Owen Williams scite author profile

The tyrosine kinase Syk (relative molecular mass 72,000), which is widely expressed in haematopoietic cells, becomes associated with and activated by engagement of the B-cell antigen receptor. Furthermore, it has been implicated in signalling through the receptors for interleukin-2 (IL-2), granulocyte colony-stimulating factor (G-CSF) and Fc, the T cell receptor, as well as through receptors for several platelet agonists. A homologous kinase, ZAP-70, is crucial in signalling through the T-cell receptor and in T-cell development. Using homologous recombination in embryonic stem cells, we created mice null for the syk gene which showed petechiae in utero and died shortly after birth. Irradiated mice reconstituted with Syk-deficient fetal liver showed a block in B-cell development at the pro-B to pre-B cell transition, consistent with a key role for Syk in pre-B-cell receptor signalling. Despite the production of small numbers of immature B cells, Syk-deficient radiation chimaeras failed to accumulate mature B cells, indicating a possible role for this protein in the production or maintenance of mature B cells. In addition, whereas the development of alpha beta T cells proceeded normally, Syk-deficient mice showed impaired development of thymocytes using the V gamma 3 variable region gene (V gamma 3+ thymocytes). Finally, we show that Syk is not required for signalling through the IL-2 and G-CSF receptors.

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The basic leucine zipper transcription factor E4BP4 is essential for natural killer cell development

Gascoyne

et al. 2009

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Natural killer (NK) cells are a subset of lymphocytes crucial for innate immunity and modification of adaptive immune responses. In contrast to commitment to the T cell or B cell lineage, little is known about NK cell lineage commitment. Here we show that the basic leucine zipper (bZIP) transcription factor E4BP4 (also called NFIL3) is essential for generation of the NK cell lineage. E4BP4-deficient mice (Nfil3(-/-); called 'E4bp4(-/-)' here) had B cells, T cells and NKT cells but specifically lack NK cells and showed severely impaired NK cell-mediated cytotoxicity. Overexpression of E4bp4 was sufficient to increase NK cell production from hematopoietic progenitor cells. E4BP4 acted in a cell-intrinsic manner 'downstream' of the interleukin 15 receptor (IL-15R) and through the transcription factor Id2. E4bp4(-/-) mice may provide a model for definitive analysis of the contribution of NK cells to immune responses and pathologies.

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Mll Has a Critical Role in Fetal and Adult Hematopoietic Stem Cell Self-Renewal

et al. 2007

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The Mixed Lineage Leukemia (Mll) gene is a homolog of Drosophila Trithorax commonly rearranged in infant leukemia. Comprehensive analysis of the role of Mll in hematopoiesis in fetal and adult knockout mice has been prevented by the lethality of Mll(-/-) mice. We have established a conditional deletion model that allows us to study adult hematopoiesis in the absence of Mll. In this study, Mll(-/-) embryos survive to E16.5 and have reduced numbers of HSCs. The quiescent fraction of these HSCs is greatly reduced, and they are unable to compete with wild-type cells in transplantation assays. Mice with Mll expression conditionally deleted in the hematopoietic system have grossly normal hematopoiesis in bone marrow, thymus, and spleen. However, transplanted Mll-deficient bone marrow cells are highly compromised in their ability to competitively reconstitute irradiated recipients. These results suggest a critical role for Mll in regulating stem cell self-renewal.

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Autophagy limits proliferation and glycolytic metabolism in acute myeloid leukemia

Watson

Riffelmacher

Stranks

et al. 2015

Cell Death Discovery

135

170

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Decreased autophagy contributes to malignancies; however, it is unclear how autophagy has an impact on tumor growth. Acute myeloid leukemia (AML) is an ideal model to address this as (i) patient samples are easily accessible, (ii) the hematopoietic stem and progenitor cells (HSPC) where transformation occurs is well characterized and (iii) loss of the key autophagy gene Atg7 in HSPCs leads to a lethal pre-leukemic phenotype in mice. Here we demonstrate that loss of Atg5 results in an identical HSPC phenotype as loss of Atg7, confirming a general role for autophagy in HSPC regulation. Compared with more committed/mature hematopoietic cells, healthy human and mouse HSPCs displayed enhanced basal autophagic flux, limiting mitochondrial damage and reactive oxygen species in this long-lived population. Taken together, with our previous findings these data are compatible with autophagy-limiting leukemic transformation. In line with this, autophagy gene losses are found within chromosomal regions that are commonly deleted in human AML. Moreover, human AML blasts showed reduced expression of autophagy genes and displayed decreased autophagic flux with accumulation of unhealthy mitochondria, indicating that deficient autophagy may be beneficial to human AML. Crucially, heterozygous loss of autophagy in an MLL–ENL model of AML led to increased proliferation in vitro, a glycolytic shift and more aggressive leukemias in vivo. With autophagy gene losses also identified in multiple other malignancies, these findings point to low autophagy, providing a general advantage for tumor growth.

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Owen Williams

Perinatal lethality and blocked B-cell development in mice lacking the tyrosine kinase Syk

The basic leucine zipper transcription factor E4BP4 is essential for natural killer cell development

Mll Has a Critical Role in Fetal and Adult Hematopoietic Stem Cell Self-Renewal

Autophagy limits proliferation and glycolytic metabolism in acute myeloid leukemia

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