Sonja J. Heidorn scite author profile

Clinical responses to anticancer therapies are often restricted to a subset of patients. In some cases, mutated cancer genes are potent biomarkers of response to targeted agents. To uncover new biomarkers of sensitivity and resistance to cancer therapeutics, we screened a panel of several hundred cancer cell lines, which represent much of the tissue-type and genetic diversity of human cancers, with 130 drugs under clinical and preclinical investigation. In aggregate, we found mutated cancer genes were associated with cellular response to most currently available cancer drugs. Classic oncogene addiction paradigms were modified by additional tissue-specific or expression biomarkers, and some frequently mutated genes were associated with sensitivity to a broad range of therapeutic agents. Unexpected relationships were revealed, including the marked sensitivity of Ewing’s sarcoma cells harboring the EWS-FLI1 gene translocation to PARP inhibitors. By linking drug activity to the functional complexity of cancer genomes, systematic pharmacogenomic profiling in cancer cell lines provides a powerful biomarker discovery platform to guide rational cancer therapeutic strategies.

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Kinase-Dead BRAF and Oncogenic RAS Cooperate to Drive Tumor Progression through CRAF

Heidorn

Milagre

Whittaker

et al. 2010

Cell

1,325

1,240

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SummaryWe describe a mechanism of tumorigenesis mediated by kinase-dead BRAF in the presence of oncogenic RAS. We show that drugs that selectively inhibit BRAF drive RAS-dependent BRAF binding to CRAF, CRAF activation, and MEK–ERK signaling. This does not occur when oncogenic BRAF is inhibited, demonstrating that BRAF inhibition per se does not drive pathway activation; it only occurs when BRAF is inhibited in the presence of oncogenic RAS. Kinase-dead BRAF mimics the effects of the BRAF-selective drugs and kinase-dead Braf and oncogenic Ras cooperate to induce melanoma in mice. Our data reveal another paradigm of BRAF-mediated signaling that promotes tumor progression. They highlight the importance of understanding pathway signaling in clinical practice and of genotyping tumors prior to administering BRAF-selective drugs, to identify patients who are likely to respond and also to identify patients who may experience adverse effects.PaperClip

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Nilotinib and MEK Inhibitors Induce Synthetic Lethality through Paradoxical Activation of RAF in Drug-Resistant Chronic Myeloid Leukemia

et al. 2011

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Summary We show that imatinib, nilotinib and dasatinib possess weak off-target activity against RAF and therefore drive paradoxical activation of BRAF and CRAF in a RAS-dependent manner. Critically, since RAS is activated by BCR-ABL, in drug-resistant chronic myeloid leukemia (CML) cells RAS activity persists in the presence of these drugs, driving paradoxical activation of BRAF, CRAF, MEK and ERK, and leading to an unexpected dependency on the pathway. Consequently, nilotinib synergizes with MEK inhibitors to kill drug-resistant CML cells and block tumor growth in mice. Thus, we show that imatinib, nilotinib and dasatinib drive paradoxical RAF/MEK/ERK pathway activation and have uncovered a synthetic lethal interaction that can be used to kill drug-resistant CML cell in vitro and in vivo.

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Raf Inhibitors Target Ras Spatiotemporal Dynamics

et al. 2012

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35 The Genomics of Drug Sensitivity in Cancer

Stratton¹,

Garnett²,

Heidorn³

et al. 2012

European Journal of Cancer

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Sonja J. Heidorn

Systematic identification of genomic markers of drug sensitivity in cancer cells

Kinase-Dead BRAF and Oncogenic RAS Cooperate to Drive Tumor Progression through CRAF

Nilotinib and MEK Inhibitors Induce Synthetic Lethality through Paradoxical Activation of RAF in Drug-Resistant Chronic Myeloid Leukemia

Raf Inhibitors Target Ras Spatiotemporal Dynamics

35 The Genomics of Drug Sensitivity in Cancer

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