Spatial Epitranscriptomics Reveals A-to-I Editome Specific to Cancer Stem Cell Microniches

Overview

Journal Nat Commun

Specialty Biology

Date 2022 May 9

PMID 35534484

Authors

Amos C Lee

Yongju Lee

Ahyoun Choi

Han-Byoel Lee

Kyoungseob Shin

Hyunho Lee

Ji Young Kim

Han Suk Ryu

Hoe Suk Kim

Seung Yeon Ryu

Sangeun Lee

Jong-Ho Cheun

Duck Kyun Yoo

Sumin Lee

Hansol Choi

Taehoon Ryu

Huiran Yeom

Namphil Kim

Jinsung Noh

Yonghee Lee

Inyoung Kim

Sangwook Bae

Jinhyun Kim

Wooseok Lee

Okju Kim

Yushin Jung

Changhoe Kim

Seo Woo Song

Yeongjae Choi

Junho Chung

Byung Gee Kim

Wonshik Han

Sunghoon Kwon

Affiliations

Soon will be listed here.

Abstract

Epitranscriptomic features, such as single-base RNA editing, are sources of transcript diversity in cancer, but little is understood in terms of their spatial context in the tumour microenvironment. Here, we introduce spatial-histopathological examination-linked epitranscriptomics converged to transcriptomics with sequencing (Select-seq), which isolates regions of interest from immunofluorescence-stained tissue and obtains transcriptomic and epitranscriptomic data. With Select-seq, we analyse the cancer stem cell-like microniches in relation to the tumour microenvironment of triple-negative breast cancer patients. We identify alternative splice variants, perform complementarity-determining region analysis of infiltrating T cells and B cells, and assess adenosine-to-inosine base editing in tumour tissue sections. Especially, in triple-negative breast cancer microniches, adenosine-to-inosine editome specific to different microniche groups is identified.

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