Detection of recurrent, rare, and novel gene fusions in patients with acute leukemia using next‐generation sequencing approaches

Kim, Borahm; Kim, Esl; Lee, Seung Tae; Cheong, June Won; Lyu, Chuhl Joo; Min, Yoo Hong; Choi, Jong Rak

doi:10.1002/hon.2709

Cited by 14 publications

(6 citation statements)

References 26 publications

(29 reference statements)

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“…Specific fusion genes have yet to be clarified in at least one-third of B-ALL patients [ 5 , 7 , 8 ], and our study and the literature verified that early treatment response was the main prognostic factor in these patients [ 4 - 6 , 17 , 21 - 24 ]. In recent studies, NGS has been used to discover more genetic abnormalities in B-ALL, and advanced studies are exploring the relationships among these genetic abnormalities, pathogenesis, and outcomes [ 25 , 27 - 29 ]. In this study, NGS detected abnormalities in 62.5% of BM relapsed patients, rare or unreported fusion genes and/or gene mutations were detectable, and adverse molecular genetic abnormalities such as TP53, CREBBP , and IKZF1 [ 30 , 31 ] were detected in BM relapsed patients.…”

Section: Discussionmentioning

confidence: 99%

The long-term outcome and risk factors for precursor B cell acute lymphoblastic leukemia without specific fusion genes in Chinese children: experiences from multiple centers

Zou

Zhou

Wen³

et al. 2021

Bosn J of Basic Med Sci

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Specific fusion genes play important roles as risk factors for strategic treatment in pediatric B-cell acute lymphoblastic leukemia (B-ALL), and the risk factors in patients without common fusion genes have not been well demonstrated. We collected and analyzed clinical and laboratory findings, treatment responses and outcomes in B-ALL patients without specific fusion genes. Whole-exome sequencing (WES) and/or RNA sequencing (RNAseq) data from bone marrow relapsed patients were also analyzed. 283 patients were enrolled in the study. Traditional elements and treatment responses at different time points (TPs) were evaluated to classify risk groups and adjust the treatment strategy. Treatment-related mortality was found in 11 (3.89%) patients, 49 (17.31%) patients relapsed, and the ten-year prospective event-free survival (pEFS) was 78.2±2.5%. Univariate analysis revealed that significant differences were not found in the pEFS of traditional risk factors, including sex, age, WBC count or chromosome status; good responses of BM smears at TP1 and minimal residual disease (MRD) levels at TP2 and TP3 were strongly associated with prolonged pEFS. Compared with the IR or the HR group, patients in the SR group presented with longer pEFS and a lower relapse rate. Multivariable analysis of outcomes and hazard ratios revealed that a positive MRD level was a key risk factor. WES or RNAseq was performed for BM relapse patients, and adverse and unreported genetic abnormalities were discovered. Favorable outcomes were acquired in the cohort. The study results showed that traditional risk factors and poor prednisone response were overcome by modified chemotherapy, and a positive MRD level was a key risk factor in these patients. NGS is needed to discover more risk-related molecular abnormalities.

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Section: Discussionmentioning

confidence: 99%

The long-term outcome and risk factors for precursor B cell acute lymphoblastic leukemia without specific fusion genes in Chinese children: experiences from multiple centers

Zou

Zhou

Wen³

et al. 2021

Bosn J of Basic Med Sci

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“…Targeted RNA fusion-related gene panel sequencing could be more efficient in clinical applications. Reliable gene fusions could be detected with higher performance price ratio [ 17 , 18 ]. The RNA fusion gene panel used in this study, covered 225 genes, could detect over 900 fusion isoforms, and reached a high validation rate.…”

Section: Discussionmentioning

confidence: 99%

Detection of EP300-ZNF384 fusion in patients with acute lymphoblastic leukemia using RNA fusion gene panel sequencing

Jing

Wan³

et al. 2020

Ann Hematol

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EP300-ZNF384 fusion is a rare recurrent cytogenetic abnormality associated with B cell acute lymphoblastic leukemia (B-ALL), which was rarely studied in Chinese patient cohort. Here, we used a customized RNA fusion gene panel to investigate gene fusions in 56 selected acute leukemia patients without conventional genetic abnormalities. Two EP300-ZNF384 fusion forms were detected in ten cases, which were in-frame fusions of EP300 exon 6 fused with exon 3 or 2 of ZNF384. The fusions led to the lack of most functional domains of EP300. We firstly reported EP300-ZNF384 fusion in a mixed-phenotype acute leukemia (MPAL) patient whose CD33 and CD13 were negative. The rest nine B-ALL patients with EP300-ZNF384 fusion expressed CD33 and/or CD13. Fifty-six percent of B-ALL patients (5/9) with EP300-ZNF384 fusion were positive with CD10. After the diagnosis of EP300-ZNF384 fusion, 70% of the patients achieved remission after chemotherapy. Our observations indicated that EP300-ZNF384 fusion consists of a distinct subgroup of B-ALL with a characteristic immunophenotype. These patients are sensitive to current chemotherapy regimen and have an excellent outcome.

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“…DEK::NUP214 fusion ( 16 ) as a result of a seemingly balanced t(6;9)(p22;q34) is typical of AML preceded by a short myelodysplastic phase (‘ https://mitelmandatabase.isb-cgc.org/ ’). Alternative partners for NUP214 are SET , which maps to 9q34 and codes for a chromatin-remodeling protein with roles in transcription regulation ( 2 ), and the proto-oncogene ABL1 which encodes a protein tyrosine kinase involved in many cellular processes, including cell growth and survival ( 17 – 21 ). The SET::NUP214 fusion ( 22 ) can be generated by either the cryptic translocation t(9;9)(q34;q34) or an intra-chromosomal rearrangement such as the deletion del(9)(q34.11q34.13); it is mostly found in patients with AUL and T-ALL ( 1 , 2 , 19 , 22 ).…”

Section: Discussionmentioning

confidence: 99%

NUP214 fusion genes in acute leukemias: genetic characterization of rare cases

Brunetti,

Andersen,

Spetalen

et al. 2024

Front. Oncol.

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IntroductionAlterations of the NUP214 gene (9q34) are recurrent in acute leukemias. Rearrangements of chromosomal band 9q34 targeting this locus can be karyotypically distinct, for example t(6;9)(p22;q34)/DEK::NUP214, or cryptic, in which case no visible change of 9q34 is seen by chromosome banding.MethodsWe examined 9 cases of acute leukemia with NUP214 rearrangement by array Comparative Genomic Hybridization (aCGH), reverse-transcription polymerase chain reaction (RT-PCR), and cycle sequencing/Sanger sequencing to detect which fusion genes had been generated.ResultsThe chimeras DEK::NUP214, SET::NUP214, and NUP214::ABL1 were found, only the first of which can be readily detected by karyotyping.DiscussionThe identification of a specific NUP214 rearrangement is fundamental in the management of these patients, i.e., AMLs with DEK::NUP214 are classified as an adverse risk group and might be considered for allogenic transplant. Genome- and/or transcriptome-based next generation sequencing (NGS) techniques can be used to screen for these fusions, but we hereby present an alternative, step-wise procedure to detect these rearrangements.

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Detection of recurrent, rare, and novel gene fusions in patients with acute leukemia using next‐generation sequencing approaches

Cited by 14 publications

References 26 publications

The long-term outcome and risk factors for precursor B cell acute lymphoblastic leukemia without specific fusion genes in Chinese children: experiences from multiple centers

The long-term outcome and risk factors for precursor B cell acute lymphoblastic leukemia without specific fusion genes in Chinese children: experiences from multiple centers

Detection of EP300-ZNF384 fusion in patients with acute lymphoblastic leukemia using RNA fusion gene panel sequencing

NUP214 fusion genes in acute leukemias: genetic characterization of rare cases

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