Uncovering and characterizing splice variants associated with survival in lung cancer patients

West, Sean; Kumar, Sushil; Batra, Surinder K.; Ali, Hesham; Ghersi, Dario

doi:10.1101/623876

2019

DOI: 10.1101/623876

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Uncovering and characterizing splice variants associated with survival in lung cancer patients

Sean West

Sushil Kumar

Surinder K. Batra

et al.

Abstract: Splice variants have been shown to play an important role in tumor initiation and progression and can serve as novel cancer biomarkers. However, the clinical importance of individual splice variants and the mechanisms by which they can perturb cellular functions are still poorly understood. To address these issues, we developed an efficient and robust computational method to: (1) identify splice variants that are associated with patient survival in a statistically significant manner; and (2) predict rewired pr… Show more

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In Vivo Validation of Alternative FDXR Transcripts in Human Blood in Response to Ionizing Radiation

Cruz-García

O’Brien

Sipos

et al. 2020

IJMS

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Following cell stress such as ionising radiation (IR) exposure, multiple cellular pathways are activated. We recently demonstrated that ferredoxin reductase (FDXR) has a remarkable IR-induced transcriptional responsiveness in blood. Here, we provided a first comprehensive FDXR variant profile following DNA damage. First, specific quantitative real-time polymerase chain reaction (qPCR) primers were designed to establish dose-responses for eight curated FDXR variants, all up-regulated after IR in a dose-dependent manner. The potential role of gender on the expression of these variants was tested, and neither the variants response to IR nor the background level of expression was profoundly affected; moreover, in vitro induction of inflammation temporarily counteracted IR response early after exposure. Importantly, transcriptional up-regulation of these variants was further confirmed in vivo in blood of radiotherapy patients. Full-length nanopore sequencing was performed to identify other FDXR variants and revealed the high responsiveness of FDXR-201 and FDXR-208. Moreover, FDXR-218 and FDXR-219 showed no detectable endogenous expression, but a clear detection after IR. Overall, we characterised 14 FDXR transcript variants and identified for the first time their response to DNA damage in vivo. Future studies are required to unravel the function of these splicing variants, but they already represent a new class of radiation exposure biomarkers.

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In Vivo Validation of Alternative FDXR Transcripts in Human Blood in Response to Ionizing Radiation

Cruz-García

O’Brien

Sipos

et al. 2020

IJMS

View full text Add to dashboard Cite

show abstract

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Uncovering and characterizing splice variants associated with survival in lung cancer patients

Cited by 1 publication

References 39 publications

In Vivo Validation of Alternative FDXR Transcripts in Human Blood in Response to Ionizing Radiation

In Vivo Validation of Alternative FDXR Transcripts in Human Blood in Response to Ionizing Radiation

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