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Hematopoietic stem cells (HSC) can be harmed by disease,chemotherapy,radiation,and normal aging. We show in this study that damage also occurs in mice repeatedly treated with very low doses of LPS. Overall health of the animals was good,and there were relatively minor changes in marrow hematopoietic progenitors. However,HSC were unable to maintain quiescence,and transplantation revealed them to be myeloid skewed. Moreover,HSC from treated mice were not sustained in serial transplants and produced lymphoid progenitors with low levels of the E47 transcription factor. This phenomenon was previously seen in normal aging. Screening identified mAbs that resolve HSC subsets,and relative proportions of these HSC changed with age and/or chronic LPS treatment. For example,minor CD150(Hi)CD48(-) populations lacking CD86 or CD18 expanded. Simultaneous loss of CD150(Lo/-)CD48(-) HSC and gain of the normally rare subsets,in parallel with diminished transplantation potential,would be consistent with age- or TLR-related injury. In contrast,HSC in old mice differed from those in LPS-treated animals with respect to VCAM-1 or CD41 expression and lacked proliferation abnormalities. HSC can be exposed to endogenous and pathogen-derived TLR ligands during persistent low-grade infections. This stimulation might contribute in part to HSC senescence and ultimately compromise immunity. View Publication

Fbxo7 is an unusual F-box protein because most of its interacting proteins are not substrates for ubiquitin-mediated degradation. Fbxo7 directly binds p27 and Cdk6,enhances the level of cyclin D-Cdk6 complexes,and its overexpression causes Cdk6-dependent transformation of immortalised fibroblasts. Here,we test the ability of Fbxo7 to transform haematopoietic pro-B (Ba/F3) cells which,unexpectedly,it was unable to do despite high levels of Cdk6. Instead,reduction of Fbxo7 expression increased proliferation,decreased cell size and shortened G1 phase. Analysis of cell cycle regulators showed that cells had decreased levels of p27,and increased levels of S phase cyclins and Cdk2 activity. Also,Fbxo7 protein levels correlated inversely with those of CD43,suggesting direct regulation of its expression and,therefore,of B cell maturation. Alterations to Cdk6 protein levels did not affect the cell cycle,indicating that Cdk6 is neither rate-limiting nor essential in Ba/F3 cells; however,decreased expression of Cdk6 also enhanced levels of CD43,indicating that expression of CD43 is independent of cell cycle regulation. The physiological effect of reduced levels of Fbxo7 was assessed by creating a transgenic mouse with a LacZ insertion into the Fbxo7 locus. Homozygous Fbxo7(LacZ) mice showed significantly increased pro-B cell and pro-erythroblast populations,consistent with Fbxo7 having an anti-proliferative function and/or a role in promoting maturation of precursor cells. View Publication

Pim kinases are Ser/Thr kinases with multiple substrates that affect survival pathways. These proteins are overexpressed in acute myeloid leukemia (AML) blasts and we hypothesized that Pim kinase inhibition would affect AML cell survival. Imidazo[1,2-b]pyridazine compound,SGI-1776 inhibits Pim-1,Pim-2 and Pim-3,and was evaluated in AML-cell line,-xenograft model,and -primary blasts. Treatment of AML cells with SGI-1776 results in a concentration-dependent induction of apoptosis and we investigated its effect on Pim kinase functions. Phosphorylation of traditional Pim kinase targets,c-Myc(Ser62) and 4E-BP1 (Thr36/Thr47),were both decreased in actively cycling AML cell lines MV-4-11,MOLM-13 and OCI-AML-3. Levels of antiapoptotic proteins Bcl-2,Bcl-x(L),XIAP,and proapoptotic Bak and Bax were unchanged; however,a significant reduction in Mcl-1 was observed. This was correlated with inhibition of global RNA and protein synthesis and MCL-1 transcript decline after SGI-1776 treatment. These data suggest that SGI-1776 mechanism in AML involves Mcl-1 protein reduction. Consistent with cell line data,xenograft model studies with mice bearing MV-4-11 tumors showed efficacy with SGI-1776. Importantly,SGI-1776 was also cytotoxic in AML primary cells,irrespective of FLT3 mutation status and resulted in Mcl-1 protein decline. Pim kinase inhibition may be a new strategy for AML treatment. View Publication

In addition to the well-recognized role in extracellular matrix remodeling,the tissue inhibitor of metalloproteinases-1 (TIMP-1) has been suggested to be involved in the regulation of numerous biologic functions,including cell proliferation and survival. We therefore hypothesized that TIMP-1 might be involved in the homeostatic regulation of HSCs,whose biologic behavior is the synthesis of both microenvironmental and intrinsic cues. We found that TIMP-1(-/-) mice have decreased BM cellularity and,consistent with this finding,TIMP-1(-/-) HSCs display reduced capability of long-term repopulation. Interestingly,the cell cycle distribution of TIMP-1(-/-) stem cells appears distorted,with a dysregulation at the level of the G(1) phase. TIMP-1(-/-) HSCs also display increased levels of p57,p21,and p53,suggesting that TIMP-1 could be intrinsically involved in the regulation of HSC cycling dynamics. Of note,TIMP-1(-/-) HSCs present decreased levels of CD44 glycoprotein,whose expression has been proven to be controlled by p53,the master regulator of the G(1)/S transition. Our findings establish a role for TIMP-1 in regulating HSC function,suggesting a novel mechanism presiding over stem cell quiescence in the framework of the BM milieu. View Publication

The lipocalin mouse 24p3 has been implicated in diverse physiological processes,including apoptosis,iron trafficking,development and innate immunity. Studies from our laboratory as well as others demonstrated the proapoptotic activity of 24p3 in a variety of cultured models. However,a general role for the lipocalin 24p3 in the hematopoietic system has not been tested in vivo. To study the role of 24p3,we derived 24p3 null mice and back-crossed them onto C57BL/6 and 129/SVE backgrounds. Homozygous 24p3(-/-) mice developed a progressive accumulation of lymphoid,myeloid,and erythroid cells,which was not due to enhanced hematopoiesis because competitive repopulation and recovery from myelosuppression were the same as for wild type. Instead,apoptotic defects were unique to many mature hematopoietic cell types,including neutrophils,cytokine-dependent mast cells,thymocytes,and erythroid cells. Thymocytes isolated from 24p3 null mice also displayed resistance to apoptosis-induced by dexamethasone. Bim response to various apoptotic stimuli was attenuated in 24p3(-/-) cells,thus explaining their resistance to the ensuing cell death. The results of these studies,in conjunction with those of previous studies,reveal 24p3 as a regulator of the hematopoietic compartment with important roles in normal physiology and disease progression. Interestingly,these functions are limited to relatively mature blood cell compartments. View Publication

Acute basophilic leukemia (ABL) is a rare subtype of acute leukemia with clinical features and symptoms related to hyperhistaminemia because of excessive growth of basophils. No known recurrent cytogenetic abnormality is associated with this leukemia. Rare cases of t(X;6)(p11;q23) translocation have been described but these were sporadic. We report here 4 cases of ABL with a t(X;6)(p11;q23) translocation occurring in male infants. Because of its location on chromosome 6q23,MYB was a good candidate gene. Our molecular investigations,based on fluorescence in situ hybridization and rapid amplification of cDNA ends,revealed that the translocation generated a MYB-GATA1 fusion gene. Expression of MYB-GATA1 in mouse lineage-negative cells committed them to the granulocyte lineage and blocked at an early stage of differentiation. Taken together,these results establish,for the first time,a link between a recurrent chromosomal translocation and the development of this particular subtype of infant leukemia. View Publication

The efficacy of cardiac repair by stem cell administration relies on a successful functional integration of injected cells into the host myocardium. Safety concerns have been raised about the possibility that stem cells may induce foci of arrhythmia in the ischemic myocardium. In a previous work (36),we showed that human cord blood CD34(+) cells,when cocultured on neonatal mouse cardiomyocytes,exhibit excitation-contraction coupling features similar to those of cardiomyocytes,even though no human genes were upregulated. The aims of the present work are to investigate whether human CD34(+) cells,isolated after 1 wk of coculture with neonatal ventricular myocytes,possess molecular and functional properties of cardiomyocytes and to discriminate,using a reporter gene system,whether cardiac differentiation derives from a (trans)differentiation or a cell fusion process. Umbilical cord blood CD34(+) cells were isolated by a magnetic cell sorting method,transduced with a lentiviral vector carrying the enhanced green fluorescent protein (EGFP) gene,and seeded onto primary cultures of spontaneously beating rat neonatal cardiomyocytes. Cocultured EGFP(+)/CD34(+)-derived cells were analyzed for their electrophysiological features at different time points. After 1 wk in coculture,EGFP(+) cells,in contact with cardiomyocytes,were spontaneously contracting and had a maximum diastolic potential (MDP) of -53.1 mV,while those that remained isolated from the surrounding myocytes did not contract and had a depolarized resting potential of -11.4 mV. Cells were then resuspended and cultured at low density to identify EGFP(+) progenitor cell derivatives. Under these conditions,we observed single EGFP(+) beating cells that had acquired an hyperpolarization-activated current typical of neonatal cardiomyocytes (EGFP(+) cells,-2.24 ± 0.89 pA/pF; myocytes,-1.99 ± 0.63 pA/pF,at -125 mV). To discriminate between cell autonomous differentiation and fusion,EGFP(+)/CD34(+) cells were cocultured with cardiac myocytes infected with a red fluorescence protein-lentiviral vector; under these conditions we found that 100% of EGFP(+) cells were also red fluorescent protein positive,suggesting cell fusion as the mechanism by which cardiac functional features are acquired. View Publication

The role of autophagy,a lysosomal degradation pathway which prevents cellular damage,in the maintenance of adult mouse hematopoietic stem cells (HSCs) remains unknown. Although normal HSCs sustain life-long hematopoiesis,malignant transformation of HSCs leads to leukemia. Therefore,mechanisms protecting HSCs from cellular damage are essential to prevent hematopoietic malignancies. In this study,we crippled autophagy in HSCs by conditionally deleting the essential autophagy gene Atg7 in the hematopoietic system. This resulted in the loss of normal HSC functions,a severe myeloproliferation,and death of the mice within weeks. The hematopoietic stem and progenitor cell compartment displayed an accumulation of mitochondria and reactive oxygen species,as well as increased proliferation and DNA damage. HSCs within the Lin(-)Sca-1(+)c-Kit(+) (LSK) compartment were significantly reduced. Although the overall LSK compartment was expanded,Atg7-deficient LSK cells failed to reconstitute the hematopoietic system of lethally irradiated mice. Consistent with loss of HSC functions,the production of both lymphoid and myeloid progenitors was impaired in the absence of Atg7. Collectively,these data show that Atg7 is an essential regulator of adult HSC maintenance. View Publication

Zeb2 (Sip1/Zfhx1b) is a member of the zinc-finger E-box-binding (ZEB) family of transcriptional repressors previously demonstrated to regulate epithelial-to-mesenchymal transition (EMT) processes during embryogenesis and tumor progression. We found high Zeb2 mRNA expression levels in HSCs and hematopoietic progenitor cells (HPCs),and examined Zeb2 function in hematopoiesis through a conditional deletion approach using the Tie2-Cre and Vav-iCre recombination mouse lines. Detailed cellular analysis demonstrated that Zeb2 is dispensable for hematopoietic cluster and HSC formation in the aorta-gonadomesonephros region of the embryo,but is essential for normal HSC/HPC differentiation. In addition,Zeb2-deficient HSCs/HPCs fail to properly colonize the fetal liver and/or bone marrow and show enhanced adhesive properties associated with increased β1 integrin and Cxcr4 expression. Moreover,deletion of Zeb2 resulted in embryonic (Tie2-Cre) and perinatal (Vav-icre) lethality due to severe cephalic hemorrhaging and decreased levels of angiopoietin-1 and,subsequently,improper pericyte coverage of the cephalic vasculature. These results reveal essential roles for Zeb2 in embryonic hematopoiesis and are suggestive of a role for Zeb2 in hematopoietic-related pathologies in the adult. View Publication

It is known that umbilical cord blood (UCB) is a rich source of stem cells with practical and ethical advantages. Three important types of stem cells which can be harvested from umbilical cord blood and used in disease treatment are hematopoietic stem cells (HSCs),mesenchymal stem cells (MSCs) and endothelial progenitor cells (EPCs). Since these stem cells have shown enormous potential in regenerative medicine,numerous umbilical cord blood banks have been established. In this study,we examined the ability of banked UCB collected to produce three types of stem cells from the same samples with characteristics of HSCs,MSCs and EPCs. We were able to obtain homogeneous plastic rapidly-adherent cells (with characteristics of MSCs),slowly-adherent (with characteristics of EPCs) and non-adherent cells (with characteristics of HSCs) from the mononuclear cell fractions of cryopreserved UCB. Using a protocol of 48 h supernatant transferring,we successfully isolated MSCs which expressed CD13,CD44 and CD90 while CD34,CD45 and CD133 negative,had typical fibroblast-like shape,and was able to differentiate into adipocytes; EPCs which were CD34,and CD90 positive,CD13,CD44,CD45 and CD133 negative,adherent with cobble-like shape; HSCs which formed colonies when cultured in MethoCult medium. View Publication

The low frequency of hematopoietic stem and progenitor cells (HSPCs) in human BM has precluded analysis of the direct biochemical effects elicited by cytokines in these populations,and their functional consequences. Here,single-cell phospho-specific flow cytometry was used to define the signaling networks active in 5 previously defined human HSPC subsets. This analysis revealed that the currently defined HSC compartment is composed of biochemically distinct subsets with the ability to respond rapidly and directly in vitro to a broader array of cytokines than previously appreciated,including G-CSF. The G-CSF response was physiologically relevant-driving cell-cycle entry and increased proliferation in a subset of single cells within the HSC compartment. The heterogeneity in the single-cell signaling and proliferation responses prompted subfractionation of the adult BM HSC compartment by expression of CD114 (G-CSF receptor). Xenotransplantation assays revealed that HSC activity is significantly enriched in the CD114(neg/lo) compartment,and almost completely absent in the CD114(pos) subfraction. The single-cell analyses used here can be adapted for further refinement of HSPC surface immunophenotypes,and for examining the direct regulatory effects of other factors on the homeostasis of stem and progenitor populations in normal or diseased states. View Publication

Disruptor of telomeric silencing 1-like (Dot1l) is a histone 3 lysine 79 methyltransferase. Studies of constitutive Dot1l knockout mice show that Dot1l is essential for embryonic development and prenatal hematopoiesis. DOT1L also interacts with translocation partners of Mixed Lineage Leukemia (MLL) gene,which is commonly translocated in human leukemia. However,the requirement of Dot1l in postnatal hematopoiesis and leukemogenesis of MLL translocation proteins has not been conclusively shown. With a conditional Dot1l knockout mouse model,we examined the consequences of Dot1l loss in postnatal hematopoiesis and MLL translocation leukemia. Deletion of Dot1l led to pancytopenia and failure of hematopoietic homeostasis,and Dot1l-deficient cells minimally reconstituted recipient bone marrow in competitive transplantation experiments. In addition,MLL-AF9 cells required Dot1l for oncogenic transformation,whereas cells with other leukemic oncogenes,such as Hoxa9/Meis1 and E2A-HLF,did not. These findings illustrate a crucial role of Dot1l in normal hematopoiesis and leukemogenesis of specific oncogenes. View Publication