Transcript-targeted analysis reveals isoform alterations and double-hop fusions in breast cancer

Shinichi Namba; Toshihide Ueno; Shinya Kojima; Kenya Kobayashi; Katsushige Kawase; Yosuke Tanaka; Satoshi Inoue; Fumishi Kishigami; Shusuke Kawashima; Noriko Maeda; Tomoko Ogawa; Shoichi Hazama; Yosuke Togashi; Mizuo Ando; Yuichi Shiraishi; Hiroyuki Mano; Masahito Kawazu

doi:10.1038/s42003-021-02833-4

Transcript-targeted analysis reveals isoform alterations and double-hop fusions in breast cancer

Shinichi Namba, Toshihide Ueno, Shinya Kojima, Kenya Kobayashi, Katsushige Kawase, Yosuke Tanaka, Satoshi Inoue, Fumishi Kishigami, Shusuke Kawashima, Noriko Maeda, Tomoko Ogawa, Shoichi Hazama, Yosuke Togashi, Mizuo Ando, Yuichi Shiraishi, Hiroyuki Mano, Masahito Kawazu

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Although transcriptome alteration is an essential driver of carcinogenesis, the effects of chromosomal structural alterations on the cancer transcriptome are not yet fully understood. Short-read transcript sequencing has prevented researchers from directly exploring full-length transcripts, forcing them to focus on individual splice sites. Here, we develop a pipeline for Multi-Sample long-read Transcriptome Assembly (MuSTA), which enables construction of a transcriptome from long-read sequence data. Using the constructed transcriptome as a reference, we analyze RNA extracted from 22 clinical breast cancer specimens. We identify a comprehensive set of subtype-specific and differentially used isoforms, which extended our knowledge of isoform regulation to unannotated isoforms including a short form TNS3. We also find that the exon–intron structure of fusion transcripts depends on their genomic context, and we identify double-hop fusion transcripts that are transcribed from complex structural rearrangements. For example, a double-hop fusion results in aberrant expression of an endogenous retroviral gene, ERVFRD-1, which is normally expressed exclusively in placenta and is thought to protect fetus from maternal rejection; expression is elevated in several TCGA samples with ERVFRD-1 fusions. Our analyses provide direct evidence that full-length transcript sequencing of clinical samples can add to our understanding of cancer biology and genomics in general.

Original language	English
Article number	1320
Journal	Communications Biology
Volume	4
Issue number	1
DOIs	https://doi.org/10.1038/s42003-021-02833-4
Publication status	Published - Dec 2021
Externally published	Yes

ASJC Scopus subject areas

Medicine (miscellaneous)
Biochemistry, Genetics and Molecular Biology(all)
Agricultural and Biological Sciences(all)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s42003-021-02833-4

Cite this

Namba, S., Ueno, T., Kojima, S., Kobayashi, K., Kawase, K., Tanaka, Y., Inoue, S., Kishigami, F., Kawashima, S., Maeda, N., Ogawa, T., Hazama, S., Togashi, Y., Ando, M., Shiraishi, Y., Mano, H., & Kawazu, M. (2021). Transcript-targeted analysis reveals isoform alterations and double-hop fusions in breast cancer. Communications Biology, 4(1), [1320]. https://doi.org/10.1038/s42003-021-02833-4

Namba, S, Ueno, T, Kojima, S, Kobayashi, K, Kawase, K, Tanaka, Y, Inoue, S, Kishigami, F, Kawashima, S, Maeda, N, Ogawa, T, Hazama, S, Togashi, Y , Ando, M, Shiraishi, Y, Mano, H & Kawazu, M 2021, 'Transcript-targeted analysis reveals isoform alterations and double-hop fusions in breast cancer', Communications Biology, vol. 4, no. 1, 1320. https://doi.org/10.1038/s42003-021-02833-4

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title = "Transcript-targeted analysis reveals isoform alterations and double-hop fusions in breast cancer",

abstract = "Although transcriptome alteration is an essential driver of carcinogenesis, the effects of chromosomal structural alterations on the cancer transcriptome are not yet fully understood. Short-read transcript sequencing has prevented researchers from directly exploring full-length transcripts, forcing them to focus on individual splice sites. Here, we develop a pipeline for Multi-Sample long-read Transcriptome Assembly (MuSTA), which enables construction of a transcriptome from long-read sequence data. Using the constructed transcriptome as a reference, we analyze RNA extracted from 22 clinical breast cancer specimens. We identify a comprehensive set of subtype-specific and differentially used isoforms, which extended our knowledge of isoform regulation to unannotated isoforms including a short form TNS3. We also find that the exon–intron structure of fusion transcripts depends on their genomic context, and we identify double-hop fusion transcripts that are transcribed from complex structural rearrangements. For example, a double-hop fusion results in aberrant expression of an endogenous retroviral gene, ERVFRD-1, which is normally expressed exclusively in placenta and is thought to protect fetus from maternal rejection; expression is elevated in several TCGA samples with ERVFRD-1 fusions. Our analyses provide direct evidence that full-length transcript sequencing of clinical samples can add to our understanding of cancer biology and genomics in general.",

author = "Shinichi Namba and Toshihide Ueno and Shinya Kojima and Kenya Kobayashi and Katsushige Kawase and Yosuke Tanaka and Satoshi Inoue and Fumishi Kishigami and Shusuke Kawashima and Noriko Maeda and Tomoko Ogawa and Shoichi Hazama and Yosuke Togashi and Mizuo Ando and Yuichi Shiraishi and Hiroyuki Mano and Masahito Kawazu",

note = "Funding Information: We thank Ms Miki Tamura, Ms Kaori Sugaya, Dr. Manabu Soda, and Dr. Yoshihiro Yamashita for technical assistance. We are grateful to all patients and families who contributed to this study. Computation time was provided by the Supercomputer System, Human Genome Center, the Institute of Medical Science, the University of Tokyo. This study was supported by grants from Japan Agency for Medical Research and Development (AMED) (JP17am0001001 to H.M.; JP15cm0106085 to S.H.; JP19cm0106502 to M.K.), a grant from the Japan Society for the Promotion of Science (JSPS) (16K07143 and 21H02772 to M.K.), and a grant from the UBE Industries Foundation (to M.K.). Publisher Copyright: {\textcopyright} 2021, The Author(s).",

year = "2021",

month = dec,

doi = "10.1038/s42003-021-02833-4",

language = "English",

volume = "4",

journal = "Communications Biology",

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AU - Namba, Shinichi

AU - Ueno, Toshihide

AU - Kojima, Shinya

AU - Kobayashi, Kenya

AU - Kawase, Katsushige

AU - Tanaka, Yosuke

AU - Inoue, Satoshi

AU - Kishigami, Fumishi

AU - Kawashima, Shusuke

AU - Maeda, Noriko

AU - Ogawa, Tomoko

AU - Hazama, Shoichi

AU - Togashi, Yosuke

AU - Ando, Mizuo

AU - Shiraishi, Yuichi

AU - Mano, Hiroyuki

AU - Kawazu, Masahito

N1 - Funding Information: We thank Ms Miki Tamura, Ms Kaori Sugaya, Dr. Manabu Soda, and Dr. Yoshihiro Yamashita for technical assistance. We are grateful to all patients and families who contributed to this study. Computation time was provided by the Supercomputer System, Human Genome Center, the Institute of Medical Science, the University of Tokyo. This study was supported by grants from Japan Agency for Medical Research and Development (AMED) (JP17am0001001 to H.M.; JP15cm0106085 to S.H.; JP19cm0106502 to M.K.), a grant from the Japan Society for the Promotion of Science (JSPS) (16K07143 and 21H02772 to M.K.), and a grant from the UBE Industries Foundation (to M.K.). Publisher Copyright: © 2021, The Author(s).

PY - 2021/12

Y1 - 2021/12

N2 - Although transcriptome alteration is an essential driver of carcinogenesis, the effects of chromosomal structural alterations on the cancer transcriptome are not yet fully understood. Short-read transcript sequencing has prevented researchers from directly exploring full-length transcripts, forcing them to focus on individual splice sites. Here, we develop a pipeline for Multi-Sample long-read Transcriptome Assembly (MuSTA), which enables construction of a transcriptome from long-read sequence data. Using the constructed transcriptome as a reference, we analyze RNA extracted from 22 clinical breast cancer specimens. We identify a comprehensive set of subtype-specific and differentially used isoforms, which extended our knowledge of isoform regulation to unannotated isoforms including a short form TNS3. We also find that the exon–intron structure of fusion transcripts depends on their genomic context, and we identify double-hop fusion transcripts that are transcribed from complex structural rearrangements. For example, a double-hop fusion results in aberrant expression of an endogenous retroviral gene, ERVFRD-1, which is normally expressed exclusively in placenta and is thought to protect fetus from maternal rejection; expression is elevated in several TCGA samples with ERVFRD-1 fusions. Our analyses provide direct evidence that full-length transcript sequencing of clinical samples can add to our understanding of cancer biology and genomics in general.

AB - Although transcriptome alteration is an essential driver of carcinogenesis, the effects of chromosomal structural alterations on the cancer transcriptome are not yet fully understood. Short-read transcript sequencing has prevented researchers from directly exploring full-length transcripts, forcing them to focus on individual splice sites. Here, we develop a pipeline for Multi-Sample long-read Transcriptome Assembly (MuSTA), which enables construction of a transcriptome from long-read sequence data. Using the constructed transcriptome as a reference, we analyze RNA extracted from 22 clinical breast cancer specimens. We identify a comprehensive set of subtype-specific and differentially used isoforms, which extended our knowledge of isoform regulation to unannotated isoforms including a short form TNS3. We also find that the exon–intron structure of fusion transcripts depends on their genomic context, and we identify double-hop fusion transcripts that are transcribed from complex structural rearrangements. For example, a double-hop fusion results in aberrant expression of an endogenous retroviral gene, ERVFRD-1, which is normally expressed exclusively in placenta and is thought to protect fetus from maternal rejection; expression is elevated in several TCGA samples with ERVFRD-1 fusions. Our analyses provide direct evidence that full-length transcript sequencing of clinical samples can add to our understanding of cancer biology and genomics in general.

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Transcript-targeted analysis reveals isoform alterations and double-hop fusions in breast cancer

Abstract

ASJC Scopus subject areas

UN SDGs

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