A Hypermutation Phenotype and Somatic <i>MSH6</i> Mutations in Recurrent Human Malignant Gliomas after Alkylator Chemotherapy

Hunter, Chris; Smith, Raffaella; Cahill, Daniel P.; Stephens, Philip J.; Stevens, C; Teague, Jon W.; Greenman, Chris; Edkins, Sarah; Bignell, Graham R.; Davies, Helen; O’Meara, Sarah; Parker, Adrian; Avis, Tim; Barthorpe, Syd; Brackenbury, Lisa; Buck, Gemma; Butler, Adam; Clements, Jody; Cole, Jennifer; Dicks, Ed; Forbes, Simon; Gorton, Matthew; Gray, Kristian; Halliday, Kelly; Harrison, Rachel; Hills, Katy; Hinton, Jonathon; Jenkinson, Andy; Jones, David R.; Kosmidou, Vivienne; Laman, Ross; Lugg, Richard; Menzies, Andrew; Perry, Janet; Petty, Robert; Raine, Keiran; Richardson, David; Shepherd, Rebecca; Small, Alex; Solomon, Helen; Tofts, Calli; Varian, Jennifer; West, Sofie; Widaa, Sara; Yates, Andy; Easton, Douglas F.; Riggins, Gregory J.; Roy, Jennifer E.; Levine, Kymberly K.; Mueller, Wolf; Batchelor, Tracy T.; Louis, David N.; Stratton, Michael R.; Futreal, P. Andrew; Wooster, Richard

doi:10.1158/0008-5472.can-06-0127

Cited by 396 publications

(360 citation statements)

References 19 publications

(29 reference statements)

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“…MGMT expression in GBM occurs in approximately 40% to 50% of patients with GBM, yet temozolomide resistance is almost universal, demonstrating that other mechanisms of temozolomide resistance are operating (17,45,46). MMR deficiencies are also documented in recurrent patients with GBM (19,20,47). As much as 25% of recurrent GBMs exhibit MMR deficiencies (48).…”

Section: Discussionmentioning

confidence: 99%

NEO212, Temozolomide Conjugated to Perillyl Alcohol, Is a Novel Drug for Effective Treatment of a Broad Range of Temozolomide-Resistant Gliomas

Cho¹,

Wang²,

Jhaveri³

et al. 2014

Molecular Cancer Therapeutics

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Patients with glioblastoma multiforme (GBM), a malignant primary brain tumor, inevitably develop resistance to standard-of-care chemotherapy, temozolomide. This study explores the effects of the novel agent NEO212, a conjugate of temozolomide to perillyl alcohol, on temozolomide-resistant gliomas. NEO212 was tested for cytotoxic activity on three human temozolomide-resistant glioma cell lines, which were resistant to temozolomide based on overexpression of the base excision repair (BER) pathway, mismatch repair (MMR) deficiency, or overexpression of O 6 methyl-guanine-DNA methyltransferase (MGMT). BER expression was evaluated by Western blotting and PARP activity. MMR deficiency was determined by Western blotting and microsatellite instability. MGMT overexpression was evaluated by Western blotting and O 6 -benzylguanine (O 6 BG) inhibition. For in vivo evaluation of NEO212, temozolomide-resistant glioma cells were implanted into immune-incompetent mice, and NEO212 was administered. NEO212, at equimolar concentrations of temozolomide, was more cytotoxic for temozolomideresistant cells than temozolomide and not toxic to normal cells. NEO212-induced cell death in temozolomide-resistant glioma cells was independent of such mechanisms of resistance as high levels of MGMT, MMR deficiencies, or overexpression of BER proteins. NEO212 functions as a DNA alkylating agent, similar to temozolomide; however, this novel conjugate is unique for it may induce endoplasmic reticulum (ER) stress and inhibits autophagy. In vivo studies show that NEO212 reduces intracranial tumor growth and increases animal survival without significant toxicity. These results demonstrate that NEO212 is an effective drug against malignant gliomas that can be used for a broad range of newly diagnosed and temozolomide-resistant gliomas.

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Section: Discussionmentioning

confidence: 99%

NEO212, Temozolomide Conjugated to Perillyl Alcohol, Is a Novel Drug for Effective Treatment of a Broad Range of Temozolomide-Resistant Gliomas

Cho¹,

Wang²,

Jhaveri³

et al. 2014

Molecular Cancer Therapeutics

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“…13 Clonal evolution is also supported by findings that various drug-resistant clones are observed after some cancer therapies, such as treatment with the alkylating agent temozolomide or the tyrosine kinase inhibitor imatinib. [57][58] Finally, several studies of various cancers have shown that the patterns of genetic alterations seen between primary tumors, metastases, and recurrences match what is expected from clonal evolution. Within individual patients, most mutations in primary tumors and metastases are identical, but some are unique to each; increasing degree of tumor cell chromosomal aberration correlates with more malignant properties; and recurrences contain the mutations seen before in primary tumors along with additional ones.…”

Section: The Cancer Stem Cell Hypothesismentioning

confidence: 93%

Breast Tumor Heterogeneity: Cancer Stem Cells or Clonal Evolution?

Campbell

Polyák²

2007

Cell Cycle

365

272

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Breast tumors are composed of a variety of cell types with distinct morphologies and behaviors. It is not clear how this tumor heterogeneity comes about. Two popular concepts that attempt to explain this are the cancer stem cell hypothesis and the clonal evolution model. Each of these ideas has been investigated for some time, leading to the accumulation of numerous findings that are used to support one or the other. Although the two views share some similarities, they are fundamentally different notions with very different clinical implications. Analysis of the research backing each concept, along with a review of the results of our recent study investigating putative breast cancer stem cells, suggests how the cancer stem cell hypothesis and the clonal evolution model may be involved in generating breast tumor heterogeneity. An understanding of this process will allow the development of more effective ways to treat and prevent breast cancer.

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“…Although elevation of AKT activity is seen more frequently than PTEN mutation in gliomas and medulloblastomas (Schlegel et al, 2002;Hartmann et al, 2006), mutations causing increased activity of any AKT isoform have not been observed frequently. AKT1 amplification has been reported in various human cancers, including a single case of gliosarcoma (Knobbe and Reifenberger, 2003) and AKT3 mutation has been reported in a single case of glioma (Hunter et al, 2006); however, the consequence of this missense mutation (G171R) on the activity of the enzyme is unknown. While AKT2 amplification has been observed frequently in head and neck tumors, as well as pancreatic, ovarian and breast cancers (Bellacosa et al, 1995;Cheng et al, 1996;Pedrero et al, 2005;Nakayama et al, 2006), it has not yet been described in primary human brain tumors, although studies indicate it may be overexpressed and drive tumorigenicity in some glioma cell lines (Pu et al, 2006).…”

Section: Pi3k Pathway Involvement In Brain Tumorsmentioning

confidence: 99%