技术资料

A novel population of tissue-resident endothelial precursors (TEPs) was isolated from small blood vessels in dermal,adipose,and skeletal muscle of mouse based on their ability to be grown as spheres. Cellular and molecular analyses of these cells revealed that they were highly related regardless of the tissue of origin and distinct from embryonic neural stem cells. Notably,TEPs did not express hematopoietic markers,but they expressed numerous characteristics of angiogenic precursors and their differentiated progeny,such as CD34,Flk-1,Tie-1,CD31,and vascular endothelial cadherin (VE-cadherin). TEPs readily differentiated into endothelial cells in newly formed vascular networks following transplantation into regenerating skeletal muscle. Taken together,these experiments suggest that TEPs represent a novel class of endothelial precursors that are closely associated with small blood vessels in muscle,adipose,and dermal tissue. This finding is of particular interest since it could bring new insight in cancer angiogenesis and collateral blood vessels developed following ischemia. Disclosure of potential conflicts of interest is found at the end of this article. View Publication

The transcription factor Runx1/AML1 is an important regulator of hematopoiesis and is critically required for the generation of the first definitive hematopoietic stem cells (HSCs) in the major vasculature of the mouse embryo. As a pivotal factor in HSC ontogeny,its transcriptional regulation is of high interest but is largely undefined. In this study,we used a combination of comparative genomics and chromatin analysis to identify a highly conserved 531-bp enhancer located at position + 23.5 in the first intron of the 224-kb mouse Runx1 gene. We show that this enhancer contributes to the early hematopoietic expression of Runx1. Transcription factor binding in vivo and analysis of the mutated enhancer in transient transgenic mouse embryos implicate Gata2 and Ets proteins as critical factors for its function. We also show that the SCL/Lmo2/Ldb-1 complex is recruited to the enhancer in vivo. Importantly,transplantation experiments demonstrate that the intronic Runx1 enhancer targets all definitive HSCs in the mouse embryo,suggesting that it functions as a crucial cis-regulatory element that integrates the Gata,Ets,and SCL transcriptional networks to initiate HSC generation. View Publication

Normal prion protein (PrP(c)),an essential substrate for development of prion disease,is widely distributed in hematopoietic cells. Recent evidence that variant Creutzfeldt-Jakob disease can be transmitted by transfusion of red cell preparations has highlighted the need for a greater understanding of the biology of PrP(c) in blood and blood-forming tissues. Here,we show that in contrast to another glycosylphosphoinositol-anchored protein CD59,PrP(c) at the cell surface of cultured human erythroblasts is rapidly internalized through the endosomal pathway,where it colocalizes with the tetraspanin CD63. In the plasma membrane,PrP(c) colocalizes with the tetraspanin CD81. Cross-linking with anti-PrP(c) or anti-CD81 causes clustering of PrP(c) and CD81,suggesting they can share the same microdomain. These data are consistent with a role for tetraspanin-enriched microdomains in trafficking of PrP(c). These results,when taken together with recent evidence that exosomes released from cells as a result of endosomal-mediated recycling to the plasma membrane contain prion infectivity,provide a pathway for the propagation of prion diseases. View Publication

Rho-GTPase has been implicated in the apoptosis of many cell types,including neurons,but the mechanism by which it acts is not fully understood. Here,we investigate the roles of Rho and ROCK in apoptosis during transplantation of embryonic stem cell-derived neural precursor cells. We find that dissociation of neural precursors activates Rho and induces apoptosis. Treatment with the Rho inhibitor C3 exoenzyme and/or the ROCK inhibitor Y-27632 decreases the amount of dissociation-induced apoptosis (anoikis) by 20-30%. Membrane blebbing,which is an early morphological sign of apoptosis; cleavage of caspase-3; and release of cytochrome c from the mitochondria are also reduced by ROCK inhibition. These results suggest that dissociation of neural precursor cells elicits an intrinsic pathway of cell death that is at least partially mediated through the Rho/ROCK pathway. Moreover,in an animal transplantation model,inhibition of Rho and/or ROCK suppresses acute apoptosis of grafted cells. After transplantation,tumor necrosis factor-alpha and pro-nerve growth factor are strongly expressed around the graft. ROCK inhibition also suppresses apoptosis enhanced by these inflammatory cytokines. Taken together,these results indicate that inhibition of Rho/ROCK signaling may improve survival of grafted cells in cell replacement therapy. View Publication

Sirt1,a NAD(+)-dependent histone deacetylase,may regulate senescence,metabolism,and apoptosis. In this study,primary pig preadipocytes were cultured in DMEM/F12 medium containing 10% fetal bovine serum (FBS) with or without reagents affecting Sirt1 activity. The adipocyte differentiation process was visualized by light microscopy after Oil red O staining. Proliferation and differentiation of preadipocytes was measured using methylthiazolyldiphenyl-tetrazolium bromide (MTT) and Oil red O extraction. Expression of Sirt1,FoxO1,and adipocyte specific genes was detected with semi-quantitive RT-PCR. The results showed that Sirt1 mRNA was widely expressed in various pig tissues from different developmental stages. Sirt1 mRNA was expressed throughout the entire differentiation process of pig preadipocytes. Resveratrol significantly increased Sirt1 mRNA expression,but decreased the expression of FoxO1 and adipocyte marker gene PPARgamma2. Resveratrol significantly inhibited pig preadipocyte proliferation and differentiation. Nicotinamide decreased the expression of Sirt1 mRNA,but increased the expression of FoxO1 and adipocyte specific genes. Nicotinamide greatly stimulated the proliferation and differentiation of pig preadipocytes. In conclusion,these results indicate that Sirt1 may modulate the proliferation and differentiation of pig preadipocytes. Sirt1 may down-regulate pig preadipocytes proliferation and differentiation through repression of adipocyte genes or FoxO1. View Publication

We have studied the mechanism of A-769662,a new activator of AMP-activated protein kinase (AMPK). Unlike other pharmacological activators,it directly activates native rat AMPK by mimicking both effects of AMP,i.e. allosteric activation and inhibition of dephosphorylation. We found that it has no effect on the isolated alpha subunit kinase domain,with or without the associated autoinhibitory domain,or on interaction of glycogen with the beta subunit glycogen-binding domain. Although it mimics actions of AMP,it has no effect on binding of AMP to the isolated Bateman domains of the gamma subunit. The addition of A-769662 to mouse embryonic fibroblasts or primary mouse hepatocytes stimulates phosphorylation of acetyl-CoA carboxylase (ACC),effects that are completely abolished in AMPK-alpha1(-/-)alpha2(-/-) cells but not in TAK1(-/-) mouse embryonic fibroblasts. Phosphorylation of AMPK and ACC in response to A-769662 is also abolished in isolated mouse skeletal muscle lacking LKB1,a major upstream kinase for AMPK in this tissue. However,in HeLa cells,which lack LKB1 but express the alternate upstream kinase calmodulin-dependent protein kinase kinase-beta,phosphorylation of AMPK and ACC in response to A-769662 still occurs. These results show that in intact cells,the effects of A-769662 are independent of the upstream kinase utilized. We propose that this direct and specific AMPK activator will be a valuable experimental tool to understand the physiological roles of AMPK. View Publication

The histo-blood group i and I antigens have been characterized as straight and branched repeats of N-acetyllactosamine,respectively,and the conversion of the straight-chain i to the branched-chain I structure on red cells is regulated to occur after birth. It has been demonstrated that the human I locus expresses 3 IGnT transcripts,IGnTA,IGnTB,and IGnTC,and that the last of these is responsible for the I branching formation on red cells. In the present investigation,the K-562 cell line was used as a model to show that the i-to-I transition in erythroid differentiation is determined by the transcription factor CCAAT/enhancer binding protein alpha (C/EBPalpha),which enhances transcription of the IGnTC gene,consequently leading to formation of the I antigen. Further investigation suggested that C/EBPalpha IGnTC-activation activity is modulated at a posttranslational level,and that the phosphorylation status of C/EBPalpha may have a crucial effect. Results from studies using adult and cord erythropoietic cells agreed with those derived using the K-562 cell model,with lentiviral expression of C/EBPalpha in CD34(+) hemopoietic cells demonstrating the determining role of C/EBPalpha in the induction of the IGnTC gene as well as in I antigen expression. View Publication

The human HDAC (histone deacetylase) family,a well-validated anticancer target,plays a key role in the control of gene expression through regulation of transcription. While HDACs can be subdivided into three main classes,the class I,class II and class III HDACs (sirtuins),it is presently unclear whether inhibiting multiple HDACs using pan-HDAC inhibitors,or targeting specific isoforms that show aberrant levels in tumours,will prove more effective as an anticancer strategy in the clinic. To address the above issues,we have tested a number of clinically relevant HDACis (HDAC inhibitors) against a panel of rhHDAC (recombinant human HDAC) isoforms. Eight rhHDACs were expressed using a baculoviral system,and a Fluor de Lystrade mark (Biomol International) HDAC assay was optimized for each purified isoform. The potency and selectivity of ten HDACs on class I isoforms (rhHDAC1,rhHDAC2,rhHDAC3 and rhHDAC8) and class II HDAC isoforms (rhHDAC4,rhHDAC6,rhHDAC7 and rhHDAC9) was determined. MS-275 was HDAC1-selective,MGCD0103 was HDAC1- and HDAC2-selective,apicidin was HDAC2- and HDAC3-selective and valproic acid was a specific inhibitor of class I HDACs. The hydroxamic acid-derived compounds (trichostatin A,NVP-LAQ824,panobinostat,ITF2357,vorinostat and belinostat) were potent pan-HDAC inhibitors. The growth-inhibitory effect of the HDACis on HeLa cells showed that both pan-HDAC and class-I-specific inhibitors inhibited cell growth. The results also showed that both pan-HDAC and class-I-specific inhibitor treatment resulted in increased acetylation of histones,but only pan-HDAC inhibitor treatment resulted in increased tubulin acetylation,which is in agreement with their activity towards the HDAC6 isoform. View Publication

BACKGROUND: ALDH-bright (ALDH(br)) cell populations sorted from freshly collected umbilical cord blood (UCB) on the basis of their high aldehyde dehydrogenase (ALDH) activity are highly enriched for HPC. HPC with low ALDH activity (ALDH(dim)) are primarily short-term progenitors,whereas progenitors that initiate long-term cultures or establish long-term grafts in xenograft models are ALDH(br). We examined the multilineage hematopoietic and platelet progenitor activities of ALDH(br) cells recovered from cryopreserved UCB units typically employed in the practice of clinical transplantation. METHODS: Frozen UCB units were thawed,washed,immunomagnetically depleted of cells expressing glycophorin A and CD14,reacted for flow cytometric detection of ALDH,and sorted to yield ALDH(br) and ALDH(dim) populations. We measured surface Ag expression and viability of cells in the ALDH(br) and ALDH(dim) populations by flow cytometry and hematopoietic (CFC-H) and megakaryocytic (CFC-Mk) colony-forming cells in each population. RESULTS: ALDH(br) populations isolated from thawed UCB cells were highly enriched for CD34(+) and CD133(+) cells. Flow-sorted ALDH(br) populations were enriched 1116-fold in CFC-H,10-fold in multilineage GEMM colonies and 2015-fold in CFC-Mk compared with the ALDH(dim) population. All progenitors giving rise to large Mk colonies were derived from ALDH(br) populations. DISCUSSION: ALDH(br) populations recovered from thawed,banked UCB with the method we describe have HPC activity and may be useful in the clinic to facilitate reconstitution of erythroid,myeloid and megakaryocytic blood elements. View Publication

The present study explored the sensitivity of leukaemic blasts derived from 30 acute myeloid leukaemia (AML) patients to Bortezomib. Bortezomib induced apoptosis of primary AML blasts: 18/30 AMLs were clearly sensitive to the proapoptotic effects of Bortezomib,while the remaining cases were moderately sensitive to this molecule. The addition of tumour necrosis factor-related-apoptosis-inducing ligand,when used alone,did not induce apoptosis of AML blasts and further potentiated the cytotoxic effects of Bortezomib. The majority of AMLs sensitive to Bortezomib showed immunophenotypic features of the M4 and M5 French-American-British classification subtypes and displayed myelomonocytic features. All AMLs with mutated FLT3 were in the Bortezomib-sensitive group. Biochemical studies showed that: (i) Bortezomib activated caspase-8 and caspase-3 and decreased cellular FLICE [Fas-associated death domain (FADD)-like interleukin-1beta-converting enzyme]-inhibitory protein (c-FLIP) levels in AML blasts; (ii) high c-FLIP levels in AML blasts were associated with low Bortezomib sensitivity. Finally,analysis of the effects of Bortezomib on leukaemic cells displaying high aldehyde dehydrogenase activity suggested that this drug induced in vitro killing of leukaemic stem cells. The findings of the present study,further support the development of Bortezomib as an anti-leukaemic drug and provide simple tools to predict the sensitivity of AML cells to this drug. View Publication

BACKGROUND AND PURPOSE: Glycogen synthase kinase-3 (GSK-3) affects neuropathological events associated with Alzheimeŕs disease (AD) such as hyperphosphorylation of the protein,tau. GSK-3beta expression,enzyme activity and tau phosphorylated at AD-relevant epitopes are elevated in juvenile rodent brains. Here,we assess five GSK-3beta inhibitors and lithium in lowering phosphorylated tau (p-tau) and GSK-3beta enzyme activity levels in 12-day old postnatal rats. EXPERIMENTAL APPROACH: Brain levels of inhibitors following treatment in vivo were optimized based on pharmacokinetic data. At optimal doses,p-tau (Ser(396)) levels in brain tissue was measured by immunoblotting and correlated with GSK-3beta enzyme activities in the same tissues. Effects of GSK inhibitors on p-tau,GSK-3beta activities and cell death were measured in a human neuronal cell line (LUHMES). KEY RESULTS: Lithium and CHIR98014 reduced tau phosphorylation (Ser(396)) in the cortex and hippocampus of postnatal rats,while Alsterpaullone and SB216763 were effective only in hippocampus. AR-A014418 and Indirubin-3'-monoxime were ineffective in either brain region. Inhibition of p-tau in brain required several-fold higher levels of GSK inhibitors than the IC(50) values obtained in recombinant or cell-based GSK-3beta enzyme activity assays. The inhibitory effect on GSK-3beta activity ex vivo correlated with protection against cell death and decrease of p-tau- in LUHMES cells,using low microM inhibitor concentrations. CONCLUSIONS AND IMPLICATIONS: Selective small-molecule inhibitors of GSK-3 reduce tau phosphorylation in vivo. These findings corroborate earlier suggestions that GSK-3beta may be an attractive target for disease-modification in AD and related conditions where tau phosphorylation is believed to contribute to disease pathogenesis. View Publication

By assessing the contribution of deregulated E2F activity to erythroid defects in Rb null mice,we have identified E2f-2 as being upregulated in end-stage red cells,where we show it is the major pRb-associated E2f and the predominant E2f detected at key target gene promoters. Consistent with its expression pattern,E2f-2 loss restored terminal erythroid maturation to Rb null red cells,including the ability to undergo enucleation. Deletion of E2f-2 also extended the life span of Rb null mice despite persistent defects in placental development,indicating that deregulated E2f-2 activity in differentiating erythroblasts contributes to the premature lethality of Rb null mice. We show that the aberrant entry of Rb null erythroblasts into S phase at times in differentiation when wild-type erythroblasts are exiting the cell cycle is inhibited by E2f-2 deletion. E2f-2 loss induced cell cycle arrest in both wild-type and Rb null erythroblasts and was associated with increased DNA double-strand breaks. These results implicate deregulated E2f-2 in the cell cycle defects observed in Rb null erythroblasts and reveal a novel role for E2f-2 during terminal red blood cell differentiation. The identification of a tissue-restricted role for E2f-2 in erythropoiesis highlights the nonredundant nature of E2f transcription factor activities in cell growth and differentiation. View Publication