The Genomic Landscapes of Human Breast and Colorectal Cancers

Wood, Laura D.; Parsons, D. Williams; Jones, Siân; Lin, Jimmy; Sjöblom, Tobias; Leary, Rebecca J.; Shen, Dong; Boca, Simina M.; Barber, Thomas D.; Ptak, Janine; Silliman, Natalie; Szabo, Steve; Dezső, Zoltán; Ustyanksky, Vadim; Nikolskaya, Tatiana; Nikolsky, Yuri; Karchin, Rachel; Wilson, Paul; Kaminker, Joshua S.; Zhang, Zemin; Croshaw, Randal; Willis, Joseph E.; Dawson, Dawn M.; Shipitsin, Michail; Willson, James K.V.; Sukumar, Saraswati; Polyák, Kornélia; Park, Ben Ho; Pethiyagoda, Charit L.; Pant, Poonam; Ballinger, Dennis G.; Sparks, Andrew B.; Hartigan, James; Smith, Douglas R.; Suh, Erick; Papadopoulos, Nickolas; Buckhaults, Phillip; Markowitz, Sanford D.; Parmigiani, Giovanni; Kinzler, Kenneth W.; Velculescu, Victor E.; Vogelstein, Bert

doi:10.1126/science.1145720

Cited by 2,701 publications

(2,537 citation statements)

References 31 publications

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“…45 After the completion of the Human Genome Project, 1 cancer cells have been investigated by hybridizationbased technologies, at both the genomic and the transcriptomic level. Array comparative genome hybridization -combining the genomewide coverage of chromosome banding and the high resolution of fluorescent in situ hybridization (FISH) -has allowed to detect a large number of microscopic and submicroscopic chromosomal abnormalities with clear advantages over conventional analyses.…”

Section: Rna-seq In Cancermentioning

confidence: 99%

RNA-Seq and human complex diseases: recent accomplishments and future perspectives

et al. 2012

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Section: Rna-seq In Cancermentioning

confidence: 99%

RNA-Seq and human complex diseases: recent accomplishments and future perspectives

et al. 2012

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“…In contrast, a vast majority of solid cancers display multiple (epi)genetic alterations and somatic mutations that increase during progression (Shah et al, 2009), involving not only coding sequences but also non-coding RNAs. Furthermore, o10% of (epi)mutations found in tumors are indeed 'driver' mutations causally involved in tumorigenesis, whereas the rest are 'passenger' mutations that neither contribute to the onset nor to the development of the disease (Greenman et al, 2007;Wood et al, 2007). It is conceivable that tumor cells become independent of the initial (epi)mutation(s) as a result of the inherent genetic instability.…”

Section: Current Therapeutic Paradigms To Treat Cancermentioning

confidence: 99%

“…This process shapes each tumor in such a dynamic and unique way that it is extremely difficult to determine the alterations that cause, maintain and spread the disease (Greenman et al, 2007;Wood et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

Towards novel paradigms for cancer therapy

et al. 2010

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Cancer is a complex progressive multistep disorder that results from the accumulation of genetic and epigenetic abnormalities, which lead to the transformation of normal cells into malignant derivatives. Despite enormous progress in the understanding of cancer biology including the decryption of multiple regulatory networks governing cell growth and death, and despite the possibility of analyzing (epi)genetic deregulation at the genome-wide scale, cancertargeted therapy is still the exception. In fact, to date there are still far too few examples of therapies leading to cure; treatment-derived toxicity is a major issue, and cancer remains to be one of the largest causes of death worldwide. The purpose of this review is to discuss the state of the art of cancer therapy with respect to the key issue of any treatment, namely its target selectivity. Therefore, we recapitulate and discuss current concepts and therapies targeting tumorspecific features, including oncofusion proteins, aberrant kinase activities and epigenetic tumor makeup. We analyze strategies designed to induce tumor-selective death such as the use of oncolytic virus, tumoricidal proteins (NS1, Eorf4, apoptin, HAMLET (human a-lactalbumin made lethal to tumor cells)) and activation of signaling pathways involved in tumor surveillance. We emphasize the potential of the tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) pathway, an essential component of the evolutionary developed defense systems that eradicate malignant cells. Finally, we discuss the necessity of targeting tumor-initiating cells (TICs) to avoid relapse and increase the chances of complete remission, and describe emerging concepts that might provide novel avenues for cancer therapy.

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“…This transformation has been driven in part by development of new technologies for high-throughput data acquisition that now make it possible to sequence genomes (Metzker, 2009), and to measure RNA (Wang et al, 2009) and protein (Maerkl, 2011) expression levels with ever increasing accuracy and lower cost. These extraordinary achievements have contributed to advances in genetic medicine (Amberger et al, 2009) and the discovery of gene and protein signatures of disease (Wood et al, 2007; Hanash and Taguchi, 2010; Addona et al, 2011; Cancer Genome Atlas Research Network, 2011; Heidecker et al, 2011; Majewski and Bernards, 2011). There is, however, growing recognition that the tabulation of molecular building blocks from which biological systems are composed is not sufficient for understanding the functional properties of these systems.…”

Section: Overviewmentioning

confidence: 99%

Grand Challenges in Computational Physiology and Medicine

Winslow¹

2011

Front. Physio.

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The Genomic Landscapes of Human Breast and Colorectal Cancers

Cited by 2,701 publications

References 31 publications

RNA-Seq and human complex diseases: recent accomplishments and future perspectives

RNA-Seq and human complex diseases: recent accomplishments and future perspectives

Towards novel paradigms for cancer therapy

Grand Challenges in Computational Physiology and Medicine

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