα phosphorylation and decreased downstream MAPK signaling activity. Interestingly, in a survey of SULF2 levels in different subtypes of GBM, the proneural subtype, characterized by aberrations in PDGFRα, demonstrated the strongest SULF2 expression. Therefore, in addition to its potential as an upstream target for therapy of GBM, SULF2 may help identify a subset of GBMs that are more dependent on exogenous growth factor–mediated signaling. Our results suggest the bioavailability of growth factors from the microenvironment is a significant contributor to tumor growth in a major subset of human GBM.

Authors

Joanna J. Phillips, Emmanuelle Huillard, Aaron E. Robinson, Anna Ward, David H. Lum, Mei-Yin Polley, Steven D. Rosen, David H. Rowitch, Zena Werb

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Figure 6

SULF2 alters activity of several RTKs in human GBM cells.

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SULF2 alters activity of several RTKs in human GBM cells. (A) RTK phosph...
(A) RTK phosphorylation in U251 cells expressing SULF2-A shRNA or scrambled control shRNA. Individual RTKs are spotted in duplicate, and the identities of specific receptors are indicated. Positive control spots are located at the corners. See also Supplemental Figure 6. (B) Relative levels of phosphorylated RTKs in cells with knockdown of SULF2 normalized to cells with scrambled shRNA control. Duplicate spots were averaged. Data are representative of 2 independent experiments. (C) Phosphorylated and total PDGFRα levels in cells with SULF2 knockdown (S2) and scrambled shRNA control (C). Western blots were probed for GAPDH as a loading control. Results are means normalized to levels in scrambled shRNA control cells ± SEM (n = 4 independent experiments). *P < 0.01. (D) Knockdown of SULF2 decreases PDGFRα activation in response to PDGF-BB (10, 100, 200 ng/ml) stimulation. Relative levels of phosphorylated to total PDGFRα normalized to levels in unstimulated scrambled shRNA control cells. Data are representative of 2 independent experiments.