Erika L. Artinger scite author profile

The Mixed Lineage Leukemia (MLL) gene is essential for embryonic hematopoietic stem cell (HSC) development, but its role during adult hematopoiesis is unknown. Using an inducible knockout model, we demonstrate that Mll is essential for the maintenance of adult HSCs and progenitors, with fatal bone marrow failure occurring within 3 weeks of Mll deletion. Mll-deficient cells are selectively lost from mixed bone marrow chimeras, demonstrating their failure to self-renew even in an intact bone marrow environment. Surprisingly, HSCs lacking Mll exhibit ectopic cell-cycle entry, resulting in the depletion of quiescent HSCs. In contrast, Mll deletion in myelo-erythroid progenitors results in reduced proliferation and reduced response to cytokine-induced cell-cycle entry. Committed lymphoid and myeloid cells no longer require Mll, defining the early multipotent stages of hematopoiesis as Mll dependent. These studies demonstrate that Mll plays selective and independent roles within the hematopoietic system, maintaining quiescence in HSCs and promoting proliferation in progenitors.

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The Histone Methyltransferase Activity of MLL1 Is Dispensable for Hematopoiesis and Leukemogenesis

Mishra

et al. 2014

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SUMMARYDespite correlations between histone methyltransferase (HMT) activity and gene regulation, direct evidence that HMT activity is responsible for gene activation is sparse. We address the role of the HMT activity for MLL1, a histone H3 lysine 4 (H3K4) methyltransferase critical for maintaining hematopoietic stem cells (HSCs). Here, we show that the SET domain, and thus HMT activity of MLL1, is dispensable for maintaining HSCs and supporting leukemogenesis driven by the MLL-AF9 fusion oncoprotein. Upon Mll1 deletion, histone H4 lysine 16 (H4K16) acetylation is selectively depleted at MLL1 target genes in conjunction with reduced transcription. Surprisingly, inhibition of SIRT1 is sufficient to prevent the loss of H4K16 acetylation and the reduction in MLL1 target gene expression. Thus, recruited MOF activity, and not the intrinsic HMT activity of MLL1, is central for the maintenance of HSC target genes. In addition, this work reveals a role for SIRT1 in opposing MLL1 function.

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An MLL-dependent network sustains hematopoiesis

Artinger¹,

Mishra²,

Zaffuto³

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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The histone methyltransferase Mixed Lineage Leukemia (MLL) is essential to maintain hematopoietic stem cells and is a leukemia protooncogene. Although clustered homeobox genes are well-characterized targets of MLL and MLL fusion oncoproteins, the range of Mll -regulated genes in normal hematopoietic cells remains unknown. Here, we identify and characterize part of the Mll -dependent transcriptional network in hematopoietic stem cells with an integrated approach by using conditional loss-of-function models, genomewide expression analyses, chromatin immunoprecipitation, and functional rescue assays. The Mll -dependent transcriptional network extends well beyond the previously appreciated Hox targets, is comprised of many characterized regulators of self-renewal, and contains target genes that are both dependent and independent of the MLL cofactor, Menin. Interestingly, PR-domain containing 16 emerged as a target gene that is uniquely effective at partially rescuing Mll -deficient hematopoietic stem and progenitor cells. This work highlights the tissue-specific nature of regulatory networks under the control of MLL/Trithorax family members and provides insight into the distinctions between the participation of MLL in normal hematopoiesis and in leukemia.

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The histone methyltransferase activity of mll1 is dispensable for hematopoiesis and leukemogenesis

Mishra

Yang

Zaffuto

et al. 2014

Experimental Hematology

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Acat1 Gene Ablation in Mice Increases Hematopoietic Progenitor Cell Proliferation in Bone Marrow and Causes Leukocytosis

Huang

Gui

Artinger

et al. 2013

ATVB

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Objective To investigate the role of acyl-CoA:cholesterol acyltransferase 1 (ACAT1) in hematopoiesis. Approach and Results ACAT1 converts cellular cholesterol to cholesteryl esters for storage in multiple cell types and is a potential drug target for human diseases. In mouse models for atherosclerosis, global Acat1 knockout causes increased lesion size; bone marrow (BM) transplantation experiments suggest that the increased lesion size might be caused by ACAT1 deficiency in macrophages. However, BM contains hematopoietic stem cells (HSCs) which give rise to cells in myeloid and lymphoid lineages; these cell types affect atherosclerosis at various stages. Here, we test the hypothesis that global Acat1-/- may affect hematopoiesis, rather than affecting macrophage function only, and show that Acat1-/- mice contain significantly higher numbers of myeloid cells and other cells than wild type mice. Detailed analysis of BM cells demonstrated that Acat1-/- causes a higher proportion of the stem cell-enriched LSK population (Lin-Sca1+ckit+) to proliferate, resulting in higher numbers of myeloid progenitor cells. In addition, we show that Acat1-/- causes higher monocytosis in Apoe-/- mouse during atherosclerosis development. Conclusion ACAT1 plays important roles in hematopoiesis in normal mouse and in Apoe-/- mouse during atherosclerosis development.

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Erika L. Artinger

Unique and Independent Roles for MLL in Adult Hematopoietic Stem Cells and Progenitors

The Histone Methyltransferase Activity of MLL1 Is Dispensable for Hematopoiesis and Leukemogenesis

An MLL-dependent network sustains hematopoiesis

The histone methyltransferase activity of mll1 is dispensable for hematopoiesis and leukemogenesis

Acat1 Gene Ablation in Mice Increases Hematopoietic Progenitor Cell Proliferation in Bone Marrow and Causes Leukocytosis

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