Statins affect human glioblastoma and other cancers through TGF-β inhibition

The cholesterol-lowering statins have known anti-cancer effects, but the mechanisms and how to utilize statins in oncology have been unclear. We noted in the CellMiner database that statin activity against cancer lines correlated with higher expression of TGF-β target genes such as SERPINE1 and ZYX. This prompted us to assess whether statins affected TGF-β activity in glioblastoma (GBM), a cancer strongly influenced by TGF-β and in dire need of new therapeutic approaches. We noted that statins reduced TGF-β activity, cell viability and invasiveness, Rho/ROCK activity, phosphorylation and activity of the TGF-β mediator Smad3, and expression of TGF-β targets ZYX and SERPINE1 in GBM and GBM-initiating cell (GIC) lines. Statins were most potent against GBM, GIC, and other cancer cells with high TGF-β activity, and exogenous TGF-β further sensitized mesenchymal GICs to statins. Statin toxicity was rescued by addition of exogenous mevalonolactone or geranylgeranyl pyrophosphate, indicating that the observed effects reflected inhibition of HMG CoA-reductase by the statins. Simvastatin significantly inhibited the growth of subcutaneous GIC grafts and prolonged survival in GIC intracranially grafted mice. These results indicate where the statins might best be applied as adjunct therapies in oncology, against GBM and other cancers with high TGF-β activity, and have implications for other statin roles outside of oncology.

[1]  K. Frei,et al.  Immunosuppression and transforming growth factor-beta in glioblastoma. Preferential production of transforming growth factor-beta 2. , 1989, Journal of immunology.

[2]  Ye Guang Chen,et al.  Lateral diffusion of TGF-β type I receptor studied by single-molecule imaging , 2007 .

[3]  G. Butti,et al.  Simvastatin, an inhibitor of cholesterol biosynthesis, shows a synergistic effect with N,N'-bis(2-chloroethyl)-N-nitrosourea and beta-interferon on human glioma cells. , 1992, Cancer research.

[4]  Qiulian Wu,et al.  MYC-Regulated Mevalonate Metabolism Maintains Brain Tumor-Initiating Cells. , 2017, Cancer research.

[5]  K. Kinzler,et al.  Characterization of human FAST-1, a TGF beta and activin signal transducer. , 1998, Molecular cell.

[6]  N. Plant,et al.  Inhibition of prenyltransferase activity by statins in both liver and muscle cell lines is not causative of cytotoxicity. , 2015, Toxicology.

[7]  G. Hatch,et al.  The mevalonate cascade as a target to suppress extracellular matrix synthesis by human airway smooth muscle. , 2011, American journal of respiratory cell and molecular biology.

[8]  J. Coffey,et al.  Simvastatin impairs smad‐3 phosphorylation and modulates transforming growth factor β1‐mediated activation of intestinal fibroblasts , 2009, The British journal of surgery.

[9]  K. Kohn,et al.  CellMiner: a web-based suite of genomic and pharmacologic tools to explore transcript and drug patterns in the NCI-60 cell line set. , 2012, Cancer research.

[10]  M. Weller,et al.  SD-208, a Novel Transforming Growth Factor β Receptor I Kinase Inhibitor, Inhibits Growth and Invasiveness and Enhances Immunogenicity of Murine and Human Glioma Cells In vitro and In vivo , 2004, Cancer Research.

[11]  X. Fang,et al.  Lateral diffusion of TGF-beta type I receptor studied by single-molecule imaging. , 2007, Biochemical and biophysical research communications.

[12]  R. Weissleder,et al.  Regulatory T cells suppress tumor-specific CD8 T cell cytotoxicity through TGF-β signals in vivo , 2005 .

[13]  G. Pilkington,et al.  Control of human glioma cell growth, migration and invasion in vitro by transforming growth factor beta 1. , 1994, British Journal of Cancer.

[14]  J. Baselga,et al.  TGF-β Receptor Inhibitors Target the CD44(high)/Id1(high) Glioma-Initiating Cell Population in Human Glioblastoma. , 2010, Cancer cell.

[15]  M. Chopp,et al.  TGF-β1 promotes motility and invasiveness of glioma cells through activation of ADAM17. , 2011, Oncology reports.

[16]  U. Igbavboa,et al.  Statins and neuroprotection , 2010, Annals of the New York Academy of Sciences.

[17]  L. Orci,et al.  Transforming growth factor-beta 1 modulates basic fibroblast growth factor-induced proteolytic and angiogenic properties of endothelial cells in vitro , 1990, The Journal of cell biology.

[18]  K. Kinzler,et al.  Characterization of human FAST-1, a TGFβ and activin signal transducer , 1998 .

[19]  M. Kitagawa,et al.  Geranylgeranyl-Pyrophosphate, an Isoprenoid of Mevalonate Cascade, Is a Critical Compound for Rat Primary Cultured Cortical Neurons to Protect the Cell Death Induced by 3-Hydroxy-3-Methylglutaryl-CoA Reductase Inhibition , 2000, The Journal of Neuroscience.

[20]  D. Samid,et al.  Lipid Metabolism as a Target for Brain Cancer Therapy: Synergistic Activity of Lovastatin and Sodium Phenylacetate Against Human Glioma Cells , 1996, Journal of neurochemistry.

[21]  K. McDonald,et al.  The current evidence of statin use affecting glioblastoma prognosis , 2017, Journal of Clinical Neuroscience.

[22]  J. Dichgans,et al.  Lovastatin and phenylacetate induce apoptosis, but not differentiation, in human malignant glioma cells , 2001, Acta Neuropathologica.

[23]  Ye Guang Chen,et al.  Specific Activation of Mitogen-activated Protein Kinase by Transforming Growth Factor-␤ Receptors in Lipid Rafts Is Required for Epithelial Cell Plasticity Transforming Growth Factor (tgf)-␤ Regulates a Spectrum of Cellular Events, including Cell Proliferation, Differentiation, and Migration. in Add , 2008 .

[24]  B. Aggarwal,et al.  Reversal of chemoresistance and enhancement of apoptosis by statins through down-regulation of the NF-kappaB pathway. , 2008, Biochemical pharmacology.

[25]  Jayoung Kim,et al.  Cholesterol targeting alters lipid raft composition and cell survival in prostate cancer cells and xenografts. , 2005, The Journal of clinical investigation.

[26]  William C Reinhold,et al.  CellMiner: a relational database and query tool for the NCI-60 cancer cell lines , 2009, BMC Genomics.

[27]  J. Burgos,et al.  Statins as neuroprotectants: a comparative in vitro study of lipophilicity, blood-brain-barrier penetration, lowering of brain cholesterol, and decrease of neuron cell death. , 2011, Journal of Alzheimer's disease : JAD.

[28]  S. Ghavami,et al.  Simvastatin inhibits TGFβ1-induced fibronectin in human airway fibroblasts , 2011, Respiratory research.

[29]  N. Kaminski,et al.  Zyxin Is a Transforming Growth Factor-β (TGF-β)/Smad3 Target Gene That Regulates Lung Cancer Cell Motility via Integrin α5β1* , 2012, The Journal of Biological Chemistry.