Browse
Submit Data
Databases
API
Help

Dataset Information

0 Views

0 Connections

0 Citations

0 Reanalyses

0 Downloads

Omics score: 0

Modeling GATA2 deficiency in mice: the R396Q mutation disrupts normal hematopoiesis

ABSTRACT: GATA2 deficiency is an autosomal dominant germline disorder of immune dysfunction and bone marrow failure with a high propensity for leukemic transformation in adolescents, present in up to 7% of pediatric myelodysplastic syndrome (MDS) and 15% of advanced MDS cases. While sequencing studies have identified several secondary mutations thought to contribute to malignancy, the mechanisms of disease progression have been difficult to identify due to a lack of disease-specific experimental models. Here, we generated a murine model of one of the most common GATA2 mutations associated with leukemic progression in GATA2 deficiency, Gata2R396Q/+. While mutant mice exhibit mild defects in peripheral blood output throughout life, they display significant hematopoietic abnormalities in the bone marrow (BM), including a reduction in hematopoietic stem cell (HSC) function and intrinsic biases toward specific stem cell subsets that differ from previous models of GATA2 loss. Supporting this observation, single-cell RNA sequencing of BM hematopoietic progenitors revealed a loss of HSC stemness, myeloid-bias, and accelerated ageing phenotype. Importantly, we show that Gata2R396Q/+ exerts effects early in hematopoietic development, as mutant mice generate fewer HSCs in the aorta gonad mesonephros, and fetal liver HSCs have reduced function. This reduced pool of HSCs and aged phenotype could be potential contributors to leukemic transformation in patients, and our model provides a useful tool to study the mechanisms of malignant transformation in GATA2 deficiency.

ORGANISM(S): Mus musculus

PROVIDER: GSE275213 | GEO | 2024/12/23

REPOSITORIES: GEO

ACCESS DATA

Json Xml

Dataset's files

Source:

			Action	DRS
		Other

Items per page:

1 - 1 of 1

Similar Datasets

scRNA-seq of kidney marrow cells from Gata2b deficient and wild type zebrafish

Project description:GATA2 is a pivotal hematopoietic transcription factor required for generation and maintenance of hematopoietic stem cells (HSCs). Due to early embryonic lethality of Gata2 deficiency in mice, its role during adult hematopoiesis is incompletely understood. In zebrafish, mammalian functions of Gata2 are split between two orthologues: Gata2a and Gata2b. Previous studies have shown that Gata2b is prominently expressed in hematopoietic stem and progenitor cells (HSPCs), whereas Gata2a is mainly expressed in the vasculature. We found that Gata2b deficient zebrafish have a reduction in embryonic definitive HSPC numbers and have impaired myeloid lineage differentiation, but are viable. This allowed us to study the role of Gata2b in adult hematopoiesis. To assess the impact of Gata2b deficiency on the transcriptional profile of HSPCs and differentiated cells, we sorted the entire progenitor and HSPC population including the lymphoid population from kidney marrow (KM) of WT and germline Gata2b deficient zebrafish based on scatter profiles and processed for single-cell RNA sequencing. To enrich the scarce HSC population, we used pooled KM from two WT and Gata2b deficient Tg(CD41:GFP) zebrafish per sample and included all CD41:GFPlow expressing cells present in the kidney marrow pool as these cells were shown to contain transplantable HSCs.

2022-04-09 | E-MTAB-10370 | biostudies-arrayexpress

Oxidative stress in myelodysplastic syndromes

Project description:Control of oxidative stress in the bone marrow (BM) is key for maintaining the balance between self-renewal, proliferation, and differentiation of hematopoietic cells. Breakdown of this regulation can lead to diseases characterized by BM failure such as the myelodysplastic syndromes (MDS). To better understand the role of oxidative stress in MDS development, we compared protein carbonylation as an oxidative stress marker in BM of patients with MDS and control subjects, and also patients with MDS under treatment with the iron chelator deferasirox.

2019-10-30 | PXD013609 | Pride

GATA2 tumor suppressive role revealed in ERG - AML mouse model, unveiling a preleukemic phenotype

Project description:The transcription factor (TF) GATA2, is crucial for the formation, and lifelong homeostasis of hematopoietic stem cells. Mono-Allelic germline disruptions of GATA2, result in haploinsufficiency syndromes. These disorders display variable manifestations, including immune deficiency, lymphedema, pulmonary proteinosis, and bone marrow failure. The later is presented by myelodysplastic changes (MDS), that subsequently evolve to leukemia (AML). MDS/AML are the most devastating, yet most consistent outcomes, designating GATA2 deficiency as one major predisposing condition to AML development.

2023-09-15 | GSE143308 | GEO

mRNA profiles of bone marrow and splenic hematopoietic stem cells after 5-FU challenge

Project description:Under stress hematopoiesis, previous studies have suggested the migration of hematopoietic stem cells (HSCs) from bone marrow (BM) to extramedullary sites such as spleen. However, there is little direct evidence of HSC migration from BM to spleen. Here, we induced myeloablation via 5-fluorouracil (5-FU) and showed the direct evidence of HSC migration from BM to spleen during hematopoietic regeneration via a photoconvertible fluorophore. We found that during hematopoietic regeneration, there were mechanistic differences for HSC migration during early (day 3 to 8) and late phase (day 11 to 14). During steady-state, HSCs preferentially migrated to BM rather than spleen, but during the early phase HSC migration to spleen predominated. Indeed, in the early phase, HSC mobilization from BM was induced in G-CSF-dependent manners, while HSCs in the late phase gained significantly enhanced cell-autonomous motility, which was independent of chemotaxis. Collectively, HSC migration was dynamically changed during hematopoietic regeneration.

2023-12-01 | GSE248234 | GEO

Leukemic hematopoietic stem cell FLA2

Project description:Sca1+Lineage-cKit+ fetal liver (FL) and bone marrow (BM) cells were sorted and infected with Hoxa9+Meis retroviral particles, which provided fully leukemic complement to hematopoietic cells. These cells were injected into mice and leukemia onset was monitored in vivo. Leukemic stem cell (L-HSC) frequencies of these primary leukemias were evaluated using limiting dilution stem cell transfer in secondary recipients. The L-HSC frequency is near absolute for the FLA2 leukemia (around 1 L-HSC per 1.4 total leukemic bone marrow cells), whereas the other leukemias (FLB1, FLB2 and BM-derived leukemias) generated within the same experiment have a wide range of L-HSC frequencies. Keywords: other

2012-06-04 | GSE7235 | GEO

Regulation of the hematopoietic stem cell pool by c-Kit-associated trogocytosis

Project description:Hematopoietic stem cells (HSCs) are routinely mobilized from the bone marrow (BM) to the blood circulation for clinical transplantation. However, the mechanisms by which HSCs exit the marrow are not well understood. We found that most BM HSCs present the macrophage marker F4/80 on their cell surface. Upon enforced mobilization induced by granulocyte-colony-stimulating factor or CXCR4 antagonist, F4/80+ HSCs were selectively retained in the BM while F4/80— HSCs were mobilized to the blood. Remarkably, F4/80 was acquired through direct transfer via c-Kit-mediated trogocytosis from BM resident macrophages in mouse and human settings. Our study uncovers a function for BM-resident macrophages in controlling the HSC mobilizable pool, and identifies mechanisms that may be used to improve HSC yield for transplantation.

2024-08-09 | GSE267632 | GEO

Functional and molecular characterization of mouse Gata2-independent hematopoietic progenitors

Project description:The Gata2 transcription factor is a pivotal regulator of hematopoietic stem cell (HSC) development and maintenance. Gata2 functions in the embryo during endothelial cell to hematopoietic cell transition (EHT) to affect hematopoietic cluster, HPC and HSC formation. Although previous studies of cell populations phenotypically enriched in HPCs and HSCs show expression of Gata2, there has been no direct study of Gata2 expressing cells during normal hematopoiesis. In this study we generate a Gata2 Venus reporter mouse model with unperturbed Gata2 expression to examine the hematopoietic function and transcriptome of Gata2 expressing and nonexpressing cells. Gata2Venus- HPCs 1 replicate, Gata2Venus+ HPCs 1 replicate

2015-12-22 | E-GEOD-76254 | biostudies-arrayexpress

Gene expression profiling of LT-HSCs and ST-HSCs conditionally expressing MLL-ENL

Project description:We have developed a new conditional transgenic mouse showing that MLL-ENL, at an endogenous-like expression level, induces leukemic transformation selectively in LT-HSCs. To investigate the molecular mechanism of leukemic transformation in LT-HSCs conditionally expressing MLL-ENL, we preliminarily performed comprehensive gene expression profiling of CreER-transduced LT-HSCs and ST-HSCs using cDNA microarray analysis. For initial screening of candidate genes invloved in the leukemic transformation, total RNA was extracted from colony-forming cells derived from LT-HSCs and ST-HSCs transduced with CreER or mock. Four samples were analyzed, and CreER-transduced LT/ST-HSC-derived cells were compared with mock-transduced LT/ST-HSC-derived cells, while CreER/mock-transduced LT-HSC-derived cells were compared with CreER/mock-transduced ST-HSC-derived cells.

2013-07-17 | E-GEOD-48539 | biostudies-arrayexpress

Comparison of normal mouse hematopoietic stem cells (HSC) to mobilized and leukemia-inducing hematopoietic stem cells

Project description:Highly purified Hematopoietic stem cells (HSC) from mouse bone marrow (BM) were compared to HSC after two days of cytoxan/GCSF treatment (Cyclophosphamide/granulocyte colony-stimulating factor) (Day2Mob) and leukemic HSC from mice lacking JunB. See Forsberg et. al. 2010 for details. CML - chronic myelogenous leukemia.

2010-02-17 | GSE20359 | GEO

Expression data from osteoblastic lineage cells isolated from normal and leukemic mice

Project description:Multipotent stromal cells (MSC) and their osteoblastic lineage cell (OBC) derivatives are part of the bone marrow (BM) niche and contribute to hematopoietic stem cell (HSC) maintenance. During myeloproliferative neoplasm (MPN) development, MSCs are stimulated to overproduce functtionally altered OBCs, which accumulate in the BM cavity as myelofibrotic cells. These MPN-expanded OBCs, in turn, impair the maintenance of normal HSCs but not of leukemic stem cells. We used microarrays to detail the global gene expression changes in OBCs during BCR/ABL-induced MPN development, and understand the molecular deregulations contributing to their functional changes.

2013-07-11 | GSE48438 | GEO

OmicsDI is part of the ELIXIR infrastructure

OmicsDI is an Elixir interoperability service. Learn more ›

Tweets

OmicsDI Databases

PRIDE
PeptideAtlas
MassIVE
JPOST Repository
Physiome Model Repository

EGA
EVA
ENA
LINCS
PAXDB
Cell Collective

MetaboLights
Metabolomics Workbench
MetabolomeExpress
GNPS
BioModels
FAIRDOMHub

ArrayExpress
dbGaP
ExpressionAtlas
GEO
NODE

Information

Databases
Help
API
Contact us
Code on GitHub
Terms of use
Submit Data