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Cellular and metabolic characteristics of pre-leukemic hematopoietic progenitors with GATA2 haploinsuficiency

Rein, Avigail ; Geron, Ifat ; Kugler, Eitan ; [et al.]

Ferrata Storti Foundation (Haematologica) ; 2022

In: Haematologica ( 2022-12-07)

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In: Haematologica, Ferrata Storti Foundation (Haematologica), ( 2022-12-07)

Abstract: Mono-Allelic germline disruptions of the transcription factor GATA2 result in a propensity for developing myelodysplastic syndrome (MDS) and acute myeloid leukemia (AML) affecting more than 85% of carriers. How a partial loss of GATA2 functionality enables leukemic transformation occurring years later in life, is unclear. This question is unsolved mainly due to lack of informative models, as Gata2 heterozygote mice do not develop hematologic malignancies. Here we show that two different germline Gata2 mutations (tgERG/GATA2het and tgERG/Gata2L359V) accelerate AML in mice expressing the human hematopoietic stem cell regulator ERG. Analysis of ERG/Gata2het fetal liver and bone marrow derived hematopoietic cells revealed a distinct pre-leukemic phenotype. This was characterized by enhanced transition from stem to progenitor state, increased proliferation, and a striking mitochondrial phenotype, consisting of highly expressed Oxidative- Phosphorylation related gene-sets, elevated oxygen consumption rates, and notably, markedly distorted mitochondrial morphology. Importantly, the same mitochondrial gene-expression signature was observed in human AMLs harboring GATA2 aberrations. Similar to the observations in mice, non-leukemic bone marrows from children with germline GATA2 mutation demonstrated marked mitochondrial abnormalities. Thus, we observed the tumor suppressive effects of GATA2 in two germline Gata2 genetic mouse models. As oncogenic mutations often accumulate with age, Gata2 deficiency mediated priming of hematopoietic cells for oncogenic transformation may explain the earlier occurrence of MDS/AML in patients with GATA2 germline mutation. The mitochondrial phenotype is a potential therapeutic opportunity for prevention of leukemic transformation in these patients.

Type of Medium: Online Resource

ISSN: 1592-8721 , 0390-6078

URL: Article

DOI: 10.3324/haematol.2022.279437

Language: Unknown

Publisher: Ferrata Storti Foundation (Haematologica)

Publication Date: 2022

detail.hit.zdb_id: 2186022-1

detail.hit.zdb_id: 2030158-3

detail.hit.zdb_id: 2805244-4

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Cohesin-STAG2 Mutations Alter Chromatin Structure and Gene Regulation in Human Acute Myeloid Leukemia

Fischer, Alexander ; Mulet-Lazaro, Roger ; Nützel, Margit ; [et al.]

American Society of Hematology ; 2022

In: Blood Vol. 140, No. Supplement 1 ( 2022-11-15), p. 3379-3380

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In: Blood, American Society of Hematology, Vol. 140, No. Supplement 1 ( 2022-11-15), p. 3379-3380

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2022-162219

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Language: English

Publisher: American Society of Hematology

Publication Date: 2022

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Allele-specific expression of GATA2 due to epigenetic dysregulation in CEBPA double-mutant AML

Mulet-Lazaro, Roger ; van Herk, Stanley ; Erpelinck, Claudia ; [et al.]

American Society of Hematology ; 2021

In: Blood Vol. 138, No. 2 ( 2021-07-15), p. 160-177

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In: Blood, American Society of Hematology, Vol. 138, No. 2 ( 2021-07-15), p. 160-177

Abstract: Transcriptional deregulation is a central event in the development of acute myeloid leukemia (AML). To identify potential disturbances in gene regulation, we conducted an unbiased screen of allele-specific expression (ASE) in 209 AML cases. The gene encoding GATA binding protein 2 (GATA2) displayed ASE more often than any other myeloid- or cancer-related gene. GATA2 ASE was strongly associated with CEBPA double mutations (DMs), with 95% of cases presenting GATA2 ASE. In CEBPA DM AML with GATA2 mutations, the mutated allele was preferentially expressed. We found that GATA2 ASE was a somatic event lost in complete remission, supporting the notion that it plays a role in CEBPA DM AML. Acquisition of GATA2 ASE involved silencing of 1 allele via promoter methylation and concurrent overactivation of the other allele, thereby preserving expression levels. Notably, promoter methylation was also lost in remission along with GATA2 ASE. In summary, we propose that GATA2 ASE is acquired by epigenetic mechanisms and is a prerequisite for the development of AML with CEBPA DMs. This finding constitutes a novel example of an epigenetic hit cooperating with a genetic hit in the pathogenesis of AML.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.2020009244

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XA 33000

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Language: English

Publisher: American Society of Hematology

Publication Date: 2021

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detail.hit.zdb_id: 80069-7

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Atypical 3q26/MECOM rearrangements genocopy inv(3)/t(3;3) in acute myeloid leukemia

Ottema, Sophie ; Mulet-Lazaro, Roger ; Beverloo, H. Berna ; [et al.]

American Society of Hematology ; 2020

In: Blood Vol. 136, No. 2 ( 2020-07-9), p. 224-234

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In: Blood, American Society of Hematology, Vol. 136, No. 2 ( 2020-07-9), p. 224-234

Abstract: Acute myeloid leukemia (AML) with inv(3)/t(3;3)(q21q26) is a distinct World Health Organization recognized entity, characterized by its aggressive course and poor prognosis. In this subtype of AML, the translocation of a GATA2 enhancer (3q21) to MECOM (3q26) results in overexpression of the MECOM isoform EVI1 and monoallelic expression of GATA2 from the unaffected allele. The full-length MECOM transcript, MDS1-EVI1, is not expressed as the result of the 3q26 rearrangement. Besides the classical inv(3)/t(3;3), a number of other 3q26/MECOM rearrangements with poor treatment response have been reported in AML. Here, we demonstrate, in a group of 33 AML patients with atypical 3q26 rearrangements, MECOM involvement with EVI1 overexpression but no or low MDS1-EVI1 levels. Moreover, the 3q26 translocations in these AML patients often involve superenhancers of genes active in myeloid development (eg, CD164, PROM1, CDK6, or MYC). In & gt;50% of these cases, allele-specific GATA2 expression was observed, either by copy-number loss or by an unexplained allelic imbalance. Altogether, atypical 3q26 recapitulate the main leukemic mechanism of inv(3)/t(3;3) AML, namely EVI1 overexpression driven by enhancer hijacking, absent MDS1-EVI1 expression and potential GATA2 involvement. Therefore, we conclude that both atypical 3q26/MECOM and inv(3)/t(3;3) can be classified as a single entity of 3q26-rearranged AMLs. Routine analyses determining MECOM rearrangements and EVI1 and MDS1-EVI1 expression are required to recognize 3q-rearranged AML cases.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.2019003701

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XA 33000

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Language: English

Publisher: American Society of Hematology

Publication Date: 2020

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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The leukemic oncogene EVI1 hijacks a MYC super-enhancer by CTCF-facilitated loops

Ottema, Sophie ; Mulet-Lazaro, Roger ; Erpelinck-Verschueren, Claudia ; [et al.]

Springer Science and Business Media LLC ; 2021

In: Nature Communications Vol. 12, No. 1 ( 2021-09-28)

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In: Nature Communications, Springer Science and Business Media LLC, Vol. 12, No. 1 ( 2021-09-28)

Abstract: Chromosomal rearrangements are a frequent cause of oncogene deregulation in human malignancies. Overexpression of EVI1 is found in a subgroup of acute myeloid leukemia (AML) with 3q26 chromosomal rearrangements, which is often therapy resistant. In AMLs harboring a t(3;8)(q26;q24), we observed the translocation of a MYC super-enhancer ( MYC SE) to the EVI1 locus. We generated an in vitro model mimicking a patient-based t(3;8)(q26;q24) using CRISPR-Cas9 technology and demonstrated hyperactivation of EVI1 by the hijacked MYC SE. This MYC SE contains multiple enhancer modules, of which only one recruits transcription factors active in early hematopoiesis. This enhancer module is critical for EVI1 overexpression as well as enhancer-promoter interaction. Multiple CTCF binding regions in the MYC SE facilitate this enhancer-promoter interaction, which also involves a CTCF binding site upstream of the EVI1 promoter. We hypothesize that this CTCF site acts as an enhancer-docking site in t(3;8) AML. Genomic analyses of other 3q26-rearranged AML patient cells point to a common mechanism by which EVI1 uses this docking site to hijack enhancers active in early hematopoiesis.

Type of Medium: Online Resource

ISSN: 2041-1723

URL: Article

DOI: 10.1038/s41467-021-25862-3

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2021

detail.hit.zdb_id: 2553671-0

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Oncogene EVI1 Drives Acute Myeloid Leukemia Via a Targetable EVI1-CtBP1/2 Interaction and By Repressing Myeloid Regulator CEBPA

Pastoors, Dorien ; Havermans, Marije ; Hoogenboezem, Remco ; [et al.]

American Society of Hematology ; 2022

In: Blood Vol. 140, No. Supplement 1 ( 2022-11-15), p. 83-84

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In: Blood, American Society of Hematology, Vol. 140, No. Supplement 1 ( 2022-11-15), p. 83-84

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2022-156994

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XA 33000

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XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2022

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Aberrant EVI1 splicing contributes to EVI1 -rearranged leukemia

Tanaka, Atsushi ; Nakano, Taizo A. ; Nomura, Masaki ; [et al.]

American Society of Hematology ; 2022

In: Blood Vol. 140, No. 8 ( 2022-08-25), p. 875-888

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In: Blood, American Society of Hematology, Vol. 140, No. 8 ( 2022-08-25), p. 875-888

Abstract: Detailed genomic and epigenomic analyses of MECOM (the MDS1 and EVI1 complex locus) have revealed that inversion or translocation of chromosome 3 drives inv(3)/t(3;3) myeloid leukemias via structural rearrangement of an enhancer that upregulates transcription of EVI1. Here, we identify a novel, previously unannotated oncogenic RNA-splicing derived isoform of EVI1 that is frequently present in inv(3)/t(3;3) acute myeloid leukemia (AML) and directly contributes to leukemic transformation. This EVI1 isoform is generated by oncogenic mutations in the core RNA splicing factor SF3B1, which is mutated in & gt;30% of inv(3)/t(3;3) myeloid neoplasm patients and thereby represents the single most commonly cooccurring genomic alteration in inv(3)/t(3;3) patients. SF3B1 mutations are statistically uniquely enriched in inv(3)/t(3;3) myeloid neoplasm patients and patient-derived cell lines compared with other forms of AML and promote mis-splicing of EVI1 generating an in-frame insertion of 6 amino acids at the 3′ end of the second zinc finger domain of EVI1. Expression of this EVI1 splice variant enhanced the self-renewal of hematopoietic stem cells, and introduction of mutant SF3B1 in mice bearing the humanized inv(3)(q21q26) allele resulted in generation of this novel EVI1 isoform in mice and hastened leukemogenesis in vivo. The mutant SF3B1 spliceosome depends upon an exonic splicing enhancer within EVI1 exon 13 to promote usage of a cryptic branch point and aberrant 3′ splice site within intron 12 resulting in the generation of this isoform. These data provide a mechanistic basis for the frequent cooccurrence of SF3B1 mutations as well as new insights into the pathogenesis of myeloid leukemias harboring inv(3)/t(3;3).

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.2021015325

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XA 33000

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XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2022

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Complex 3q26/EVI1 Rearrangements Genocopy Inv(3)/t(3;3) Acute Myeloid Leukemias By Enhancer Hijacking, EVI1 Overexpression, Absent MDS1-EVI1 and Low GATA2 Expression

Ottema, Sophie ; Mulet-Lazaro, Roger ; Beverloo, Berna ; [et al.]

American Society of Hematology ; 2018

In: Blood Vol. 132, No. Supplement 1 ( 2018-11-29), p. 2766-2766

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In: Blood, American Society of Hematology, Vol. 132, No. Supplement 1 ( 2018-11-29), p. 2766-2766

Abstract: Introduction Acute myeloid leukemia (AML) with inv(3)(q21q26) or t(3;3)(q21;q26) overexpress EVI1 and have a very poor prognosis. EVI1 is part of the MECOM (MDS1-EVI1-Combination) locus from which MDS1-EVI1 and EVI1 can be transcribed from two different promoters. Although EVI1 is expressed at high levels, MDS1-EVI1 is absent or expressed at very low levels in inv(3)/t(3;3)-AMLs. Aberrant EVI1 expression in these leukemias is driven by the long-distant GATA2 enhancer, translocated from 3q21 to EVI1 at 3q26 (Gröschel et al, 2014). As a result of this GATA2 enhancer hijack by EVI1, GATA2 is switched off on the rearranged allele, resulting in mono-allelic and low GATA2 expression. We hypothesize that leukemic transformation of inv(3)/t(3;3)-AMLs is driven by EVI1 overexpression and by low GATA2 and that these leukemias are marked by the absence of MDS1-EVI1 expression. We previously reported about a group of AML patients that presented with complex rearrangements of 3q26 (refer to as variant-3q26-AML) with frequent MECOM involvement and very poor survival (Lugthart et al, 2010). Here we address the questions if these variant-3q26-AMLs 1) overexpress EVI1 by enhancer hijacking, 2) are marked by absent MDS1-EVI1 and 3) express low levels of GATA2. Accordingly, the variant-3q26-AMLs should be classified as inv(3)/t(3;3)-AMLs. Results We identified 37 variant-3q26-AMLs with MECOM rearrangement as determined by Fluorescent in-situ hybridization (FISH). RNA-seq of these AMLs revealed EVI1 overexpression but also demonstrated the absence of MDS1-EVI1 in 90% of patient samples. Applying 3q-capture DNA-seq, we found that in 2 cases the patient cells harboured a "hidden" inv(3)(q21q26) with involvement of the GATA2 enhancer. In 7 cases recurrent 3q26/EVI1 translocations were identified, e.g. t(2;3)(p21;q26), t(3;8)(q26;q24), t(3;7)(q26;q11), involving the THADA, MYC or CDK6 loci respectively as previously described. Interestingly, we identified new translocations to the EVI1 locus in 13 AMLs, including a t(3;6)(q26;q21) and a t(3;4)(q26;p15), involving the CD164, and PROM1 loci respectively. In these samples we find clearly skewed expression of these genes to one allele, suggestively caused by the rearrangement and enhancer hijacking. CD164 plays a key role in adhesion, proliferation and migration of CD34+ hematopoietic progenitor cells (Watt et al, 2000). PROM1 (CD133) is expressed in human hematopoietic stem and progenitor cells and is thought to be involved in maintaining stem cell properties by suppressing differentiation (Bauer et al, 2008). We argue that EVI1 overexpression in these variant-3q26-AMLs is driven by hijacking enhancers of genes that are normally active in myeloid progenitors. In most of the patients the translocation breakpoints are in between the promoters of MDS1 and EVI1, explaining absence of MDS1-EVI1 expression. In addition, analysis of SNP-array data of these patients (N=33) showed Copy Number Loss (CNL) of the MDS1 exon(s) and not the EVI1 exons in at least 5 cases. Together these data suggest the importance of MDS1-EVI1 loss in 3q26-AMLs. Furthermore we wondered whether low GATA2 expression is an important event in variant-3q26-AMLs. Similar to inv(3)/t(3;3)-AMLs (Gröschel et al, 2014), RNA-seq revealed that the GATA2 expression was on average a two-fold lower in the variant-3q26-AMLs (N=37), compared to non-3q26 rearranged AMLs (N=114). Surprisingly, SNP-array analysis in 26 variant-3q26-AMLs revealed CNLs of GATA2 and/or its enhancer in 7 patients. Detailed SNP analysis in GATA2 exons by combined 3q-capture DNA-seq and RNA-seq uncovered another 7 cases with mono-allelic GATA2 expression or skewing to expression of one allele (allele_freq 〈 0.4, P 〈 0.05). Hence, in 53% of these patient samples one of the GATA2 alleles appeared to be affected. These results are unexpected, as the GATA2 locus was not involved in any of these rearrangements. Conclusion Given their complex karyotype, variant-3q26-AMLs are often not recognised as 3q26/EVI1 AMLs. Although the exact mechanism remains elusive, the overall effect seems to be alike. EVI1 overexpression, potentially driven by enhancer hijacking of genes that are active in early myeloid progenitors, combined with absent MDS1-EVI1 and mono-allelic/low GATA2 expression results in AML with very poor survival. Given these data we believe variant-3q26-AMLs genocopy inv(3)/t(3;3)-AMLs and should be classified as such. Disclosures Haferlach: MLL Munich Leukemia Laboratory: Employment, Equity Ownership. Haferlach:MLL Munich Leukemia Laboratory: Employment, Equity Ownership.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2018-99-113339

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2018

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Integrated Analysis of Global DNA Methylation and Transcription Reveals a Leukemia Subtype with Extreme Hypermethylation Associated with Silencing of Regulators of Differentiation

Gebhard, Claudia ; Mulet-Lazaro, Roger ; Schwarzfischer, Lucia ; [et al.]

American Society of Hematology ; 2018

In: Blood Vol. 132, No. Supplement 1 ( 2018-11-29), p. 2608-2608

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In: Blood, American Society of Hematology, Vol. 132, No. Supplement 1 ( 2018-11-29), p. 2608-2608

Abstract: Acute myeloid leukemia (AML) represents a highly heterogeneous myeloid stem cell disorder classified based on various genetic defects. Besides genetic alterations, epigenetic changes are recognized as an additional mechanism contributing to leukemogenesis, but insight into the latter process remains minor. Using a combination of Methyl-CpG-Immunoprecipitation (MCIp-chip) and MALDI-TOF analysis of bisulfite-treated DNA in a cohort of 196 AML patients we previously demonstrated that (cyto)genetically defined AML subtypes, including CBFB-MYH11, AML-ETO, NPM1-mut, CEBPA-mut or IDH1/2-mut subtypes, express specific DNA-methylation profiles (Gebhard et al, Leukemia, 2018). A fraction of AML patients (5/196) displayed a unique abnormal hypermethylation profile that was completely distinct from any other AML subtype. These patients present immature leukemia (FAB M0, M1) with various chromosomal aberrations but very few mutations (e.g. no IDH1/2, KRAS, DNMT3A) that might explain the CpG island methylator phenotype (CIMP) phenotype. The CIMP patients showed high resemblance with a recently reported CEBPA methylated subgroup (Wouters et al, 2007 and Figueroa et al, 2009), which we confirmed by MCIp-chip and MALDI-TOF analysis. To explore the whole range of epigenetic alterations in the CIMP-AML patients we performed in-depth global DNA methylation and gene expression analyses (MCIp-seq and RNA-seq) in 45 AML and 12 CIMP patients from both studies. Principle component analysis and t-distributed stochastic neighbor embedding (t-SNE) revealed that CIMP patients express a unique DNA-methylation and gene-expression signature that separated them from all other AMLs. We could discriminate promoter methylation from non-promoter methylation by selecting MCIp-seq peaks within 3kb around TSS. Promoter hypermethylation was highly associated with repression of genes (PCC = -0.053, p-value = 0.00075). Hypermethylation of non-promoter regions was more strongly associated with upregulation of genes (PCC = 0.046, p-value = 4.613e-06). Interestingly, differentially methylated regions also showed a positive association with myeloid lineage CTCF binding sites (27% vs 18% expected, p-value 〈 2.2e-16 in a chi-square test of independence). Methylation of CTCF sites causes loss of CTCF binding, which has been reported to disrupt boundaries between so-called topologically associated domains (TADs), allowing enhancers located in a particular TAD to become accessible to genes in adjacent TADs and affect their transcription. Whether this is the case is under investigation. In this study we particularly focused on the role of hypermethylation of promoters in CIMP-AMLs. Promoters of many transcriptional regulators that are involved in the differentiation of myeloid lineages of which several are frequently mutated in AML were hypermethylated and repressed, including CEBPA, CEBPD, IRF8, GATA2, KLF4, MITF or MAFB. Notably, HMGA2, a critical regulator of myeloid progenitor expansion, exhibited the largest degree of CIMP promoter hypermethylation compared to the other AMLs, accompanied by a reduction in gene expression. Moreover, multiple members of the HOXB family and KLF1 (erythroid differentiation) were methylated and repressed as well. In addition, these patients frequently showed hypermethylation of many chromatin factors (e.g. LMNA, CHD7 or TET2). Hypermethylation of the TET2 promoter could result in a loss of maintenance DNA demethylation and therefore successive hypermethylation at CpG islands. We carried out regulome-capture-bisulfite sequencing on CIMP-AMLs compared to other AML samples and normal blood cell controls and confirmed methylation of the same transcription and chromatin factor promoters. We conclude that these leukemias represent very primitive HSCPs which are blocked in differentiation into multiple hematopoietic lineages, due to the absence of regulators of these lineages. Although the underlying cause for the extreme hypermethylation signature is still subject to ongoing studies, the consequence of promoter hypermethylation is silencing of key lineage regulators causing the differentiation arrest in these cells. We argue that these patients may particularly benefit from therapies that revert DNA methylation. Disclosures Ehninger: Cellex Gesellschaft fuer Zellgewinnung mbH: Employment, Equity Ownership; GEMoaB Monoclonals GmbH: Employment, Equity Ownership; Bayer: Research Funding. Thiede:AgenDix: Other: Ownership; Novartis: Honoraria, Research Funding.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2018-99-118521

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XA 33000

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XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2018

detail.hit.zdb_id: 1468538-3

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Induced cell-autonomous neutropenia systemically perturbs hematopoiesis in Cebpa enhancer-null mice

Avellino, Roberto ; Mulet-Lazaro, Roger ; Havermans, Marije ; [et al.]

American Society of Hematology ; 2022

In: Blood Advances Vol. 6, No. 5 ( 2022-03-08), p. 1406-1419

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In: Blood Advances, American Society of Hematology, Vol. 6, No. 5 ( 2022-03-08), p. 1406-1419

Abstract: The transcription factor C/EBPa initiates the neutrophil gene expression program in the bone marrow (BM). Knockouts of the Cebpa gene or its +37kb enhancer in mice show 2 major findings: (1) neutropenia in BM and blood; (2) decrease in long-term hematopoietic stem cell (LT-HSC) numbers. Whether the latter finding is cell-autonomous (intrinsic) to the LT-HSCs or an extrinsic event exerted on the stem cell compartment remained an open question. Flow cytometric analysis of the Cebpa +37kb enhancer knockout model revealed that the reduction in LT-HSC numbers observed was proportional to the degree of neutropenia. Single-cell transcriptomics of wild-type (WT) mouse BM showed that Cebpa is predominantly expressed in early myeloid-biased progenitors but not in LT-HSCs. These observations suggest that the negative effect on LT-HSCs is an extrinsic event caused by neutropenia. We transplanted whole BMs from +37kb enhancer-deleted mice and found that 40% of the recipient mice acquired full-blown neutropenia with severe dysplasia and a significant reduction in the total LT-HSC population. The other 60% showed initial signs of myeloid differentiation defects and dysplasia when they were sacrificed, suggesting they were in an early stage of the same pathological process. This phenotype was not seen in mice transplanted with WT BM. Altogether, these results indicate that Cebpa enhancer deletion causes cell-autonomous neutropenia, which reprograms and disturbs the quiescence of HSCs, leading to a systemic impairment of the hematopoietic process.

Type of Medium: Online Resource

ISSN: 2473-9529 , 2473-9537

URL: Article

DOI: 10.1182/bloodadvances.2021005851

Language: English

Publisher: American Society of Hematology

Publication Date: 2022

detail.hit.zdb_id: 2876449-3

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