Analysis of 100,000 human cancer genomes reveals the landscape of tumor mutational burden

Chalmers, Zachary R.; Connelly, Caitlin; Fabrizio, David; Ali, Siraj M.; Ennis, Riley; Schrock, Alexa B.; Campbell, Brittany; Shlien, Adam; Chmielecki, Juliann; Huang, Franklin W.; He, Yuting; Sun, James; Tabori, Uri; Kennedy, Mark; Lieber, Daniel S.; Roels, Sarah; White, Jared; Otto, Geoffrey A.; Ross, Jeffrey S.; Garraway, Levi A.; Miller, Vincent A.; Stephens, P. J.; Frampton, Garrett M.

doi:10.1186/s13073-017-0424-2

Cited by 2,562 publications

(2,332 citation statements)

References 74 publications

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“…The last decade of cancer research has been significantly shaped by major advances in next-generation sequencing technologies that have led to the analysis of more than 100,000 whole cancer genomes [4]. Approximately 4 million coding mutations have been identified, defining 500 genes that act as functional cancer drivers [5,6], many of which participate in core cancer pathways [7].…”

Section: Identification Of Key Driver Mutations In Hematopoietic Cancermentioning

confidence: 99%

Emerging therapeutic targets in myeloproliferative neoplasms and peripheral T-cell leukemia and lymphomas

Orlova

Wingelhofer

Neubauer

et al. 2017

Expert Opinion on Therapeutic Targets

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Introduction: Hematopoietic neoplasms are often driven by gain-of-function mutations of the JAK-STAT pathway together with mutations in chromatin remodeling and DNA damage control pathways. The interconnection between the JAK-STAT pathway, epigenetic regulation or DNA damage control is still poorly understood in cancer cell biology. Areas covered: Here, we focus on a broader description of mutational insights into myeloproliferative neoplasms and peripheral T-cell leukemia and lymphomas, since sequencing efforts have identified similar combinations of driver mutations in these diseases covering different lineages. We summarize how these pathways might be interconnected in normal or cancer cells, which have lost differentiation capacity and drive oncogene transcription. Expert opinion: Due to similarities in driver mutations including epigenetic enzymes, JAK-STAT pathway activation and mutated checkpoint control through TP53, we hypothesize that similar therapeutic approaches could be of benefit in these diseases. We give an overview of how driver mutations in these malignancies contribute to hematopoietic cancer initiation or progression, and how these pathways can be targeted with currently available tools.

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Section: Identification Of Key Driver Mutations In Hematopoietic Cancermentioning

confidence: 99%

Emerging therapeutic targets in myeloproliferative neoplasms and peripheral T-cell leukemia and lymphomas

Orlova

Wingelhofer

Neubauer

et al. 2017

Expert Opinion on Therapeutic Targets

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“…Synonymous mutations were counted after filtering to reduce sampling noise and as an attempt to capture mutational processes contributing to neoantigen generation. 20 Noncoding alterations, alterations listed as "known somatic alterations" in the Catalogue of Somatic Mutations in Cancer database, alterations predicted to be germ line by the somatic-germ line-zygosity algorithm, known germ line alterations in the Single Nucleotide Polymorphism database, and germ line alterations occurring with $2 counts in the Exome Aggregation Consortium database were filtered and not counted. A breakdown of the total mutation count in each sample and the mutation load per Mb can be found in supplemental Table 1.…”

Section: Methodsmentioning

confidence: 99%

“…In addition to identifying a number of potentially deleterious mutations, the FoundationOne Heme platform was also used to estimate mutation load (per megabase) using Foundation Medicine's mutation load algorithm. 6,20 To estimate mutation load, base substitutions and indels within a 1.2-Mb region were identified by DNA sequencing; any alteration known or likely to be associated with tumorigenesis was removed, because the F1H assay is biased toward functional mutations in cancer. Synonymous mutations were counted after filtering to reduce sampling noise and as an attempt to capture mutational processes contributing to neoantigen generation.…”

Section: Methodsmentioning

confidence: 99%

Mutation load and an effector T-cell gene signature may distinguish immunologically distinct and clinically relevant lymphoma subsets

Bolen¹,

McCord²,

Huet

et al. 2017

Blood Advances

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“…In this context, a correlation between mutational load - a surrogate marker for tumor neoantigen load - and outcome upon the blockage of T-cell checkpoint inhibitors has been observed in NSCLC [6] and other indications. In the meantime, an extensive investigation described the distribution of tumor mutational burden across a diverse cohort of 100,000 cancer cases and tested for association between somatic alterations and tumor mutational burden in over 100 tumor types [7]. …”

Section: Immuno-oncologymentioning

confidence: 99%

Precision Medicine in Oncology and Immuno-Oncology: Where We Stand and Where We're Headed

Scheuenpflug

2017

Biomed Hub

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Background/Aims: Precision medicine has only been a clinical reality only since the start of the 21st century, spurred on by the coevolution of science and technologies, as well as the increasing medical needs of aging societies of industrialized countries. Its overarching objective, from the perspective of the pharmaceutical and diagnostic industry, is to develop innovative therapeutic “concepts” with increased value for patients in a global health economy context. This article analyzes the recent advances and remaining challenges from a research, medical, and regulatory perspective in the development and introduction of precision medicine in oncology, more precisely in immuno-oncology. Methods: Analysis of the most recent scientific publications and clinical evidence. Results and Conclusion: Stakeholders need to combine efforts in order to turn scientific insights, such as those related to predictive biomarkers, into superior and affordable therapeutic concepts. Policymakers should also help to bring this about by ensuring that a suitable regulatory framework and incentive system are in place in order to encourage groundbreaking innovation, and hence the availability of new treatment options for patients.

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Analysis of 100,000 human cancer genomes reveals the landscape of tumor mutational burden

Cited by 2,562 publications

References 74 publications

Emerging therapeutic targets in myeloproliferative neoplasms and peripheral T-cell leukemia and lymphomas

Emerging therapeutic targets in myeloproliferative neoplasms and peripheral T-cell leukemia and lymphomas

Mutation load and an effector T-cell gene signature may distinguish immunologically distinct and clinically relevant lymphoma subsets

Precision Medicine in Oncology and Immuno-Oncology: Where We Stand and Where We're Headed

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