技术资料

An investigation was conducted to demonstrate that neurodazine (Nz) and neurodazole (Nzl),two imidazole-based small molecules,promote neuronal differentiation in both neuroblastoma and fibroblast cells. The results show that differentiated cells generated by treatment with Nz and Nzl express neuron-specific markers. The ability of Nz and Nzl to induce neurogenesis of neuroblastoma and fibroblast cells was found to be comparable to those of the known neurogenic factors,retinoic acid and trichostatin A. In addition,the cells differentiated by Nz and Nzl are observed to express different isoforms of glutamate receptors. The results of signaling pathway studies reveal that two substances enhance neurogenesis in neuroblastoma cells by activating Wnt and Shh signaling pathways and neurogenesis in fibroblast cells by mainly activating the Wnt signaling pathway. Observations made in the present study suggest that Nz and Nzl will serve as chemical tools to generate specific populations of neuronal cells from readily available and simply manageable cells. View Publication

Blood flow promotes emergence of definitive hematopoietic stem cells (HSCs) in the developing embryo,yet the signals generated by hemodynamic forces that influence hematopoietic potential remain poorly defined. Here we show that fluid shear stress endows long-term multilineage engraftment potential upon early hematopoietic tissues at embryonic day 9.5,an embryonic stage not previously described to harbor HSCs. Effects on hematopoiesis are mediated in part by a cascade downstream of wall shear stress that involves calcium efflux and stimulation of the prostaglandin E2 (PGE2)-cyclic adenosine monophosphate (cAMP)-protein kinase A (PKA) signaling axis. Blockade of the PGE2-cAMP-PKA pathway in the aorta-gonad-mesonephros (AGM) abolished enhancement in hematopoietic activity. Furthermore,Ncx1 heartbeat mutants,as well as static cultures of AGM,exhibit lower levels of expression of prostaglandin synthases and reduced phosphorylation of the cAMP response element-binding protein (CREB). Similar to flow-exposed cultures,transient treatment of AGM with the synthetic analogue 16,16-dimethyl-PGE2 stimulates more robust engraftment of adult recipients and greater lymphoid reconstitution. These data provide one mechanism by which biomechanical forces induced by blood flow modulate hematopoietic potential. View Publication

Non-small cell lung cancer (NSCLC) patients with epidermal growth factor receptor (EGFR) mutations are responsive to EGFR-tyrosine kinase inhibitor (EGFR-TKI). However,NSCLC patients with secondary somatic EGFR mutations are resistant to EGFR-TKI treatment. In this study,we investigated the effect of TG101348 (a JAK2 inhibitor) on the tumor growth of erlotinib-resistant NSCLC cells. Cell proliferation,apoptosis,gene expression and tumor growth were evaluated by diphenyltetrazolium bromide (MTT) assay,flow cytometry,terminal deoxynucleotidyl transferase biotin-dUTP nick end labeling (TUNEL) staining,Western Blot and a xenograft mouse model,respectively. Results showed that erlotinib had a stronger impact on the induction of apoptosis in erlotinib-sensitive PC-9 cells but had a weaker effect on erlotinib-resistant H1975 and H1650 cells than TG101348. TG101348 significantly enhanced the cytotoxicity of erlotinib to erlotinib-resistant NSCLC cells,stimulated erlotinib-induced apoptosis and downregulated the expressions of EGFR,p-EGFR,p-STAT3,Bcl-xL and survivin in erlotinib-resistant NSCLC cells. Moreover,the combined treatment of TG101348 and erlotinib induced apoptosis,inhibited the activation of p-EGFR and p-STAT3,and inhibited tumor growth of erlotinib-resistant NSCLC cells in vivo. Our results indicate that TG101348 is a potential adjuvant for NSCLC patients during erlotinib treatment. View Publication

The application of stem-cell-based therapies in regenerative medicine is hindered by the tumorigenic potential of residual human pluripotent stem cells. Previously,we identified a human pluripotent stem-cell-specific lectin probe,called rBC2LCN,by comprehensive glycome analysis using high-density lectin microarrays. Here we developed a recombinant lectin-toxin fusion protein of rBC2LCN with a catalytic domain of Pseudomonas aeruginosa exotoxin A,termed rBC2LCN-PE23,which could be expressed as a soluble form from the cytoplasm of Escherichia coli and purified to homogeneity by one-step affinity chromatography. rBC2LCN-PE23 bound to human pluripotent stem cells,followed by its internalization,allowing intracellular delivery of a cargo of cytotoxic protein. The addition of rBC2LCN-PE23 to the culture medium was sufficient to completely eliminate human pluripotent stem cells. Thus,rBC2LCN-PE23 has the potential to contribute to the safety of stem-cell-based therapies. View Publication

Eosinophils are associated with type 2 immune responses to allergens and helminths. They release various proinflammatory mediators and toxic proteins on activation and are therefore considered proinflammatory effector cells. Eosinophilia is promoted by the cytokines interleukin (IL)-3,IL-5,and granulocyte macrophage-colony-stimulating factor (GM-CSF) and can result from enhanced de novo production or reduced apoptosis. In this study,we show that only IL-5 induces differentiation of eosinophils from bone marrow precursors,whereas IL-5,GM-CSF,and to a lesser extent IL-3 promote survival of mature eosinophils. The receptors for these cytokines use the common β chain,which serves as the main signaling unit linked to signal transducer and activator of transcription 5,p38 mitogen-activated protein kinase,and nuclear factor (NF)-κB pathways. Inhibition of NF-κB induced apoptosis of in vitro cultured eosinophils. Selective deletion of IκBα in vivo resulted in enhanced expression of Bcl-xL and reduced apoptosis during helminth infection. Retroviral overexpression of Bcl-xL promoted survival,whereas pharmacologic inhibition of Bcl-xL in murine or human eosinophils induced rapid apoptosis. These results suggest that therapeutic strategies targeting Bcl-xL in eosinophils could improve health conditions in allergic inflammatory diseases. View Publication

BACKGROUND Anagrelide is a cytoreductive agent used to lower platelet counts in essential thrombocythemia. Although the drug has been known to selectively inhibit megakaryopoiesis for many years,the molecular mechanism accounting for this activity is still unclear. OBJECTIVES AND METHODS To address this issue we have compared the global gene expression profiles of human hematopoietic cells treated ex-vivo with and without anagrelide while growing under megakaryocyte differentiation conditions,using high-density oligonucleotide microarrays. Gene expression data were validated by the quantitative polymerase chain reaction and mined to identify functional subsets and regulatory pathways. RESULTS We identified 328 annotated genes differentially regulated by anagrelide,including many genes associated with platelet functions and with the control of gene transcription. Prominent among the latter was TRIB3,whose expression increased in the presence of anagrelide. Pathway analysis revealed that anagrelide up-regulated genes that are under the control of the transcription factor ATF4,a known TRIB3 inducer. Notably,immunoblot analysis demonstrated that anagrelide induced the phosphorylation of eIF2α,which is an upstream regulator of ATF4,and increased ATF4 protein levels. Furthermore,salubrinal,an inhibitor of eIF2α dephosphorylation,increased the expression of ATF4-regulated genes and blocked megakaryocyte growth. CONCLUSIONS These findings link signaling through eIF2α/ATF4 to the anti-megakaryopoietic activity of anagrelide and identify new potential modulators of megakaryopoiesis. View Publication

While enucleation is a critical step in the terminal differentiationbackslashnof human red blood cells,the molecular mechanisms underlying thisbackslashnunique process remain unclear. To investigate erythroblast enucleationbackslashnwe studied the erythroid differentiation of human embryonic stembackslashncells (hESCs),which provide a unique model for deeper understandingbackslashnof the development and differentiation of multiple cell types. Firstly,backslashnusing a two-step protocol,we demonstrated that terminal erythroidbackslashndifferentiation from hESCs is directly dependent on the age of thebackslashnembryoid bodies. Secondly,by choosing hESCs in two extreme conditionsbackslashnof erythroid culture,we obtained an original differentiation modelbackslashnwhich allows one to study the mechanisms underlying the enucleationbackslashnof erythroid cells by analyzing the gene and miRNA (miR) expressionbackslashnprofiles of cells from these two culture conditions. Thirdly,usingbackslashnan integrated analysis of mRNA and miR expression profiles,we identifiedbackslashn5 miRs potentially involved in erythroblast enucleation. Finally,backslashnby selective knockdown of these 5 miRs we found miR-30a to be a regulatorbackslashnof erythroblast enucleation in hESCs. This article is protected bybackslashncopyright. All rights reserved. View Publication

Fibroblast growth factors (FGFs) are essential for maintaining self-renewal in human embryonic stem cells and induced pluripotent stem cells. Recombinant basic FGF (bFGF or FGF2) is conventionally used to culture pluripotent stem cells; however,because of the instability of bFGF,repeated addition of fresh bFGF into the culture medium is required in order to maintain its concentration. In this study,we demonstrate that a heat-stable chimeric variant of FGF,termed FGFC,can be successfully used for maintaining human pluripotent stem cells. FGFC is a chimeric protein composed of human FGF1 and FGF2 domains that exhibits higher thermal stability and protease resistance than do both FGF1 and FGF2. Both human embryonic stem cells and induced pluripotent stem cells were maintained in ordinary culture medium containing FGFC instead of FGF2. Comparison of cells grown in FGFC with those grown in conventional FGF2 media showed no significant differences in terms of the expression of pluripotency markers,global gene expression,karyotype,or differentiation potential in the three germ lineages. We therefore propose that FGFC may be an effective alternative to FGF2,for maintenance of human pluripotent stem cells. View Publication

BACKGROUND: Airway remodeling is a proposed mechanism that underlies the persistent loss of lung function associated with childhood asthma. Previous studies have demonstrated that human lung fibroblasts (HLFs) co-cultured with primary human bronchial epithelial cells (BECs) from asthmatic children exhibit greater expression of extracellular matrix (ECM) components compared to co-culture with BECs derived from healthy children. Myofibroblasts represent a population of differentiated fibroblasts that have greater synthetic activity. We hypothesized co-culture with asthmatic BECs would lead to greater fibroblast to myofibroblast transition (FMT) compared to co-culture with healthy BECs. METHODS: BECs were obtained from well-characterized asthmatic and healthy children and were proliferated and differentiated at an air-liquid interface (ALI). BEC-ALI cultures were co-cultured with HLFs for 96 hours. RT-PCR was performed in HLFs for alpha smooth muscle actin ($$-SMA) and flow cytometry was used to assay for $$-SMA antibody labeling of HLFs. RT-PCR was also preformed for the expression of tropomyosin-I as an additional marker of myofibroblast phenotype. In separate experiments,we investigated the role of TGF$$2 in BEC-HLF co-cultures using monoclonal antibody inhibition. RESULTS: Expression of $$-SMA by HLFs alone was greater than by HLFs co-cultured with healthy BECs,but not different than $$-SMA expression by HLFs co-cultured with asthmatic BECs. Flow cytometry also revealed significantly less $$-SMA expression by healthy co-co-cultures compared to asthmatic co-cultures or HLF alone. Monoclonal antibody inhibition of TGF$$2 led to similar expression of $$-SMA between healthy and asthmatic BEC-HLF co-cultures. Expression of topomyosin-I was also significantly increased in HLF co-cultured with asthmatic BECs compared to healthy BEC-HLF co-cultures or HLF cultured alone. CONCLUSION: These findings suggest dysregulation of FMT in HLF co-cultured with asthmatic as compared to healthy BECs. Our results suggest TGF$$2 may be involved in the differential regulation of FMT by asthmatic BECs. These findings further illustrate the importance of BEC-HLF cross-talk in asthmatic airway remodeling. View Publication

BACKGROUND: Surfactant protein D (SP-D),a pattern recognition molecule,has been shown to play roles in host defense such as opsonisation,aggregation of pathogens,and modulation of the inflammatory response. In light of infection-induced exacerbations and damage to the airway epithelium from inflammation,these functions of SP-D make it relevant in the development and pathogenesis of asthma. METHODS: Expression of SP-D was examined in human airway sections and primary airway epithelial cells (AEC) grown in air-liquid interface (ALI) cultures and comparisons were made between those from asthmatic and non-asthmatic donors. ALI cultures of AEC from non-asthmatic donors were examined for SP-D,Mucin 5AC,and cytokeratin-5 expression at different stages of differentiation. Interleukin-13 (IL-13) treatment of airway epithelium and its effect on SP-D expression was studied using ALI and monolayer cultures of primary AEC from non-asthmatic and asthmatic donors. RESULTS: Airway epithelium of asthmatics,compared to that of non-asthmatics,expressed increased levels of SP-D as demonstrated in airway tissue sections (fraction of epithelium 0.66 ± 0.026 vs. 0.50 ± 0.043,p = 0.004) and ALI cultures (fraction of epithelium 0.50 ± 0.08 vs. 0.25 ± 0.07). SP-D expression decreased as ALI cultures differentiated from 7 days to 21 days (fraction of epithelium 0.62 ± 0.04 to 0.23 ± 0.03,p = 0.004). Treatment with IL-13 decreased SP-D expression in both ALI cultures (fraction of epithelium 0.21 ± 0.06 vs. 0.62 ± 0.04,p = 0.0005) and monolayer cultures (protein expression fold change 0.62 ± 0.05) of non-asthmatic AEC; however,IL-13 had no significant effect on SP-D expression in monolayer cultures of asthmatic AEC. Experiments with non-asthmatic monolayer cultures indicate IL-13 exert its effect on SP-D through the IL-13 receptor alpha1 and transcription factor STAT6. CONCLUSIONS: SP-D is expressed differently in airways of asthmatics relative to that of non-asthmatics. This can have implications on the increased susceptibility to infections and altered inflammatory response in asthmatic patients. Future functional studies on the role of SP-D in asthma can provide better insight into defects in the structure and regulation of SP-D. View Publication

Pediatric-onset ataxias often present clinically as developmental delay and intellectual disability,with prominent cerebellar atrophy as a key neuroradiographic finding. Here we describe a new clinically distinguishable recessive syndrome in 12 families with cerebellar atrophy together with ataxia,coarsened facial features and intellectual disability,due to truncating mutations in the sorting nexin gene SNX14,encoding a ubiquitously expressed modular PX domain-containing sorting factor. We found SNX14 localized to lysosomes and associated with phosphatidylinositol (3,5)-bisphosphate,a key component of late endosomes/lysosomes. Patient-derived cells showed engorged lysosomes and a slower autophagosome clearance rate upon autophagy induction by starvation. Zebrafish morphants for snx14 showed dramatic loss of cerebellar parenchyma,accumulation of autophagosomes and activation of apoptosis. Our results characterize a unique ataxia syndrome due to biallelic SNX14 mutations leading to lysosome-autophagosome dysfunction. View Publication

Inactivation of the Pancreatic and Duodenal Homeobox 1 (PDX1) gene causes pancreatic agenesis,which places PDX1 high atop the regulatory network controlling development of this indispensable organ. However,little is known about the identity of PDX1 transcriptional targets. We simulated pancreatic development by differentiating human embryonic stem cells (hESCs) into early pancreatic progenitors and subjected this cell population to PDX1 chromatin immunoprecipitation sequencing (ChIP-seq). We identified more than 350 genes bound by PDX1,whose expression was upregulated on day 17 of differentiation. This group included known PDX1 targets and many genes not previously linked to pancreatic development. ChIP-seq also revealed PDX1 occupancy at hepatic genes. We hypothesized that simultaneous PDX1-driven activation of pancreatic and repression of hepatic programs underlie early divergence between pancreas and liver. In HepG2 cells and differentiating hESCs,we found that PDX1 binds and suppresses expression of endogenous liver genes. These findings rebrand PDX1 as a context-dependent transcriptional repressor and activator within the same cell type. View Publication