Distinct clinical characteristics of<i>DUX4-</i>and<i>PAX5</i>-altered childhood B-lymphoblastic leukemia

Li, Zhenhua; Lee, Shawn Hsien Ren; Chin, Winnie Hui Ni; Lü, Yi; Jiang, Nan; Lim, Evelyn Huizi; Coustan‐Smith, Elaine; Chiew, Kean Hui; Oh, Bernice Ling Zhi; Koh, Grace Shimin; Chen, Zhiwei; Kham, Shirley Kow Yin; Quah, Thuan Chong; Lin, Hai; Tan, Ah Moy; Ariffin, Hany; Yang, Jun J.; Yeoh, Allen Eng Juh

doi:10.1182/bloodadvances.2021004895

Cited by 29 publications

(44 citation statements)

References 48 publications

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“…1c), again with consistent activation across ZNF384 fusions (Fig. 1d) 25 . FLT3 mutation was uncommon in ZNF384-rearranged ALL, identified in 5 of 66 cases (7.6%) from these two cohorts (Fig.…”

Section: Subtype-specific Activation Of Flt3 In Childhood Allsupporting

confidence: 56%

Epigenetic activation of the FLT3 gene by ZNF384 fusion confers a therapeutic susceptibility in acute lymphoblastic leukemia

et al. 2022

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FLT3 is an attractive therapeutic target in acute lymphoblastic leukemia (ALL) but the mechanism for its activation in this cancer is incompletely understood. Profiling global gene expression in large ALL cohorts, we identify over-expression of FLT3 in ZNF384-rearranged ALL, consistently across cases harboring different fusion partners with ZNF384. Mechanistically, we discover an intergenic enhancer element at the FLT3 locus that is exclusively activated in ZNF384-rearranged ALL, with the enhancer-promoter looping directly mediated by the fusion protein. There is also a global enrichment of active enhancers within ZNF384 binding sites across the genome in ZNF384-rearranged ALL cells. Downregulation of ZNF384 blunts FLT3 activation and decreases ALL cell sensitivity to FLT3 inhibitor gilteritinib in vitro. In patient-derived xenograft models of ZNF384-rearranged ALL, gilteritinib exhibits significant anti-leukemia efficacy as a monotherapy in vivo. Collectively, our results provide insights into FLT3 regulation in ALL and point to potential genomics-guided targeted therapy for this patient population.

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Section: Subtype-specific Activation Of Flt3 In Childhood Allsupporting

confidence: 56%

Epigenetic activation of the FLT3 gene by ZNF384 fusion confers a therapeutic susceptibility in acute lymphoblastic leukemia

et al. 2022

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“…In pediatric B-ALL groups, the prognosis of PAX5 deletion was strongly dependent on IKZF1 codeletion ( 61 , 80 ). However, no significant prognostic correlation was observed in PAX5 deletions alone in children ( 74 ).…”

Section: Clinical Significance Of Recurrent Cnv Genes In B-allmentioning

confidence: 99%

Prognostic significance of copy number variation in B-cell acute lymphoblastic leukemia

Song

Fang

2022

Front. Oncol.

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Copy number variations (CNVs) are widespread in both pediatric and adult cases of B-cell acute lymphoblastic leukemia (B-ALL); however, their clinical significance remains unclear. This review primarily discusses the most prevalent CNVs in B-ALL to elucidate their clinical value and further personalized management of this population. The discovery of the molecular mechanism of gene deletion and the development of targeted drugs will further enhance the clinical prognosis of B-ALL.

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“…Additional studies have worked to characterize further the landscape of B‐ALLs by their distinctive gene expression patterns and mutational profiles, with discovery of novel translocations and gene mutations driving pathophysiology and leukemogenesis 4–9 . Harvey et al, 9 in a study of gene expression profiles of cases of clinically defined high‐risk B‐ALLs, elucidated clinicopathologic and molecular features of a cohort of 21 cases (“cluster 6”) exhibiting high expression of outlier genes AGAP1 , CCNJ , CHST2/7 , CLEC12A/B , PCDH17 , and PTPRM , frequent ETS transcription factor gene ERG deletions, and extremely favorable clinical outcomes, even in the context of otherwise unfavorable gene mutations, including IZKF1 mutations, 9 and end‐induction minimal residual disease 10 . Several groups have further shown the molecular mechanisms driving this subtype of B‐ALL to be tied to the sequential dysregulation of the double homeobox 4 ( DUX4 ) and ERG genes.…”

Section: Introductionmentioning

confidence: 99%

“…[4][5][6][7][8][9] Harvey et al, 9 in a study of gene expression profiles of cases of clinically defined high-risk B-ALLs, elucidated clinicopathologic and molecular features of a cohort of 21 cases ("cluster 6") exhibiting high expression of outlier genes AGAP1, CCNJ, CHST2/7, CLEC12A/B, PCDH17, and PTPRM, frequent ETS transcription factor gene ERG deletions, and extremely favorable clinical outcomes, even in the context of otherwise unfavorable gene mutations, including IZKF1 mutations, 9 and end-induction minimal residual disease. 10 Several groups have further shown the molecular mechanisms driving this subtype of B-ALL to be tied to the sequential dysregulation of the double homeobox 4 (DUX4) and ERG genes. B-ALLs with DUX4 translocation are reported to constitute approximately 5% of pediatric B-ALLs, 11,12 and have been show to exhibit a particular predilection for B-ALLs occurring in adolescents and young adults, constituting an estimated 15% of these cases.…”

Section: Introductionmentioning

confidence: 99%

N‐terminus DUX4‐immunohistochemistry is a reliable methodology for the diagnosis of DUX4‐fused B‐lymphoblastic leukemia/lymphoma (N‐terminus DUX4 IHC for DUX4‐fused B‐ALL)

Siegele

Stemmer‐Rachamimov

Lilljebjörn

et al. 2022

Genes Chromosomes & Cancer

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B‐lymphoblastic leukemia/lymphoma (B‐ALL) is the most common pediatric malignancy and the most commonly diagnosed adult lymphoblastic leukemia. Recent advances have broadened the spectrum of B‐ALL, with DUX4 gene fusions implicated in a subclass occurring in adolescents and young adults and harboring a favorable prognosis. DUX4 fusions have been challenging to identify. We aimed to determine whether expression of the DUX4 oncoprotein, as detected by targeted immunohistochemistry, might serve as a surrogate for molecular detection of DUX4 fusions in B‐ALL. A cohort of investigational B‐ALLs was generated with enrichment for DUX4 fusions by the inclusion of cases with characteristic demographic features and immunophenotypic properties. B‐ALLs with mutually exclusive cytogenetics were collected. Immunohistochemical staining by a monoclonal antibody raised against the N‐terminus of the DUX4 protein was performed. N‐DUX4 immunohistochemistry demonstrated strong, crisp nuclear staining in blasts of seven investigational cases, six of which had nucleic acid material available for molecular evaluation. Five of these cases demonstrated RNA‐seq DUX4‐fusion positivity. One N‐DUX4 immunohistochemistry positive case lacked a definitive DUX4‐fusion by RNA‐seq, though demonstrated a gene expression profile characteristic of DUX4‐rearranged B‐ALLs, a CD2+ immunophenotype, and a lack of staining by C‐terminus DUX4 antibody immunohistochemistry. At least 83.3% [5/6] positive predictive value. N‐DUX4 immunohistochemistry was negative in blasts of three RNA‐seq DUX4‐fusion‐negative cases (3/3; 100% negative predictive value). B‐ALLs with mutually exclusive cytogenetic profiles were all N‐DUX4 negative (0/10, specificity 100%). N‐DUX4 immunohistochemistry is reliable for the distinction of DUX4‐rearranged B‐ALLs from other B‐ALLs. We recommend its use for subclassification of B‐ALLs in adolescents and young adults and in B‐ALLs that remain “not otherwise specified.”

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Distinct clinical characteristics ofDUX4-andPAX5-altered childhood B-lymphoblastic leukemia

Cited by 29 publications

References 48 publications

Epigenetic activation of the FLT3 gene by ZNF384 fusion confers a therapeutic susceptibility in acute lymphoblastic leukemia

Epigenetic activation of the FLT3 gene by ZNF384 fusion confers a therapeutic susceptibility in acute lymphoblastic leukemia

Prognostic significance of copy number variation in B-cell acute lymphoblastic leukemia

N‐terminus DUX4‐immunohistochemistry is a reliable methodology for the diagnosis of DUX4‐fused B‐lymphoblastic leukemia/lymphoma (N‐terminus DUX4 IHC for DUX4‐fused B‐ALL)

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