FuseFISH: Robust Detection of Transcribed Gene Fusions in Single Cells

S. Semrau; N. Crosetto; M. Bienko; M. Boni; P. Bernasconi; R. Chiarle; A. van Oudenaarden

FuseFISH: Robust Detection of Transcribed Gene Fusions in Single Cells

Translated title of the contribution: FuseFISH: Robust Detection of Transcribed Gene Fusions in Single Cells

S. Semrau, N. Crosetto, M. Bienko, M. Boni, P. Bernasconi, R. Chiarle, A. van Oudenaarden

Molecular Cancer Research

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

Abstract

Transcribed gene fusions are key biomarkers in many hematologic and solid tumors, often representing the primary oncogenic driver mutation. Here, we report an experimental and computational pipeline for detecting fusion transcripts using single-molecule RNA FISH and unbiased correlation analysis (FuseFISH). We constructed a genome-wide database of optimal oligonucleotide sequences, enabling quick design of FuseFISH probes against known and novel fusions. We implemented FuseFISH in cell lines, tissue sections, and purified RNA, reliably detecting one BCR-ABL1 positive in 10,000 negative cells. In 34 hematologic samples, we detected BCR-ABL1 transcripts with high specificity and sensitivity. Finally, we measured BCR-ABL1 expression heterogeneity and dynamics in single CML cells exposed to the kinase inhibitor Nilotinib. Our resource and methods are ideal for streamlined validation of fusions newly identified by next-generation sequencing, and they pave the way to studying the impact of fusion expression variability on clinical outcome

Translated title of the contribution	FuseFISH: Robust Detection of Transcribed Gene Fusions in Single Cells
Original language	Undefined/Unknown
Pages (from-to)	18-23
Number of pages	6
Journal	Cell Reports [E]
Volume	6
Issue number	1
Publication status	Published - 2014

Cite this

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title = "FuseFISH: Robust Detection of Transcribed Gene Fusions in Single Cells",

abstract = "Transcribed gene fusions are key biomarkers in many hematologic and solid tumors, often representing the primary oncogenic driver mutation. Here, we report an experimental and computational pipeline for detecting fusion transcripts using single-molecule RNA FISH and unbiased correlation analysis (FuseFISH). We constructed a genome-wide database of optimal oligonucleotide sequences, enabling quick design of FuseFISH probes against known and novel fusions. We implemented FuseFISH in cell lines, tissue sections, and purified RNA, reliably detecting one BCR-ABL1 positive in 10,000 negative cells. In 34 hematologic samples, we detected BCR-ABL1 transcripts with high specificity and sensitivity. Finally, we measured BCR-ABL1 expression heterogeneity and dynamics in single CML cells exposed to the kinase inhibitor Nilotinib. Our resource and methods are ideal for streamlined validation of fusions newly identified by next-generation sequencing, and they pave the way to studying the impact of fusion expression variability on clinical outcome",

author = "S. Semrau and N. Crosetto and M. Bienko and M. Boni and P. Bernasconi and R. Chiarle and {van Oudenaarden}, A.",

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T1 - FuseFISH: Robust Detection of Transcribed Gene Fusions in Single Cells

AU - Semrau, S.

AU - Crosetto, N.

AU - Bienko, M.

AU - Boni, M.

AU - Bernasconi, P.

AU - Chiarle, R.

AU - van Oudenaarden, A.

N1 - J AN 2014

PY - 2014

Y1 - 2014

N2 - Transcribed gene fusions are key biomarkers in many hematologic and solid tumors, often representing the primary oncogenic driver mutation. Here, we report an experimental and computational pipeline for detecting fusion transcripts using single-molecule RNA FISH and unbiased correlation analysis (FuseFISH). We constructed a genome-wide database of optimal oligonucleotide sequences, enabling quick design of FuseFISH probes against known and novel fusions. We implemented FuseFISH in cell lines, tissue sections, and purified RNA, reliably detecting one BCR-ABL1 positive in 10,000 negative cells. In 34 hematologic samples, we detected BCR-ABL1 transcripts with high specificity and sensitivity. Finally, we measured BCR-ABL1 expression heterogeneity and dynamics in single CML cells exposed to the kinase inhibitor Nilotinib. Our resource and methods are ideal for streamlined validation of fusions newly identified by next-generation sequencing, and they pave the way to studying the impact of fusion expression variability on clinical outcome

AB - Transcribed gene fusions are key biomarkers in many hematologic and solid tumors, often representing the primary oncogenic driver mutation. Here, we report an experimental and computational pipeline for detecting fusion transcripts using single-molecule RNA FISH and unbiased correlation analysis (FuseFISH). We constructed a genome-wide database of optimal oligonucleotide sequences, enabling quick design of FuseFISH probes against known and novel fusions. We implemented FuseFISH in cell lines, tissue sections, and purified RNA, reliably detecting one BCR-ABL1 positive in 10,000 negative cells. In 34 hematologic samples, we detected BCR-ABL1 transcripts with high specificity and sensitivity. Finally, we measured BCR-ABL1 expression heterogeneity and dynamics in single CML cells exposed to the kinase inhibitor Nilotinib. Our resource and methods are ideal for streamlined validation of fusions newly identified by next-generation sequencing, and they pave the way to studying the impact of fusion expression variability on clinical outcome

M3 - Article

SN - 2211-1247

VL - 6

SP - 18

EP - 23

JO - Cell Reports [E]

JF - Cell Reports [E]

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ER -

FuseFISH: Robust Detection of Transcribed Gene Fusions in Single Cells

Abstract

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