TY - JOUR
T1 - An atlas of transcribed enhancers across helper T cell diversity for decoding human diseases
AU - ITEC Consortium
AU - Oguchi, Akiko
AU - Suzuki, Akari
AU - Komatsu, Shuichiro
AU - Yoshitomi, Hiroyuki
AU - Bhagat, Shruti
AU - Son, Raku
AU - Bonnal, Raoul Jean Pierre
AU - Kojima, Shohei
AU - Koido, Masaru
AU - Takeuchi, Kazuhiro
AU - Myouzen, Keiko
AU - Inoue, Gyo
AU - Hirai, Tomoya
AU - Sano, Hiromi
AU - Takegami, Yujiro
AU - Kanemaru, Ai
AU - Yamaguchi, Itaru
AU - Ishikawa, Yuki
AU - Tanaka, Nao
AU - Hirabayashi, Shigeki
AU - Konishi, Riyo
AU - Sekito, Sho
AU - Inoue, Takahiro
AU - Kere, Juha
AU - Takeda, Shunichi
AU - Takaori-Kondo, Akifumi
AU - Endo, Itaru
AU - Kawaoka, Shinpei
AU - Kawaji, Hideya
AU - Ishigaki, Kazuyoshi
AU - Ueno, Hideki
AU - Hayashizaki, Yoshihide
AU - Pagani, Massimiliano
AU - Carninci, Piero
AU - Yanagita, Motoko
AU - Parrish, Nicholas
AU - Terao, Chikashi
AU - Yamamoto, Kazuhiko
AU - Murakawa, Yasuhiro
N1 - Publisher Copyright:
Copyright © 2024 the authors, some rights reserved;
PY - 2024/7/5
Y1 - 2024/7/5
N2 - Transcribed enhancer maps can reveal nuclear interactions underpinning each cell type and connect specific cell types to diseases. Using a 5′ single-cell RNA sequencing approach, we defined transcription start sites of enhancer RNAs and other classes of coding and noncoding RNAs in human CD4+ T cells, revealing cellular heterogeneity and differentiation trajectories. Integration of these datasets with single-cell chromatin profiles showed that active enhancers with bidirectional RNA transcription are highly cell type–specific and that disease heritability is strongly enriched in these enhancers. The resulting cell type–resolved multimodal atlas of bidirectionally transcribed enhancers, which we linked with promoters using fine-scale chromatin contact maps, enabled us to systematically interpret genetic variants associated with a range of immune-mediated diseases.
AB - Transcribed enhancer maps can reveal nuclear interactions underpinning each cell type and connect specific cell types to diseases. Using a 5′ single-cell RNA sequencing approach, we defined transcription start sites of enhancer RNAs and other classes of coding and noncoding RNAs in human CD4+ T cells, revealing cellular heterogeneity and differentiation trajectories. Integration of these datasets with single-cell chromatin profiles showed that active enhancers with bidirectional RNA transcription are highly cell type–specific and that disease heritability is strongly enriched in these enhancers. The resulting cell type–resolved multimodal atlas of bidirectionally transcribed enhancers, which we linked with promoters using fine-scale chromatin contact maps, enabled us to systematically interpret genetic variants associated with a range of immune-mediated diseases.
UR - https://www.scopus.com/pages/publications/85197768160
U2 - 10.1126/science.add8394
DO - 10.1126/science.add8394
M3 - Article
C2 - 38963856
AN - SCOPUS:85197768160
SN - 0036-8075
VL - 385
JO - Science
JF - Science
IS - 6704
M1 - eadd8394
ER -