DNA crosslinking and recombination‐activating genes 1/2 (RAG1/2) are required for oncogenic splicing in acute lymphoblastic leukemia

Hao Zhang; Nuo Cheng; Zhihui Li; Ling Bai; Chengli Fang; Yuwen Li; Weina Zhang; Xue Dong; Minghao Jiang; Yang Liang; Sujiang Zhang; Jianqing Mi; Jiang Zhu; Yu Zhang; Sai‐Juan Chen; Yajie Zhao; Xiang‐Qin Weng; Weiguo Hu; Zhu Chen; Jinyan Huang; Guoyu Meng

doi:10.1002/cac2.12234

Cancer Communications (Nov 2021)

DNA crosslinking and recombination‐activating genes 1/2 (RAG1/2) are required for oncogenic splicing in acute lymphoblastic leukemia

Hao Zhang,
Nuo Cheng,
Zhihui Li,
Ling Bai,
Chengli Fang,
Yuwen Li,
Weina Zhang,
Xue Dong,
Minghao Jiang,
Yang Liang,
Sujiang Zhang,
Jianqing Mi,
Jiang Zhu,
Yu Zhang,
Sai‐Juan Chen,
Yajie Zhao,
Xiang‐Qin Weng,
Weiguo Hu,
Zhu Chen,
Jinyan Huang,
Guoyu Meng

Affiliations

Hao Zhang: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Nuo Cheng: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Zhihui Li: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Ling Bai: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Chengli Fang: Key Laboratory of Synthetic Biology CAS Center for Excellence in Molecular Plant Sciences Chinese Academy of Sciences Shanghai 200032 P. R. China
Yuwen Li: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Weina Zhang: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Xue Dong: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Minghao Jiang: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Yang Liang: Department of Hematologic Oncology State key Laboratory of Oncology in South China Collaborative Innovation Center for Cancer Medicine Sun Yat‐sen University Cancer Center Guangzhou Guangdong 510060 P. R. China
Sujiang Zhang: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Jianqing Mi: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Jiang Zhu: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Yu Zhang: Key Laboratory of Synthetic Biology CAS Center for Excellence in Molecular Plant Sciences Chinese Academy of Sciences Shanghai 200032 P. R. China
Sai‐Juan Chen: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Yajie Zhao: Department of Geriatrics Ruijin Hospital Shanghai Jiao Tong University School of Medicine Shanghai 200025 P. R. China
Xiang‐Qin Weng: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Weiguo Hu: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Zhu Chen: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Jinyan Huang: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China
Guoyu Meng: Shanghai Institute of Hematology State Key Laboratory of Medical Genomics National Research Center for Translational Medicine Rui‐Jin Hospital School of Medicine and School of Life Sciences and Biotechnology Shanghai JiaoTong University Shanghai 200025 P. R. China

DOI: https://doi.org/10.1002/cac2.12234
Journal volume & issue: Vol. 41, no. 11
pp. 1116 – 1136

Abstract

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Abstract Background Abnormal alternative splicing is frequently associated with carcinogenesis. In B‐cell acute lymphoblastic leukemia (B‐ALL), double homeobox 4 fused with immunoglobulin heavy chain (DUX4/IGH) can lead to the aberrant production of E‐26 transformation‐specific family related gene abnormal transcript (ERGalt) and other splicing variants. However, the molecular mechanism underpinning this process remains elusive. Here, we aimed to know how DUX4/IGH triggers abnormal splicing in leukemia. Methods The differential intron retention analysis was conducted to identify novel DUX4/IGH‐driven splicing in B‐ALL patients. X‐ray crystallography, small angle X‐ray scattering (SAXS), and analytical ultracentrifugation were used to investigate how DUX4/IGH recognize double DUX4 responsive element (DRE)‐DRE sites. The ERGalt biogenesis and B‐cell differentiation assays were performed to characterize the DUX4/IGH crosslinking activity. To check whether recombination‐activating gene 1/2 (RAG1/2) was required for DUX4/IGH‐driven splicing, the proximity ligation assay, co‐immunoprecipitation, mammalian two hybrid characterizations, in vitro RAG1/2 cleavage, and shRNA knock‐down assays were performed. Results We reported previously unrecognized intron retention events in C‐type lectin domain family 12, member A abnormal transcript (CLEC12Aalt) and chromosome 6 open reading frame 89 abnormal transcript (C6orf89alt), where also harbored repetitive DRE‐DRE sites. Supportively, X‐ray crystallography and SAXS characterization revealed that DUX4 homeobox domain (HD)1‐HD2 might dimerize into a dumbbell‐shape trans configuration to crosslink two adjacent DRE sites. Impaired DUX4/IGH‐mediated crosslinking abolishes ERGalt, CLEC12Aalt, and C6orf89alt biogenesis, resulting in marked alleviation of its inhibitory effect on B‐cell differentiation. Furthermore, we also observed a rare RAG1/2‐mediated recombination signal sequence‐like DNA edition in DUX4/IGH target genes. Supportively, shRNA knock‐down of RAG1/2 in leukemic Reh cells consistently impaired the biogenesis of ERGalt, CLEC12Aalt, and C6orf89alt. Conclusions All these results suggest that DUX4/IGH‐driven DNA crosslinking is required for RAG1/2 recruitment onto the double tandem DRE‐DRE sites, catalyzing V(D)J‐like recombination and oncogenic splicing in acute lymphoblastic leukemia.

Published in Cancer Communications

ISSN: 2523-3548 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: https://onlinelibrary.wiley.com/journal/25233548

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