Your search keyword '"Kunisaki, Jason"' showing total 4 results

1. Integrated analysis of genomic and transcriptomic data for the discovery of splice-associated variants in cancer.

Author

Cotto, Kelsy C., Feng, Yang-Yang, Ramu, Avinash, Richters, Megan, Freshour, Sharon L., Skidmore, Zachary L., Xia, Huiming, McMichael, Joshua F., Kunisaki, Jason, Campbell, Katie M., Chen, Timothy Hung-Po, Rozycki, Emily B., Adkins, Douglas, Devarakonda, Siddhartha, Sankararaman, Sumithra, Lin, Yiing, Chapman, William C., Maher, Christopher A., Arora, Vivek, and Dunn, Gavin P.

Subjects

GENOMICS, RNA splicing, SOMATIC mutation, TRANSCRIPTOMES, INTEGRATED software, DNA sequencing

Abstract

Somatic mutations within non-coding regions and even exons may have unidentified regulatory consequences that are often overlooked in analysis workflows. Here we present RegTools (www.regtools.org), a computationally efficient, free, and open-source software package designed to integrate somatic variants from genomic data with splice junctions from bulk or single cell transcriptomic data to identify variants that may cause aberrant splicing. We apply RegTools to over 9000 tumor samples with both tumor DNA and RNA sequence data. RegTools discovers 235,778 events where a splice-associated variant significantly increases the splicing of a particular junction, across 158,200 unique variants and 131,212 unique junctions. To characterize these somatic variants and their associated splice isoforms, we annotate them with the Variant Effect Predictor, SpliceAI, and Genotype-Tissue Expression junction counts and compare our results to other tools that integrate genomic and transcriptomic data. While many events are corroborated by the aforementioned tools, the flexibility of RegTools also allows us to identify splice-associated variants in known cancer drivers, such as TP53, CDKN2A, and B2M, and other genes. Analysing the regulatory consequences of mutations and splice variants at large scale in cancer requires efficient computational tools. Here, the authors develop RegTools, a software package that can identify splice-associated variants from large-scale genomics and transcriptomics data with efficiency and flexibility. [ABSTRACT FROM AUTHOR]

Published

2023

2. Author Correction: The prognostic effects of somatic mutations in ER-positive breast cancer.

Author

Griffith, Obi L., Spies, Nicholas C., Anurag, Meenakshi, Griffith, Malachi, Luo, Jingqin, Tu, Dongsheng, Yeo, Belinda, Kunisaki, Jason, Miller, Christopher A, Krysiak, Kilannin, Hundal, Jasreet, Ainscough, Benjamin J, Skidmore, Zachary L., Campbell, Katie, Kumar, Runjun, Fronick, Catrina, Cook, Lisa, Snider, Jacqueline E., Davies, Sherri, and Kavuri, Shyam M.

Abstract

The original version of this Article contained errors in the depiction of confidence intervals in the NF1 BCSS data illustrated in Figure 3b. These have now been corrected in both the PDF and HTML versions of the Article. The incorrect version of Figure 3b is presented in the associated Author Correction. [ABSTRACT FROM AUTHOR]

Published

2018

3. Recurrent WNT pathway alterations are frequent in relapsed small cell lung cancer.

Author

Wagner, Alex H., Devarakonda, Siddhartha, Skidmore, Zachary L., Krysiak, Kilannin, Ramu, Avinash, Trani, Lee, Kunisaki, Jason, Masood, Ashiq, Waqar, Saiama N., Spies, Nicholas C., Morgensztern, Daniel, Waligorski, Jason, Ponce, Jennifer, Fulton, Robert S., Maggi, Leonard B., Weber, Jason D., Watson, Mark A., O’Conor, Christopher J., Ritter, Jon H., and Olsen, Rachelle R.

Abstract

Nearly all patients with small cell lung cancer (SCLC) eventually relapse with chemoresistant disease. The molecular mechanisms driving chemoresistance in SCLC remain un-characterized. Here, we describe whole-exome sequencing of paired SCLC tumor samples procured at diagnosis and relapse from 12 patients, and unpaired relapse samples from 18 additional patients. Multiple somatic copy number alterations, including gains in ABCC1 and deletions in MYCL, MSH2, and MSH6, are identifiable in relapsed samples. Relapse samples also exhibit recurrent mutations and loss of heterozygosity in regulators of WNT signaling, including CHD8 and APC. Analysis of RNA-sequencing data shows enrichment for an ASCL1-low expression subtype and WNT activation in relapse samples. Activation of WNT signaling in chemosensitive human SCLC cell lines through APC knockdown induces chemoresistance. Additionally, in vitro-derived chemoresistant cell lines demonstrate increased WNT activity. Overall, our results suggest WNT signaling activation as a mechanism of chemoresistance in relapsed SCLC. Small cell lung cancer (SCLC) patients frequently relapse and become resistant to chemotherapy. Here, the authors analyse the genomic and transcriptomic landscape of primary and relapsed SCLC patients as well as in vitro models, and discover that activation of WNT signalling can drive chemotherapy resistance. [ABSTRACT FROM AUTHOR]

Published

2018

4. The prognostic effects of somatic mutations in ER-positive breast cancer.

Author

Griffith, Obi L., Spies, Nicholas C., Anurag, Meenakshi, Griffith, Malachi, Luo, Jingqin, Tu, Dongsheng, Yeo, Belinda, Kunisaki, Jason, Miller, Christopher A, Krysiak, Kilannin, Hundal, Jasreet, Ainscough, Benjamin J, Skidmore, Zachary L., Campbell, Katie, Kumar, Runjun, Fronick, Catrina, Cook, Lisa, Snider, Jacqueline E., Davies, Sherri, and Kavuri, Shyam M.

Abstract

Here we report targeted sequencing of 83 genes using DNA from primary breast cancer samples from 625 postmenopausal (UBC-TAM series) and 328 premenopausal (MA12 trial) hormone receptor-positive (HR+) patients to determine interactions between somatic mutation and prognosis. Independent validation of prognostic interactions was achieved using data from the METABRIC study. Previously established associations between MAP3K1 and PIK3CA mutations with luminal A status/favorable prognosis and TP53 mutations with Luminal B/non-luminal tumors/poor prognosis were observed, validating the methodological approach. In UBC-TAM, NF1 frame-shift nonsense (FS/NS) mutations were also a poor outcome driver that was validated in METABRIC. For MA12, poor outcome associated with PIK3R1 mutation was also reproducible. DDR1 mutations were strongly associated with poor prognosis in UBC-TAM despite stringent false discovery correction (q = 0.0003). In conclusion, uncommon recurrent somatic mutations should be further explored to create a more complete explanation of the highly variable outcomes that typifies ER+ breast cancer. Unravelling the link between somatic mutation and prognosis in estrogen positive (ER+) breast cancer requires the use of long-term follow-up data. Here, combining archival formalin-fixed paraffin embedded tissue and targeted sequencing in three cohorts of ER+ breast cancer, the authors find associations with clinical outcome for NF1 frame-shift nonsense mutations, PIK3R1 mutation, and DDR1 mutations. [ABSTRACT FROM AUTHOR]

Published

2018