Shabnam Kharazi scite author profile

Recent studies implicated the existence of adult lymphoid-primed multipotent progenitors (LMPPs) with little or no megakaryocyte-erythroid potential, questioning common myeloid and lymphoid progenitors as obligate intermediates in hematopoietic stem cell (HSC) lineage commitment. However, the existence of LMPPs remains contentious. Herein, global and single-cell analyses revealed a hierarchical organization of transcriptional lineage programs, with downregulation of megakaryocyte-erythroid genes from HSCs to LMPPs, sustained granulocyte-monocyte priming, and upregulation of common lymphoid (but not B and T cell-specific) genes. These biological and molecular relationships, implicating almost mutual exclusion of megakaryocyte-erythroid and lymphoid pathways, are established already in fetal hematopoiesis, as evidenced by existence of LMPPs in fetal liver. The identification of LMPPs and hierarchically ordered transcriptional activation and downregulation of distinct lineage programs is compatible with a model for HSC lineage commitment in which the probability for undergoing different lineage commitment fates changes gradually when progressing from HSCs to LMPPs.

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DNA methylation protects hematopoietic stem cell multipotency from myeloerythroid restriction

Bröske

et al. 2009

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DNA methylation is a dynamic epigenetic mark that undergoes extensive changes during differentiation of self-renewing stem cells. However, whether these changes are the cause or consequence of stem cell fate remains unknown. Here, we show that alternative functional programs of hematopoietic stem cells (HSCs) are governed by gradual differences in methylation levels. Constitutive methylation is essential for HSC self-renewal but dispensable for homing, cell cycle control and suppression of apoptosis. Notably, HSCs from mice with reduced DNA methyltransferase 1 activity cannot suppress key myeloerythroid regulators and thus can differentiate into myeloerythroid, but not lymphoid, progeny. A similar methylation dosage effect controls stem cell function in leukemia. These data identify DNA methylation as an essential epigenetic mechanism to protect stem cells from premature activation of predominant differentiation programs and suggest that methylation dynamics determine stem cell functions in tissue homeostasis and cancer.

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Lymphomyeloid Contribution of an Immune-Restricted Progenitor Emerging Prior to Definitive Hematopoietic Stem Cells

et al. 2013

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In jawed vertebrates, development of an adaptive immune-system is essential for protection of the born organism against otherwise life-threatening pathogens. Myeloid cells of the innate immune system are formed early in development, whereas lymphopoiesis has been suggested to initiate much later, following emergence of definitive hematopoietic stem cells (HSCs). Herein, we demonstrate that the embryonic lymphoid commitment process initiates earlier than previously appreciated, prior to emergence of definitive HSCs, through establishment of a previously unrecognized entirely immune-restricted and lymphoid-primed progenitor. Notably, this immune-restricted progenitor appears to first emerge in the yolk sac and contributes physiologically to the establishment of lymphoid and some myeloid components of the immune-system, establishing the lymphomyeloid lineage restriction process as an early and physiologically important lineage-commitment step in mammalian hematopoiesis.

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Mice deficient of Myc super-enhancer region reveal differential control mechanism between normal and pathological growth

Dave

Sur

Yan

et al. 2017

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The gene desert upstream of the MYC oncogene on chromosome 8q24 contains susceptibility loci for several major forms of human cancer. The region shows high conservation between human and mouse and contains multiple MYC enhancers that are activated in tumor cells. However, the role of this region in normal development has not been addressed. Here we show that a 538 kb deletion of the entire MYC upstream super-enhancer region in mice results in 50% to 80% decrease in Myc expression in multiple tissues. The mice are viable and show no overt phenotype. However, they are resistant to tumorigenesis, and most normal cells isolated from them grow slowly in culture. These results reveal that only cells whose MYC activity is increased by serum or oncogenic driver mutations depend on the 8q24 super-enhancer region, and indicate that targeting the activity of this element is a promising strategy of cancer chemoprevention and therapy.DOI: http://dx.doi.org/10.7554/eLife.23382.001

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Niche-mediated depletion of the normal hematopoietic stem cell reservoir by Flt3-ITD–induced myeloproliferation

Mead

Neo

Barkas

et al. 2017

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Splice-correcting oligonucleotides restore BTK function in X-linked agammaglobulinemia model

Bestas¹,

Moreno²,

Blomberg³

et al. 2014

J. Clin. Invest.

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FLT3 ligand and not TSLP is the key regulator of IL-7–independent B-1 and B-2 B lymphopoiesis

Jensen

Kharazi

Böiers

et al. 2008

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Phenotypically and functionally distinct progenitors and developmental pathways have been proposed to exist for fetally derived B-1 and conventional B-2 cells. Although IL-7 appears to be the primary cytokine regulator of fetal and adult B lymphopoiesis in mice, considerable fetal B lymphopoiesis and postnatal B cells are sustained in the absence of IL-7; in humans, B-cell generation is suggested to be largely IL-7-independent, as severe combined immune-deficient patients with IL-7 deficiency appear to have normal B-cell numbers. However, the role of other cytokines in IL-7-independent B lymphopoiesis remains to be established. Although thymic stromal lymphopoietin (TSLP) has been proposed to be the main factor driving IL-7-independent B lymphopoiesis and to distinguish fetal from adult B-cell progenitor development in mice, recent studies failed to support a primary role of TSLP in IL-7-independent fetal B-cell development. However, the role of TSLP in IL-7-independent adult B lymphopoiesis and in particular in regulation of B-1 cells remains to be established. Here we demonstrate that, rather than TSLP, IL-7 and FLT3 ligand are combined responsible for all B-cell generation in mice, including recently identified B-1-specified cell progenitors. Thus, the same IL-7-and FLT3 ligand-mediated signaling regulates alternative pathways of fetal and adult B-1 and B-2 lymphopoiesis. IntroductionHuman immunodeficiencies have uncovered the key role of cytokine signaling pathways in T lymphocyte development, facilitating development of cell replacement and gene therapies. 1,2 In contrast, little is known about the cytokine pathways that might be perturbed in immunodeficiencies with a B-cell phenotype.In mice, fetal and adult B-cell development has been suggested to be regulated by overlapping yet largely distinct cytokine ligands and receptors. [3][4][5][6][7][8][9] Specifically, whereas conventional B-2 B lymphopoiesis in the adult bone marrow (BM) is lost in the absence of only interleukin-7 (IL-7), fetal and early postnatal B lymphopoiesis, in particular B-1 B-cell genesis, seems to be largely driven by IL-7-independent mechanisms. 10-12 Importantly, such IL-7-independent B lymphopoiesis is sufficient to sustain a pool of peripheral B cells and normal immunoglobulin levels through life. 3,13 Notably, also human B-cell development appears to be largely or entirely IL-7-independent, as X-linked severe combined immunodeficiency caused by a loss of function mutation in the IL-2 receptor gamma chain (IL-2Rg), as well as IL-7 receptor alpha chain (IL-7R␣) deficiency, are accompanied by severely defective T lymphopoiesis but apparently normal B-cell numbers. 14-16 Thus, it could have considerable clinical implications to establish which alternative cytokines might be involved in regulating IL-7-independent B lymphopoiesis.Several previous lines of evidence strongly implicated thymic stromal lymphopoietin (TSLP) as a primary regulator of IL-7-independent fetal B lymphopoiesis. 8,9 TSLP shares with IL-7 the IL-7R␣ as a ligand-b...

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FLT3-ITDs Instruct a Myeloid Differentiation and Transformation Bias in Lymphomyeloid Multipotent Progenitors

et al. 2013

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SummaryWhether signals mediated via growth factor receptors (GFRs) might influence lineage fate in multipotent progenitors (MPPs) is unclear. We explored this issue in a mouse knockin model of gain-of-function Flt3-ITD mutation because FLT3-ITDs are paradoxically restricted to acute myeloid leukemia even though Flt3 primarily promotes lymphoid development during normal hematopoiesis. When expressed in MPPs, Flt3-ITD collaborated with Runx1 mutation to induce high-penetrance aggressive leukemias that were exclusively of the myeloid phenotype. Flt3-ITDs preferentially expanded MPPs with reduced lymphoid and increased myeloid transcriptional priming while compromising early B and T lymphopoiesis. Flt3-ITD-induced myeloid lineage bias involved upregulation of the transcription factor Pu.1, which is a direct target gene of Stat3, an aberrantly activated target of Flt3-ITDs, further establishing how lineage bias can be inflicted on MPPs through aberrant GFR signaling. Collectively, these findings provide new insights into how oncogenic mutations might subvert the normal process of lineage commitment and dictate the phenotype of resulting malignancies.

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Shabnam Kharazi

Molecular Evidence for Hierarchical Transcriptional Lineage Priming in Fetal and Adult Stem Cells and Multipotent Progenitors

DNA methylation protects hematopoietic stem cell multipotency from myeloerythroid restriction

Lymphomyeloid Contribution of an Immune-Restricted Progenitor Emerging Prior to Definitive Hematopoietic Stem Cells

Mice deficient of Myc super-enhancer region reveal differential control mechanism between normal and pathological growth

Niche-mediated depletion of the normal hematopoietic stem cell reservoir by Flt3-ITD–induced myeloproliferation

Splice-correcting oligonucleotides restore BTK function in X-linked agammaglobulinemia model

FLT3 ligand and not TSLP is the key regulator of IL-7–independent B-1 and B-2 B lymphopoiesis

FLT3-ITDs Instruct a Myeloid Differentiation and Transformation Bias in Lymphomyeloid Multipotent Progenitors

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