Deep Learning Implicitly Handles Tissue Specific Phenomena to Predict Tumor DNA Accessibility and Immune Activity

Kamil Wnuk; Jeremi Sudol; Kevin B. Givechian; Patrick Soon-Shiong; Shahrooz Rabizadeh; Christopher Szeto; Charles Vaske

iScience (Oct 2019)

Deep Learning Implicitly Handles Tissue Specific Phenomena to Predict Tumor DNA Accessibility and Immune Activity

Kamil Wnuk,
Jeremi Sudol,
Kevin B. Givechian,
Patrick Soon-Shiong,
Shahrooz Rabizadeh,
Christopher Szeto,
Charles Vaske

Affiliations

Kamil Wnuk: ImmunityBio Inc., Culver City, CA 90232, USA; Corresponding author
Jeremi Sudol: ImmunityBio Inc., Culver City, CA 90232, USA
Kevin B. Givechian: NantOmics LLC, Culver City, CA 90232, USA
Patrick Soon-Shiong: ImmunityBio Inc., Culver City, CA 90232, USA
Shahrooz Rabizadeh: ImmunityBio Inc., Culver City, CA 90232, USA
Christopher Szeto: ImmunityBio Inc., Santa Cruz, CA 95060, USA
Charles Vaske: ImmunityBio Inc., Santa Cruz, CA 95060, USA

Journal volume & issue: Vol. 20
pp. 119 – 136

Abstract

Read online

Summary: DNA accessibility is a key dynamic feature of chromatin regulation that can potentiate transcriptional events and tumor progression. To gain insight into chromatin state across existing tumor data, we improved neural network models for predicting accessibility from DNA sequence and extended them to incorporate a global set of RNA sequencing gene expression inputs. Our expression-informed model expanded the application domain beyond specific tissue types to tissues not present in training and achieved consistently high accuracy in predicting DNA accessibility at promoter and promoter flank regions. We then leveraged our new tool by analyzing the DNA accessibility landscape of promoters across The Cancer Genome Atlas. We show that in lung adenocarcinoma the accessibility perspective uniquely highlights immune pathways inversely correlated with a more open chromatin state and that accessibility patterns learned from even a single tumor type can discriminate immune inflammation across many cancers, often with direct relation to patient prognosis. : Bioinformatics; Neural Networks; Cancer Subject Areas: Bioinformatics, Neural Networks, Cancer

Published in iScience

ISSN: 2589-0042 (Online)
Publisher: Elsevier
Country of publisher: United States
LCC subjects: Science
Website: http://www.cell.com/iscience/home

About the journal