Kadir C. Akdemir scite author profile

SUMMARY We describe the landscape of genomic alterations in cutaneous melanomas through DNA, RNA, and protein-based analysis of 333 primary and/or metastatic melanomas from 331 patients. We establish a framework for genomic classification into one of four subtypes based on the pattern of the most prevalent significantly mutated genes: mutant BRAF, mutant RAS, mutant NF1, and Triple-WT (wild-type). Integrative analysis reveals enrichment of KIT mutations and focal amplifications and complex structural rearrangements as a feature of the Triple-WT subtype. We found no significant outcome correlation with genomic classification, but samples assigned a transcriptomic subclass enriched for immune gene expression associated with lymphocyte infiltrate on pathology review and high LCK protein expression, a T cell marker, were associated with improved patient survival. This clinicopathological and multidimensional analysis suggests that the prognosis of melanoma patients with regional metastases is influenced by tumor stroma immunobiology, offering insights to further personalize therapeutic decision-making.

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Pan-cancer analysis of whole genomes

Campbell¹,

Getz²,

Korbel³

et al. 2020

Nature

2,308

1,333

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The pan-cancer analysis of whole genomes The expansion of whole-genome sequencing studies from individual ICGC and TCGA working groups presented the opportunity to undertake a meta-analysis of genomic features across tumour types. To achieve this, the PCAWG Consortium was established. A Technical Working Group implemented the informatics analyses by aggregating the raw sequencing data from different working groups that studied individual tumour types, aligning the sequences to the human genome and delivering a set of high-quality somatic mutation calls for downstream analysis (Extended Data Fig. 1). Given the recent meta-analysis

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Systematic analysis of telomere length and somatic alterations in 31 cancer types

et al. 2017

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Cancer cells survive cellular crisis through telomere maintenance mechanisms. We report telomere lengths in 18,430 samples, including tumors and non-neoplastic samples, across 31 cancer types. Tumor telomeres were shorter compared to normal tissues, and longer in sarcomas and gliomas compared to other cancers. Amongst 6,835 cancers, 73% expressed telomerase reverse transcriptase (TERT), which was associated with TERT point mutations, rearrangements, DNA amplifications, and transcript fusions, and predicted telomerase activity. TERT promoter methylation provided an additional deregulatory TERT expression mechanism. Five percent of cases, mostly with undetectable TERT, harbored ATRX or DAXX alterations, demonstrated elongated telomeres and increased telomeric repeat containing RNA (TERRA). The remaining 22% of tumors neither expressed TERT, nor harbored alterations in ATRX/DAXX. In this group, telomere length positively correlated with TP53 and RB1 mutations. Our analysis integrates TERT abnormalities, telomerase activity and genomic alterations with telomere length in cancer.

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TRIM24 links a non-canonical histone signature to breast cancer

Tsai

Wang

Yiu

et al. 2010

Nature

395

450

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Recognition of modified histone species by distinct structural domains within “reader” proteins plays a critical role in the regulation of gene expression. Readers that simultaneously recognize histones with multiple marks allow transduction of complex chromatin modification patterns into specific biological outcomes. Here, we report that chromatin regulator TRIM24 functions as a reader of dual histone marks via tandem Plant Homeodomain (PHD) and Bromodomain (Bromo). The three-dimensional structure of TRIM24 PHD-Bromo revealed a single functional unit for combinatorial recognition of unmodified H3K4 (H3K4me0) and acetylated H3K23 (H3K23ac) within the same histone tail. TRIM24 binds chromatin and estrogen receptor to activate estrogen-dependent genes associated with cellular proliferation and tumor development. Aberrant expression of TRIM24 negatively correlates with survival of breast cancer patients. The PHD-Bromo of TRIM24 provides a structural rationale for chromatin activation via a noncanonical histone signature, establishing a new paradigm by which chromatin readers may influence cancer pathogenesis.

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LncPRESS1 Is a p53-Regulated LncRNA that Safeguards Pluripotency by Disrupting SIRT6-Mediated De-acetylation of Histone H3K56

et al. 2016

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SUMMARY Recent evidence suggests that lncRNAs play an integral regulatory role in numerous functions, including determination of cellular identity. We determined global expression (RNA-seq) and genome wide profiles (ChIP-seq) of histone post-translational modifications and p53 binding in human embryonic stem cells (hESCs) undergoing differentiation to define a high-confidence set of 40 lncRNAs, which are p53 transcriptional targets. We focused on lncRNAs highly expressed in pluripotent hESCs and repressed by p53 during differentiation to identify lncPRESS1 as a p53-regulated transcript that maintains hESC pluripotency in concert with core pluripotency factors. RNA-seq of hESCs depleted of lncPRESS1 revealed that lncPRESS1 controls a gene network that promotes pluripotency. Further, we found that lncPRESS1 physically interacts with SIRT6 and prevents SIRT6 chromatin localization, which maintains high levels of histone H3K56 and H3K9 acetylation at promoters of pluripotency genes. In summary, we describe a p53-regulated, pluripotency-specific lncRNA that safeguards the hESC state by disrupting SIRT6 activity.

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Kadir C. Akdemir

Genomic Classification of Cutaneous Melanoma

Pan-cancer analysis of whole genomes

Systematic analysis of telomere length and somatic alterations in 31 cancer types

TRIM24 links a non-canonical histone signature to breast cancer

LncPRESS1 Is a p53-Regulated LncRNA that Safeguards Pluripotency by Disrupting SIRT6-Mediated De-acetylation of Histone H3K56

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