Hematopoietic cell transplantation (HCT) is a critical treatment of patients with high-risk hematopoietic malignancies, hematological deficiencies, and other immune diseases. In allogeneic HCT ...(allo-HCT), donor-derived T cells recognize host tissues as foreign, causing graft-versus-host disease (GVHD) which is a main contributor to morbidity and mortality. The intestine is one of the organs most severely affected by GVHD and research has recently highlighted the importance of bacteria, particularly the gut microbiota, in HCT outcome and in GVHD development. Loss of intestinal bacterial diversity is common during the course of HCT and is associated with GVHD development and treatment with broad-spectrum antibiotics. Loss of intestinal diversity and outgrowth of opportunistic pathogens belonging to the phylum Proteobacteria and Enterococcus genus have also been linked to increased treatment-related mortality including GVHD, infections, and organ failure after allo-HCT. Experimental studies in allo-HCT animal models have shown some promising results for prebiotic and probiotic strategies as prophylaxis or treatment of GVHD. Continuous research will be important to define the relation of cause and effect for these associations between microbiota features and HCT outcomes. Importantly, studies focused on geographic and cultural differences in intestinal microbiota are necessary to define applicability of new strategies targeting the intestinal microbiota.
Bone marrow transplantation (BMT) offers curative potential for patients with high-risk hematologic malignancies, but the post-transplantation period is characterized by profound immunodeficiency. ...Recent studies indicate that the intestinal microbiota not only regulates mucosal immunity, but can also contribute to systemic immunity and hematopoiesis. Using antibiotic-mediated microbiota depletion in a syngeneic BMT mouse model, here we describe a role for the intestinal flora in hematopoietic recovery after BMT. Depletion of the intestinal microbiota resulted in impaired recovery of lymphocyte and neutrophil counts, while recovery of the hematopoietic stem and progenitor compartments and the erythroid lineage were largely unaffected. Depletion of the intestinal microbiota also reduced dietary energy uptake and visceral fat stores. Caloric supplementation through sucrose in the drinking water improved post-BMT hematopoietic recovery in mice with a depleted intestinal flora. Taken together, we show that the intestinal microbiota contribute to post-BMT hematopoietic reconstitution in mice through improved dietary energy uptake.
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•Intestinal microbiota depletion impairs hematopoiesis after bone marrow transplantation•Intestinal flora depletion decreases energy harvest and reduces visceral adipose tissue•Caloric supplementation rescues impaired hematopoiesis in microbiota-depleted mice•The effects of intestinal flora disruption are dose dependent
Intestinal bacteria can exert effects on systemic hematopoiesis. Staffas et al. show that the intestinal flora contributes to hematopoietic recovery after bone marrow transplantation (BMT) through improved dietary energy uptake. The findings suggest possible clinical intervention strategies for improved BMT outcomes.
Mutation status of FLT3, NPM1, CEBPA, and WT1 genes and gene expression levels of ERG, MN1, BAALC, FLT3, and WT1 have been identified as possible prognostic markers in acute myeloid leukemia (AML). ...We have performed a thorough prognostic evaluation of these genetic markers in patients with pediatric AML enrolled in the Nordic Society of Pediatric Hematology and Oncology (NOPHO) 1993 or NOPHO 2004 protocols. Mutation status and expression levels were analyzed in 185 and 149 patients, respectively. Presence of FLT3-internal tandem duplication (ITD) was associated with significantly inferior event-free survival (EFS), whereas presence of an NPM1 mutation in the absence of FLT3-ITD correlated with significantly improved EFS. Furthermore, high levels of ERG and BAALC transcripts were associated with inferior EFS. No significant correlation with survival was seen for mutations in CEBPA and WT1 or with gene expression levels of MN1, FLT3, and WT1. In multivariate analysis, the presence of FLT3-ITD and high BAALC expression were identified as independent prognostic markers of inferior EFS. We conclude that analysis of the mutational status of FLT3 and NPM1 at diagnosis is important for prognostic stratification of patients with pediatric AML and that determination of the BAALC gene expression level can add valuable information.
Pediatric acute myeloid leukemia (AML) is a heterogeneous disease composed of clinically relevant subtypes defined by recurrent cytogenetic aberrations. The majority of the aberrations used in risk ...grouping for treatment decisions are extensively studied, but still a large proportion of pediatric AML patients remain cytogenetically undefined and would therefore benefit from additional molecular investigation. As aberrant epigenetic regulation has been widely observed during leukemogenesis, we hypothesized that DNA methylation signatures could be used to predict molecular subtypes and identify signatures with prognostic impact in AML. To study genome-wide DNA methylation, we analyzed 123 diagnostic and 19 relapse AML samples on Illumina 450k DNA methylation arrays. We designed and validated DNA methylation-based classifiers for AML cytogenetic subtype, resulting in an overall test accuracy of 91%. Furthermore, we identified methylation signatures associated with outcome in t(8;21)/
, normal karyotype, and
-rearranged subgroups (
< 0.01). Overall, these results further underscore the clinical value of DNA methylation analysis in AML.
Micro-ribonucleic acid-155 (miR-155) is one of the first described oncogenic miRNAs. Although multiple direct targets of miR-155 have been identified, it is not clear how it contributes to the ...pathogenesis of acute myeloid leukemia. We found miR-155 to be a direct target of Meis1 in murine Hoxa9/Meis1 induced acute myeloid leukemia. The additional overexpression of miR-155 accelerated the formation of acute myeloid leukemia in Hoxa9 as well as in Hoxa9/Meis1 cells
However, in the absence or following the removal of miR-155, leukemia onset and progression were unaffected. Although miR-155 accelerated growth and homing in addition to impairing differentiation, our data underscore the pathophysiological relevance of miR-155 as an accelerator rather than a driver of leukemogenesis. This further highlights the complexity of the oncogenic program of Meis1 to compensate for the loss of a potent oncogene such as miR-155. These findings are highly relevant to current and developing approaches for targeting miR-155 in acute myeloid leukemia.
Hematopoiesis is regulated by transcription factors that induce cell fate and differentiation in hematopoietic stem cells into fully differentiated hematopoietic cell types. The transcription factor ...zinc finger protein 148 (Zfp148) interacts with the hematopoietic transcription factor Gata1 and has been implicated to play an important role in primitive and definitive hematopoiesis in zebra fish and mouse chimeras. We have recently created a gene-trap knockout mouse model deficient for Zfp148, opening up for analyses of hematopoiesis in a conventional loss-of-function model in vivo. Here, we show that Zfp148-deficient neonatal and adult mice have normal or slightly increased levels of hemoglobin, hematocrit, platelets and white blood cells, compared to wild type controls. Hematopoietic lineages in bone marrow, thymus and spleen from Zfp148 (gt/gt) mice were further investigated by flow cytometry. There were no differences in T-cells (CD4 and CD8 single positive cells, CD4 and CD8 double negative/positive cells) in either organ. However, the fraction of CD69- and B220-positive cells among lymphocytes in spleen was slightly lower at postnatal day 14 in Zfp148 (gt/gt) mice compared to wild type mice. Our results demonstrate that Zfp148-deficient mice generate normal mature hematopoietic populations thus challenging earlier studies indicating that Zfp148 plays a critical role during hematopoietic development.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
Clonal hematopoiesis of indetermined potential (CHIP) is increasingly common with age and identified in more than 1 in 10 healthy individuals at the age of 70. Mutations in epigenetic and splicing ...factors are recurrent genetic events in CHIP, and experimental data suggest that microbial and inflammatory factors may contribute to the selective expansion of hematopoietic stem cells carrying these mutations. In parallel, CHIP is associated with an increased incidence of cardiovascular disease and studies in mice support a causal relationship where mutated hematopoietic cells contribute to inflammation and atherosclerotic plaque formation. Collectively, current clinical and experimental data suggest a complex network where genetic alterations and inflammatory factors contribute to the development of the early stages of hematological malignancy.
Cytogenetic aberrations are often involved in acute myeloid leukemia (AML) and can serve as diagnostic markers, prognosis predictors and impact the choice of therapy. A translocation t(7;12)(q36;p13) ...is reported in up to 20-30% of AML patients typically diagnosed before 24 months of age (Beverloo, Panagopoulos et al. 2001, Cancer Res 61(14): 5374-5377). However, in a retrospective survey of the Nordic Organization of Pediatric Hematology and Oncology (NOPHO) registry, only 4% of reported AML diagnosed before 24 months of age had t(7;12) (Espersen, Noren-Nystrom et al. 2018, Genes Chromosomes Cancer 57(7): 359-365). The t(7;12) is difficult to identify with conventional karyotyping, why the true frequency of t(7;12) may be underestimated. Similarly, the reported prognosis for t(7;12) patients has varied ranging from good (Espersen, Noren-Nystrom et al. 2018) to dismal (von Bergh, van Drunen et al. 2006, Genes Chromosomes Cancer 45(8): 731-739). The translocation has been reported to give rise to an in-frame fusion transcript, MNX1::ETV6. However, detection of this fusion is reported only in 50% of cases in contrast to high expression of MNX1 in 100% (von Bergh, van Drunen et al. 2006). The aim of this study was to determine the frequency of the t(7;12) in pediatric AML patients in the NOPHO AML-2004/2012 protocols, their event-free and overall survival and to investigate the presence of additional genetic alterations. Patients in Sweden, Denmark, or Iceland between 2004 to 2020 diagnosed with AML before 2 years of age that had not been reported with a recurrent genetic aberration plus all patients diagnosed with t(7;12) AML were identified. Bone marrow, or peripheral blood samples from patients were retrieved from the NOPHO biobank. This cohort constituted 86% (31 out of 36) of all patients that fulfilled these criteria. In total 89 AML patients were diagnosed before 2 years of age. The t(7;12) AML cases were identified by screening for high expression of MNX1 and presence of fusion transcripts using whole transcriptome sequencing (WTS). Whole genome sequencing (WGS) was done to identify chromosomal rearrangements, and translocation breakpoints. At diagnosis, four patients were diagnosed with t(7;12). A central karyotype review of all patients reported two additional cases. No further cases were identified using WTS. Thus, the frequency of t(7;12) AML was 7% (6 out of 89) and for patients diagnosed before 12 months of age 11% (5 out of 47). In total 12 cases with t(7;12) were identified in the complete NOPHO registry but only 11 patients received treatment according to NOPHO protocol. The relapse rate was 54% (6 out of 11). All relapse cases underwent allogeneic hematopoietic stem cell (HSC) transplantation in complete remission two (CR2), and their overall survival (OS) was 83% (5 out of 6). Hence OS for all t(7;12) patients treated according to the NOPHO2004 and NOPHO2012 protocols was 91% (10 out of 11). Analysis of WTS data showed similar gene expression profile between our t(7;12) cases and t(7;12) cases retrieved from the TARGET database. Genes that were typically overexpressed in all t(7;12) AML were, MNX1, MNX1-AS1, MNX1-AS2, LIN28B, BAMBI, MAF, CRISP3, EDIL3, CTTNBP2, KRT72, and AGR2, where MNX1 seems to be uniquely expressed in this type of leukemia (Nilsson et al. 2022, Int J Cancer 151(5): 770-782). Analysis of fusion transcripts showed presence of MNX1::ETV6 in just one case. The remaining cases instead showed presence of other fusion transcripts involving ETV6, NOM1::ETV6, ETV6::NOM1, ETV6::LMBR1 and ETV6::BMAL2. WGS verified a fusion between NOM1 and ETV6 in 3 cases. The patient with ETV6::BMAL2 showed that 16 Mb of chromosome 12 was inserted into chromosome 7 placing a large part of ETV6 near MNX1. The fusion transcript ETV6::BMAL2 is the product of what remains on chromosome 12. In conclusion, frequency of t(7;12) AML in the NOPHO treatment cohort was approximately 7%, with 54% relapse rate, but most patients were salvaged by HSCT in CR2. Heterogeneous gene fusion transcripts were identified in this subgroup of AML where ETV6::NOM1 was most frequent. However, all cases showed similar gene expression signatures which underlines that the leukemia driving event is ectopic expression of MNX1 (Waraky, A., 2023, Haematologica, DOI: 10.3324/haematol.2022.282255) and should therefore be the defining classifying criteria of this type of AML.
Recent studies in both mice and humans have demonstrated that the intestinal microbiota can affect hematopoiesis. Here, we performed experiments in preclinical mouse models for syngeneic and ...allogeneic HCT. To study the metabolic effects of intestinal flora depletion on post-transplant hematopoiesis in humans, we performed HCT experiments using a metabolic chamber and bomb calorimetry of feces. Taken together, we show that the intestinal microbiota supports post-transplant hematopoietic reconstitution in HCT recipients through its role in dietary energy uptake.
Mutations leading to constitutive RAS activation contribute in myeloid leukemogenesis. RAS mutations in myeloid cells are accompanied by excessive formation of reactive oxygen species (ROS), but the ...source of ROS and their role for the initiation and progression of leukemia have not been clearly defined. To determine the role of NOX2-derived ROS in RAS-driven leukemia, double transgenic LSL-Kras
× Mx1-Cre mice expressing oncogenic KRAS in hematopoietic cells (M-Kras
) were treated with N
-methyl-histamine (NMH) that targeted the production of NOX2-derived ROS in leukemic cells by agonist activity at histamine H
receptors. M-Kras
mice developed myeloid leukemia comprising mature CD11b
Gr1
myeloid cells that produced NOX2-derived ROS. Treatment of M-Kras
mice with NMH delayed the development of myeloproliferative disease and prolonged survival. In addition, NMH-treated M-Kras
mice showed reduction of intracellular ROS along with reduced DNA oxidation and reduced occurence of double-stranded DNA breaks in myeloid cells. The in vivo expansion of leukemia was markedly reduced in triple transgenic mice where KRAS was expressed in hematopoietic cells of animals with genetic NOX2 deficiency (Nox2
× LSL-Kras
× Mx1-Cre). Treatment with NMH did not alter in vivo expansion of leukemia in these NOX2-deficient transgenic mice. We propose that NOX2-derived ROS may contribute to the progression of KRAS-induced leukemia and that strategies to target NOX2 merit further evaluation in RAS-mutated hematopoietic cancer.