Visual genetic typing of glioma using proximity‐anchored in situ spectral coding amplification

Xiaolei Chen; Ruijie Deng; Dongdong Su; Xiaochen Ma; Xu Han; Shizheng Wang; Yuqing Xia; Zifu Yang; Ningqiang Gong; Yanwei Jia; Xueyun Gao; Xiaojun Ren

doi:10.1002/EXP.20220175

Exploration (Oct 2023)

Visual genetic typing of glioma using proximity‐anchored in situ spectral coding amplification

Xiaolei Chen,
Ruijie Deng,
Dongdong Su,
Xiaochen Ma,
Xu Han,
Shizheng Wang,
Yuqing Xia,
Zifu Yang,
Ningqiang Gong,
Yanwei Jia,
Xueyun Gao,
Xiaojun Ren

Affiliations

Xiaolei Chen: Department of Chemistry and Biology Faculty of Environment and Life Science Beijing University of Technology BeijingChina
Ruijie Deng: College of Biomass Science and Engineering Healthy Food Evaluation Research Center Sichuan University ChengduChina
Dongdong Su: Department of Chemistry and Biology Faculty of Environment and Life Science Beijing University of Technology BeijingChina
Xiaochen Ma: Department of Chemistry and Biology Faculty of Environment and Life Science Beijing University of Technology BeijingChina
Xu Han: Institute of High Energy Physics Chinese Academy of Sciences BeijingChina
Shizheng Wang: Department of Chemistry and Biology Faculty of Environment and Life Science Beijing University of Technology BeijingChina
Yuqing Xia: Department of Chemistry and Biology Faculty of Environment and Life Science Beijing University of Technology BeijingChina
Zifu Yang: Department of Chemistry and Biology Faculty of Environment and Life Science Beijing University of Technology BeijingChina
Ningqiang Gong: Department of Bioengineering University of Pennsylvania PhiladelphiaUSA
Yanwei Jia: State‐Key Laboratory of Analog and Mixed‐Signal VLSI Institute of Microelectronics University of Macau MacauChina
Xueyun Gao: Department of Chemistry and Biology Faculty of Environment and Life Science Beijing University of Technology BeijingChina
Xiaojun Ren: Department of Chemistry and Biology Faculty of Environment and Life Science Beijing University of Technology BeijingChina

DOI: https://doi.org/10.1002/EXP.20220175
Journal volume & issue: Vol. 3, no. 5
pp. n/a – n/a

Abstract

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Abstract Gliomas are histologically and genetically heterogeneous tumors. However, classical histopathological typing often ignores the high heterogeneity of tumors and thus cannot meet the requirements of precise pathological diagnosis. Here, proximity‐anchored in situ spectral coding amplification (ProxISCA) is proposed for multiplexed imaging of RNA mutations, enabling visual typing of brain gliomas with different pathological grades at the single‐cell and tissue levels. The ligation‐based padlock probe can discriminate one‐nucleotide variations, and the design of proximity primers enables the anchoring of amplicons on target RNA, thus improving localization accuracy. The DNA module‐based spectral coding strategy can dramatically improve the multiplexing capacity for imaging RNA mutations through one‐time labelling, with low cost and simple operation. One‐target‐one‐amplicon amplification confers ProxISCA the ability to quantify RNA mutation copy number with single‐molecule resolution. Based on this approach, it is found that gliomas with higher malignant grades express more genes with high correlation at the cellular and tissue levels and show greater cellular heterogeneity. ProxISCA provides a tool for glioma research and precise diagnosis, which can reveal the relationship between cellular heterogeneity and glioma occurrence or development and assist in pathological prognosis.

Published in Exploration

ISSN: 2766-8509 (Print); 2766-2098 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Technology: Chemical technology: Biotechnology
Website: https://onlinelibrary.wiley.com/journal/27662098

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