Quantitative analysis of EGFRvIII cellular signaling networks reveals a combinatorial therapeutic strategy for glioblastoma

Huang, Paul H.; Mukasa, Akitake; Bonavia, Rudy; Flynn, Ryan A.; Brewer, Zachary E.; Cavenee, Webster K.; Furnari, Frank B.; White, Forest M.

doi:10.1073/pnas.0705158104

Cited by 356 publications

(402 citation statements)

References 21 publications

(18 reference statements)

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“…As predicted by R.L. and Pawson 66 several years ago, new pharmaceutical strategies that target networks instead of single proteins are becoming available 47,48 . We predict this trend will not only continue, but also include recent advances that highlight the possibility to 'cure' networks using time-and order-dependent therapies 68 .…”

Section: Implications For Cancer Researchmentioning

confidence: 99%

“…In line with their importance, network-attacking mutations have attracted more attention in recent years [43][44][45][46][47][48] . Moreover, information has been accumulating steadily about how specificity in signaling networks and modular protein domains emerges [49][50][51] , leading to the definition of determinants of specificity in protein domains 52,53 .…”

Section: Personalized Cancer Network Biologymentioning

confidence: 99%

“…Combination drugs that interfere with disease networks (so-called network medicine 66 ) have been shown to lead to a better response than single-hit therapies by causing secondary perturbations to signaling networks 47,48,67 . Recent work by the Yaffe laboratory represents a clear leap forward within the field of network medicine 68,69 .…”

Section: P E R S P E C T I V Ementioning

confidence: 99%

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Navigating cancer network attractors for tumor-specific therapy

et al. 2012

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Section: Implications For Cancer Researchmentioning

confidence: 99%

Section: Personalized Cancer Network Biologymentioning

confidence: 99%

Section: P E R S P E C T I V Ementioning

confidence: 99%

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Navigating cancer network attractors for tumor-specific therapy

et al. 2012

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“…However, most current biomarker discovery is not taking this principle into consideration, which could have potentially dangerous implications. For example, should the phosphorylation site on JNK be used as a biomarker, it could have damaging consequences for the patient, as the context-dependent or multivariate nature of the regulation of this site would not be immediately apparent [13,22,23]. It could very well be that in a given patient or tumour context this site would be anti-apoptotic at a specific stage of disease progression.…”

Section: Future Biomarkers -Network Signaturesmentioning

confidence: 99%

“…Instead we encourage that the network models themselves should be deployed directly as markers. As we are moving towards multi-dimensional and integrative network models of cell behaviour, we expect that such models will be useful not just for determining network structures that can be targeted but also as predictive markers of disease emergence or progression [4,[22][23][24][25]. This will require robust quantitative network assays to become more widespread and userfriendly [21].…”

Section: Future Biomarkers -Network Signaturesmentioning

confidence: 99%

Network‐based drugs and biomarkers

Erler

Linding

2009

The Journal of Pathology

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The structure and dynamics of protein signalling networks governs cell decision processes and the formation of tissue boundaries. Complex diseases such as cancer and diabetes are diseases of such networks. Therefore approaches that can give insight into how these networks change during disease progression are crucial for better understanding, detection and intervention. The era of network medicine has begun; however, there are fundamental principles associated with molecular networks that are essential to consider for this field to succeed. Here, we introduce network biology and some of its associated technologies. We then focus on the multivariate nature of cellular networks and how this has implications for biomarker and drug discovery using cancer metastasis as an example.

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CNSCancers

Graeme

2010

Burger's Medicinal Chemistry and Drug Discovery

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CNS tumors represent a diverse collection of tumor types driven by a range of signaling inputs that often generate highly aggressive and at the same time heterogeneous tumor types. The effect of these tumors is particularly dramatic and impacts on children as well as adults. Malignant CNS tumors are characterized by being highly heterogeneous, aggressive, and frequently invasive, leading to poor overall patient survival times. As CNS tumors present within the nervous system, there are particular challenges in the development of effective molecular‐targeted therapies in dealing not only with the aggressive nature of these tumors and their ability to evade treatment but also, particularly, with maintaining normal neuronal and brain functions. Compounding this is the need to deliver systemically small molecules or other agents such as vaccines and for immunotherapy approaches to confront the complexity of the relationship between the nervous system and the immune system. Research to find effective treatments for CNS tumors is being facilitated by two key inputs both of which are reviewed in this chapter; first, a much greater understanding of tumor pathobiology and the potential role of developmental signaling pathways and tumor stem‐like cells, and by the development of animal models that more adequately represent endpoints measurable in the clinic. Together, these advances should assist in the selection of better targets and the optimization of better compounds to progress into clinical trials.

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Quantitative analysis of EGFRvIII cellular signaling networks reveals a combinatorial therapeutic strategy for glioblastoma

Cited by 356 publications

References 21 publications

Navigating cancer network attractors for tumor-specific therapy

Navigating cancer network attractors for tumor-specific therapy

Network‐based drugs and biomarkers

CNSCancers

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