LIN28B overexpression defines a novel fetal-like subgroup of juvenile myelomonocytic leukemia

Helsmoortel, Hetty; Bresolin, Silvia; Lammens, Tim; Cavé, Hélène; Noellke, Peter; Caye, Aurélie; Ghazavi, Farzaneh; Vries, Andrica de; Hasle, Henrik; Labarque, Veerle; Masetti, Riccardo; Starý, Jan; Heuvel‐Eibrink, Marry M. van den; Philippé, Jan; Roy, Nadine Van; Benoît, Yves; Speleman, Frank; Niemeyer, Charlotte M.; Flotho, Christian; Basso, Giuseppe; Kronnie, Geertruy te; Vlierberghe, Pieter Van; Moerloose, Barbara De

doi:10.1182/blood-2015-09-667808

Cited by 53 publications

(48 citation statements)

References 35 publications

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“…Over-expression of these genes decreases β -globin expression in adult erythroblasts (De Vasconcellos et al, 2017). LIN28B over-expression in cultured adult erythroblasts reduces the expression of let-7 , which in turn leads to increased HbF expression (Helsmoortel et al, 2016; Lee et al, 2013). The expression of genes marking the transition of fetal-to-adult erythropoiesis including CA1, GCNT2, and BCL11A are negatively regulated by LIN28B (Lee et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

Comparison of gene expression profiles between human erythroid cells derived from fetal liver and adult peripheral blood

Tangprasittipap

Kaewprommal

Sripichai

et al. 2018

PeerJ

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BackgroundA key event in human development is the establishment of erythropoietic progenitors in the bone marrow, which is accompanied by a fetal-to-adult switch in hemoglobin expression. Understanding of this event could lead to medical application, notably treatment of sickle cell disease and β-thalassemia. The changes in gene expression of erythropoietic progenitor cells as they migrate from the fetal liver and colonize the bone marrow are still rather poorly understood, as primary fetal liver (FL) tissues are difficult to obtain.MethodsWe obtained human FL tissue and adult peripheral blood (AB) samples from Thai subjects. Primary CD34+ cells were cultured in vitro in a fetal bovine serum-based culture medium. After 8 days of culture, erythroid cell populations were isolated by flow cytometry. Gene expression in the FL- and AB-derived cells was studied by Affymetrix microarray and reverse-transcription quantitative PCR. The microarray data were combined with that from a previous study of human FL and AB erythroid development, and meta-analysis was performed on the combined dataset.ResultsFL erythroid cells showed enhanced proliferation and elevated fetal hemoglobin relative to AB cells. A total of 1,391 fetal up-regulated and 329 adult up-regulated genes were identified from microarray data generated in this study. Five hundred ninety-nine fetal up-regulated and 284 adult up-regulated genes with reproducible patterns between this and a previous study were identified by meta-analysis of the combined dataset, which constitute a core set of genes differentially expressed between FL and AB erythroid cells. In addition to these core genes, 826 and 48 novel genes were identified only from data generated in this study to be FL up- and AB up-regulated, respectively. The in vivo relevance for some of these novel genes was demonstrated by pathway analysis, which showed novel genes functioning in pathways known to be important in proliferation and erythropoiesis, including the mitogen-activated protein kinase (MAPK) and the phosphatidyl inositol 3 kinase (PI3K)-Akt pathways.DiscussionThe genes with upregulated expression in FL cells, which include many novel genes identified from data generated in this study, suggest that cellular proliferation pathways are more active in the fetal stage. Erythroid progenitor cells may thus undergo a reprogramming during ontogenesis in which proliferation is modulated by changes in expression of key regulators, primarily MYC, and others including insulin-like growth factor 2 mRNA-binding protein 3 (IGF2BP3), neuropilin and tolloid-like 2 (NETO2), branched chain amino acid transaminase 1 (BCAT1), tenascin XB (TNXB) and proto-oncogene, AP-1 transcription factor subunit (JUND). This reprogramming may thus be necessary for acquisition of the adult identity and switching of hemoglobin expression.

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Section: Discussionmentioning

confidence: 99%

Comparison of gene expression profiles between human erythroid cells derived from fetal liver and adult peripheral blood

Tangprasittipap

Kaewprommal

Sripichai

et al. 2018

PeerJ

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“…Consistent with a faithful model of hyperactive RAS-induced JMML, BM enhanced myeloid cell production compared with adult progenitors targeted by Mx1Cre (24,27). This context emulates studies of JMML patients that highlighted the fetal origins of this disease: the causative somatic mutation commonly occurs before birth, and BM cells have a gene expression signature that is characteristic of fetal progenitors (22,23). Therefore, in contrast to Mx1Cre, Flt3Cre targets Kras G12D expression to hematopoietic progenitors at the appropriate developmental stage to recapitulate the origin of JMML.…”

Section: Gr1mentioning

confidence: 65%

“…Patients present very young with a median age of less than 2 years, and retrospective analyses indicate that the somatic disease-initiating mutation is frequently present at birth (6,21,22). Furthermore, BM progenitors of most patients exhibit a fetal-like gene expression signature, which correlates with an inferior prognosis (23). These findings strongly implicate a developmental origin of JMML and imply that disease-initiating mutations occur within a specific spatial and temporal context.…”

Section: Introductionmentioning

confidence: 76%

Mice expressing KrasG12D in hematopoietic multipotent progenitor cells develop neonatal myeloid leukemia

Tarnawsky¹,

Kobayashi²,

Chan

et al. 2017

Journal of Clinical Investigation

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“…Children present very young with a median age of <2 years. Patients frequently have elevated levels of fetal hemoglobin and their bone marrow cells have a gene expression signature characteristic of fetal progenitors (Weinberg et al, 1990; Helsmoortel et al, 2016). Furthermore, retrospective analysis suggests that the majority of somatic JMML-initiating mutations occur before birth (Kratz et al, 2005; Matsuda et al, 2010; Stieglitz et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Yolk sac erythromyeloid progenitors expressing gain of function PTPN11 have functional features of JMML but are not sufficient to cause disease in mice

Tarnawsky

Yoshimoto

Deng

et al. 2017

Developmental Dynamics

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Background Accumulating evidence suggests the origin of Juvenile Myelomonocytic Leukemia (JMML) is closely associated with fetal development. Nevertheless, the contribution of embryonic progenitors to JMML pathogenesis remains unexplored. We hypothesized that expression of JMML-initiating PTPN11 mutations in HSC-independent yolk sac erythromyeloid progenitors (YS EMPs) would result in a mouse model of pediatric myeloproliferative neoplasm (MPN). Results E9.5 YS EMPs from VavCre+;PTPN11D61Y embryos demonstrated growth hypersensitivity to GM-CSF and hyperactive RAS-ERK signaling. Mutant EMPs engrafted the spleens of neonatal recipients, but did not cause disease. To assess MPN development during unperturbed hematopoiesis we generated CSF1R-MCM+;PTPN11E76K;ROSAYFP mice in which oncogene expression was restricted to EMPs. YFP+ progeny of mutant EMPs persisted in tissues one year after birth and demonstrated hyperactive RAS-ERK signaling. Nevertheless, these mice had normal survival and did not demonstrate features of MPN. Conclusions YS EMPs expressing mutant PTPN11 demonstrate functional and molecular features of JMML but do not cause disease following transplantation nor following unperturbed development.

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LIN28B overexpression defines a novel fetal-like subgroup of juvenile myelomonocytic leukemia

Cited by 53 publications

References 35 publications

Comparison of gene expression profiles between human erythroid cells derived from fetal liver and adult peripheral blood

Comparison of gene expression profiles between human erythroid cells derived from fetal liver and adult peripheral blood

Mice expressing KrasG12D in hematopoietic multipotent progenitor cells develop neonatal myeloid leukemia

Yolk sac erythromyeloid progenitors expressing gain of function PTPN11 have functional features of JMML but are not sufficient to cause disease in mice

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