Clinical and cytogenetic features of a population‐based consecutive series of 285 pediatric T‐cell acute lymphoblastic leukemias: Rare T‐cell receptor gene rearrangements are associated with poor outcome

Karrman, Kristina; Forestier, Erik; Heyman, Mats; Andersen, Mette Klarskov; Autio, Kirsi; Blennow, Elisabeth; Borgström, Georg; Ehrencrona, Hans; Golovleva, Irina; Heim, Sverre; Heinonen, Kristiina; Hovland, Randi; Jóhannsson, Jóhann Heiðar; Kerndrup, Gitte; Nordgren, Ann; Palmqvist, Lars; Johansson, Bertil

doi:10.1002/gcc.20684

Cited by 33 publications

(15 citation statements)

References 34 publications

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“…25 Interestingly, the NRF3 locus maps to this region, 11 and further experiments will be required to determine whether the Nrf3 gene is affected in the translocations causing different lymphoblastic lymphomas. [26][27][28] In conclusion, our studies demonstrate that the absence of Nrf3 renders mice more susceptible to lymphomagenesis, particularly of T-cell origin, in response to chemical carcinogenesis. Our results suggest that the Nrf3 deficiency can predispose to development of hematologic malignancies.…”

Section: High Incidence Of T-cell Lymphoblastic Lymphomas In B[a]p-trsupporting

confidence: 52%

Nfe2l3 (Nrf3) deficiency predisposes mice to T-cell lymphoblastic lymphoma

Chevillard

Paquet

Blank

2011

Blood

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We have previously generated mice deficient for Nfe213 (NF-E2 p45 related factor 3 or Nrf3), a member of the cap 'n' collar family of basic-leucine zipper transcription factors. To examine whether Nrf3 is involved in chemical-induced carcinogenesis, we exposed the mice to benzo- IntroductionThe polycyclic hydrocarbon benzo[a]pyrene (B[a]P) is an environmental pollutant, a major component of cigarette smoke, and a well-characterized rodent and human carcinogen. 1 For instance, B[a]P can induce lymphoma in different genetically modified mouse models. 2,3 Biotransformation of B[a]P is a requisite for its detoxification and excretion. The first step is catalyzed by cytochrome P450-dependent mono-oxygenases (phase I), and their products are subsequently coupled to endogenous metabolites (phase II). 4 However, certain reactive intermediates interact covalently with DNA to form adducts that ultimately result in mutagenicity and/or carcinogenicity. It has been reported that absence of the cap 'n' collar (CNC) factor Nrf2 renders mice more susceptible to tumorigenesis caused by B[a]P 5,6 probably because of an incapacity to detoxify the carcinogen. These data provided a link between CNC factormediated induction of phase II and antioxidant enzymes and the susceptibility to carcinogens.The CNC family includes p45 NFE2, NRF1, NRF2, NRF3, BACH1, and BACH2 proteins and can form heterodimers with small MAF proteins. We and others previously identified NRF3 as an endoplasmic reticulum-associated protein that is Asn-glycosylated. 7,8 We showed that Nrf3 gene expression is induced by butylated hydroxytoluene in the lung of mice. 9 Recently, Pepe et al showed a role for Nrf3 in smooth muscle cell differentiation. 10 We have generated mice lacking a functional Nrf3 and found that these mice do not show any obvious abnormalities under nonchallenging conditions. 11 Thus, to investigate whether the mice deficient for Nrf3 are tumor-prone, we challenged the mice with the carcinogen B[a]P. Our studies revealed a novel role for Nrf3 in the protection of mice against carcinogen-induced lymphomagenesis.

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Section: High Incidence Of T-cell Lymphoblastic Lymphomas In B[a]p-trsupporting

confidence: 52%

Nfe2l3 (Nrf3) deficiency predisposes mice to T-cell lymphoblastic lymphoma

Chevillard

Paquet

Blank

2011

Blood

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“…Over the past 30 years a remarkable improvement in ALL treatment has occurred, but the therapy success rate for T-ALL is lower than for precursor B-cell lymphoblastic leukemia. T-ALL harbors a multitude of genetic alterations, frequently associated with rearrangements of T cell antigen receptor genes with involved fusion genes, such as TLX1 , LMO1, LMO2, TAL1 and LYL1 [1], [2]. Mutations of NOTCH1, FBXW7 , PTEN and WT1 have also been reported in several studies [1], [3].…”

Section: Introductionmentioning

confidence: 97%

Promoter DNA Methylation Pattern Identifies Prognostic Subgroups in Childhood T-Cell Acute Lymphoblastic Leukemia

et al. 2013

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BackgroundTreatment of pediatric T-cell acute lymphoblastic leukemia (T-ALL) has improved, but there is a considerable fraction of patients experiencing a poor outcome. There is a need for better prognostic markers and aberrant DNA methylation is a candidate in other malignancies, but its potential prognostic significance in T-ALL is hitherto undecided.Design and MethodsGenome wide promoter DNA methylation analysis was performed in pediatric T-ALL samples (n = 43) using arrays covering >27000 CpG sites. Clinical outcome was evaluated in relation to methylation status and compared with a contemporary T-ALL group not tested for methylation (n = 32).ResultsBased on CpG island methylator phenotype (CIMP), T-ALL samples were subgrouped as CIMP+ (high methylation) and CIMP− (low methylation). CIMP− T-ALL patients had significantly worse overall and event free survival (p = 0.02 and p = 0.001, respectively) compared to CIMP+ cases. CIMP status was an independent factor for survival in multivariate analysis including age, gender and white blood cell count. Analysis of differently methylated genes in the CIMP subgroups showed an overrepresentation of transcription factors, ligands and polycomb target genes.ConclusionsWe identified global promoter methylation profiling as being of relevance for subgrouping and prognostication of pediatric T-ALL.

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“…Pten loss-of-function mutations occur frequently in T-precursor ALL (T-ALL) and Pten is inactivated in some acute myeloid leukemias (AML) by mutations, promoter methylation, or transcriptional repression (Dahia et al, 1999; Gutierrez et al, 2009; Larson Gedman et al, 2009; Yoshimi et al, 2011). While B-ALL usually presents in young children and rarely involves Pten deletion (Mullighan et al, 2011) pediatric T-ALL exhibits an older mean age of presentation (~9-10 years of age) (Smith et al, 1999; Clappier et al, 2007; Karrman et al, 2009) and commonly involves Pten deletion or other mutations that activate PI3-kinase pathway signaling (Gutierrez et al, 2009). …”

Section: Introductionmentioning

confidence: 99%

Temporal Changes in PTEN and mTORC2 Regulation of Hematopoietic Stem Cell Self-Renewal and Leukemia Suppression

et al. 2012

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Pten deletion from adult mouse hematopoietic cells activates the PI3-kinase pathway, inducing hematopoietic stem cell (HSC) proliferation, HSC depletion, and leukemogenesis. Pten is also mutated in human leukemias, but rarely in early childhood leukemias. We hypothesized that this reflects developmental changes in PI3-kinase pathway regulation. Here we show that Rictor deletion prevents leukemogenesis and HSC depletion after Pten deletion in adult mice, implicating mTORC2 activation in these processes. However, Rictor deletion had little effect on the function of normal HSCs. Moreover, Pten deletion from neonatal HSCs did not activate the PI3-kinase pathway or promote HSC proliferation, HSC depletion, or leukemogenesis. Pten is therefore required in adult, but not neonatal, HSCs to negatively regulate mTORC2 signaling. This demonstrates that some critical tumor suppressor mechanisms in adult cells are not required by neonatal cells. Developmental changes in key signaling pathways therefore confer temporal changes upon stem cell self-renewal and tumor suppressor mechanisms.

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Clinical and cytogenetic features of a population‐based consecutive series of 285 pediatric T‐cell acute lymphoblastic leukemias: Rare T‐cell receptor gene rearrangements are associated with poor outcome

Cited by 33 publications

References 34 publications

Nfe2l3 (Nrf3) deficiency predisposes mice to T-cell lymphoblastic lymphoma

Nfe2l3 (Nrf3) deficiency predisposes mice to T-cell lymphoblastic lymphoma

Promoter DNA Methylation Pattern Identifies Prognostic Subgroups in Childhood T-Cell Acute Lymphoblastic Leukemia

Temporal Changes in PTEN and mTORC2 Regulation of Hematopoietic Stem Cell Self-Renewal and Leukemia Suppression

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