技术资料

Interactions between developmental signaling pathways govern the formation and function of stem cells. Prostaglandin (PG) E2 regulates vertebrate hematopoietic stem cells (HSC). Similarly,the Wnt signaling pathway controls HSC self-renewal and bone marrow repopulation. Here,we show that wnt reporter activity in zebrafish HSCs is responsive to PGE2 modulation,demonstrating a direct interaction in vivo. Inhibition of PGE2 synthesis blocked wnt-induced alterations in HSC formation. PGE2 modified the wnt signaling cascade at the level of beta-catenin degradation through cAMP/PKA-mediated stabilizing phosphorylation events. The PGE2/Wnt interaction regulated murine stem and progenitor populations in vitro in hematopoietic ES cell assays and in vivo following transplantation. The relationship between PGE2 and Wnt was also conserved during regeneration of other organ systems. Our work provides in vivo evidence that Wnt activation in stem cells requires PGE2,and suggests the PGE2/Wnt interaction is a master regulator of vertebrate regeneration and recovery. View Publication

The Disrupted in Schizophrenia 1 (DISC1) gene is disrupted by a balanced chromosomal translocation (1; 11) (q42; q14.3) in a Scottish family with a high incidence of major depression,schizophrenia,and bipolar disorder. Subsequent studies provided indications that DISC1 plays a role in brain development. Here,we demonstrate that suppression of DISC1 expression reduces neural progenitor proliferation,leading to premature cell cycle exit and differentiation. Several lines of evidence suggest that DISC1 mediates this function by regulating GSK3beta. First,DISC1 inhibits GSK3beta activity through direct physical interaction,which reduces beta-catenin phosphorylation and stabilizes beta-catenin. Importantly,expression of stabilized beta-catenin overrides the impairment of progenitor proliferation caused by DISC1 loss of function. Furthermore,GSK3 inhibitors normalize progenitor proliferation and behavioral defects caused by DISC1 loss of function. Together,these results implicate DISC1 in GSK3beta/beta-catenin signaling pathways and provide a framework for understanding how alterations in this pathway may contribute to the etiology of psychiatric disorders. View Publication

BACKGROUND: Omega 3 fatty acids have been found to inhibit proliferation,induce apoptosis,and promote differentiation in various cell types. The processes of cell survival,expansion,and differentiation are of key importance in the regulation of hematopoiesis. We investigated the role of omega 3 fatty acids in controlling the frequency of various myeloid progenitor cells in the bone marrow of mice. Increased progenitor cell frequency and blocked differentiation are characteristics of hematopoietic disorders of the myeloid lineage,such as myeloproliferative diseases and myeloid leukemias. RESULTS: We found that increasing the proportion of omega 3 fatty acids relative to the proportion of omega 6 fatty acids in the diet caused increased differentiation and reduced the frequency of myeloid progenitor cells in the bone marrow of mice. Furthermore,this had no adverse effect on peripheral white blood cell counts. CONCLUSION: Our results indicate that omega 3 fatty acids impact hematopoietic differentiation by reducing myeloid progenitor cell frequency in the bone marrow and promoting progenitor cell differentiation. Further exploration of this discovery could lead to the use of omega 3 fatty acids as a therapeutic option for patients that have various disorders of hematopoiesis. View Publication

Stepwise differentiation from embryonic stem cells (ESCs) to functional insulin-secreting beta cells will identify key steps in beta-cell development and may yet prove useful for transplantation therapy for diabetics. An essential step in this schema is the generation of pancreatic progenitors--cells that express Pdx1 and produce all the cell types of the pancreas. High-content chemical screening identified a small molecule,(-)-indolactam V,that induces differentiation of a substantial number of Pdx1-expressing cells from human ESCs. The Pdx1-expressing cells express other pancreatic markers and contribute to endocrine,exocrine and duct cells,in vitro and in vivo. Further analyses showed that (-)-indolactam V works specifically at one stage of pancreatic development,inducing pancreatic progenitors from definitive endoderm. This study describes a chemical screening platform to investigate human ESC differentiation and demonstrates the generation of a cell population that is a key milepost on the path to making beta cells. View Publication

Glatiramer acetate (GA or Copaxone) is a drug used to treat experimental autoimmune encephalomyelitis in mice and multiple sclerosis in human. Here,we describe a new mechanism of action for this drug. GA enhanced the cytolysis of human NK cells against autologous and allogeneic immature and mature monocyte-derived dendritic cells (DCs). This drug reduced the percentages of mature DCs expressing CD80,CD83,HLA-DR or HLA-I. In contrast,it did not modulate the percentages of NK cells expressing NKG2D,NKp30,or NKp44. Nonetheless,anti-NKp30 or anti-CD86 inhibited GA-enhanced human NK cell lysis of immature DCs. Hence,CD86,and NKp30 are important for NK cell lysis of immature DCs,whereas CD80,CD83,HLA-DR and HLA-I are important for the lysis of mature DCs when GA is used as a stimulus. Further,GA inhibited the release of IFN-gamma 24 h but increased the release of TNF-alpha 48 h after incubation with NK cells. View Publication

PURPOSE: The existence of tumor-initiating cells in breast cancer has profound implications for cancer therapy. In this study,we investigated the sensitivity of tumor-initiating cells isolated from human epidermal growth factor receptor type 2 (HER2)-overexpressing carcinoma cell lines to trastuzumab,a compound used for the targeted therapy of breast cancer. EXPERIMENTAL DESIGN: Spheres were analyzed by indirect immunofluorescence for HER2 cell surface expression and by real-time PCR for HER2 mRNA expression in the presence or absence of the Notch1 signaling inhibitor (GSI) or Notch1 small interfering RNA. Xenografts of HER2-overexpressing breast tumor cells were treated with trastuzumab or doxorubicin. The sphere-forming efficiency (SFE) and serial transplantability of tumors were assessed. RESULTS: In HER2-overexpressing carcinoma cell lines,cells with tumor-initiating cell properties presented increased HER2 levels compared with the bulk cell population without modification in HER2 gene amplification. HER2 levels were controlled by Notch1 signaling,as shown by the reduction of HER2 cell surface expression and lower SFE following gamma-secretase inhibition or Notch1 specific silencing. We also show that trastuzumab was able to effectively target tumor-initiating cells of HER2-positive carcinoma cell lines,as indicated by the significant decrease in SFE and the loss of serial transplantability,following treatment of HER2-overexpressing xenotransplants. CONCLUSIONS: Here,we provide evidence for the therapeutic efficacy of trastuzumab in debulking and in targeting tumor-initiating cells of HER2-overexpressing tumors. We also propose that Notch signaling regulates HER2 expression,thereby representing a critical survival pathway of tumor-initiating cells. View Publication

Tumor contains small population of cancer stem cells (CSC) that are responsible for its maintenance and relapse. Analysis of these CSCs may lead to effective prognostic and therapeutic strategies for the treatment of cancer patients. We report here the identification of CSCs from human lung cancer cells using Aldefluor assay followed by fluorescence-activated cell sorting analysis. Isolated cancer cells with relatively high aldehyde dehydrogenase 1 (ALDH1) activity display in vitro features of CSCs,including capacities for proliferation,self-renewal,and differentiation,resistance to chemotherapy,and expressing CSC surface marker CD133. In vivo experiments show that the ALDH1-positive cells could generate tumors that recapitulate the heterogeneity of the parental cancer cells. Immunohistochemical analysis of 303 clinical specimens from three independent cohorts of lung cancer patients and controls show that expression of ALDH1 is positively correlated with the stage and grade of lung tumors and related to a poor prognosis for the patients with early-stage lung cancer. ALDH1 is therefore a lung tumor stem cell-associated marker. These findings offer an important new tool for the study of lung CSCs and provide a potential prognostic factor and therapeutic target for treatment of the patients with lung cancer. View Publication

Bacillus anthracis secretes two bipartite toxins,edema toxin (ET) and lethal toxin (LT),which impair immune responses and contribute directly to the pathology associated with the disease anthrax. Edema factor,the catalytic subunit of ET,is an adenylate cyclase that impairs host defenses by raising cellular cyclic AMP (cAMP) levels. Synthetic cAMP analogues and compounds that raise intracellular cAMP levels lead to phenotypic and functional changes in dendritic cells (DCs). Here,we demonstrate that ET induces a maturation state in human monocyte-derived DCs (MDDCs) similar to that induced by lipopolysaccharide (LPS). ET treatment results in downregulation of DC-SIGN,a marker of immature DCs,and upregulation of DC maturation markers CD83 and CD86. Maturation of DCs by ET is accompanied by an increased ability to migrate toward the lymph node-homing chemokine macrophage inflammatory protein 3beta,like LPS-matured DCs. Interestingly,cotreating with LT differentially affects the ET-induced maturation of MDDCs while not inhibiting ET-induced migration. These findings reveal a mechanism by which ET impairs normal innate immune function and may explain the reported adjuvant effect of ET. View Publication

Ectopic delivery of HOXB4 elicits the expansion of engrafting hematopoietic stem cells (HSCs). We hypothesized that inhibition of tumor necrosis factor-alpha (TNF-alpha) signaling may be central to the self-renewal signature of HOXB4. Because HSCs derived from Fanconi anemia (FA) knockout mice are hypersensitive to TNF-alpha,we studied Fancc(-/-) HSCs to determine the physiologic effects of HOXB4 on TNF-alpha sensitivity and the relationship of these effects to the engraftment defect of FA HSCs. Overexpression of HOXB4 reversed the in vitro hypersensitivity to TNF-alpha of Fancc(-/-) HSCs and progenitors (P) and partially rescued the engraftment defect of these cells. Coexpression of HOXB4 and the correcting FA-C protein resulted in full correction compared with wild-type (WT) HSCs. Ectopic expression of HOXB4 resulted in a reduction in both apoptosis and reactive oxygen species in Fancc(-/-) but not WT HSC/P. HOXB4 overexpression was also associated with a significant reduction in surface expression of TNF-alpha receptors on Fancc(-/-) HSC/P. Finally,enhanced engraftment was seen even when HOXB4 was expressed in a time-limited fashion during in vivo reconstitution. Thus,the HOXB4 engraftment signature may be related to its effects on TNF-alpha signaling,and this pathway may be a molecular target for timed pharmacologic manipulation of HSC during reconstitution. View Publication

PURPOSE: Aberrant activation of the Notch signaling pathway is commonly observed in human pancreatic cancer,although the mechanism(s) for this activation has not been elucidated. EXPERIMENTAL DESIGN: A panel of 20 human pancreatic cancer cell lines was profiled for the expression of Notch pathway-related ligands,receptors,and target genes. Disruption of intracellular Notch signaling,either genetically by RNA interference targeting NOTCH1 or pharmacologically by means of the gamma-secretase inhibitor GSI-18,was used for assessing requirement of Notch signaling in pancreatic cancer initiation and maintenance. RESULTS: Striking overexpression of Notch ligand transcripts was detectable in the vast majority of pancreatic cancer cell lines,most prominently JAGGED2 (18 of 20 cases,90%) and DLL4 (10 of 20 cases,50%). In two cell lines,genomic amplification of the DLL3 locus was observed,mirrored by overexpression of DLL3 transcripts. In contrast,coding region mutations of NOTCH1 or NOTCH2 were not observed. Genetic and pharmacologic inhibition of Notch signaling mitigated anchorage-independent growth in pancreatic cancer cells,confirming that sustained Notch activation is a requirement for pancreatic cancer maintenance. Further,transient pretreatment of pancreatic cancer cells with GSI-18 resulted in depletion in the proportion of tumor-initiating aldehyde dehydrogenase-expressing subpopulation and was associated with inhibition of colony formation in vitro and xenograft engraftment in vivo,underscoring a requirement for the Notch-dependent aldehyde dehydrogenase-expressing cells in pancreatic cancer initiation. CONCLUSIONS: Our studies confirm that Notch activation is almost always ligand dependent in pancreatic cancer,and inhibition of Notch signaling is a promising therapeutic strategy in this malignancy. View Publication

Current neural induction protocols for human embryonic stem (hES) cells rely on embryoid body formation,stromal feeder co-culture or selective survival conditions. Each strategy has considerable drawbacks,such as poorly defined culture conditions,protracted differentiation and low yield. Here we report that the synergistic action of two inhibitors of SMAD signaling,Noggin and SB431542,is sufficient to induce rapid and complete neural conversion of textgreater80% of hES cells under adherent culture conditions. Temporal fate analysis reveals the appearance of a transient FGF5(+) epiblast-like stage followed by PAX6(+) neural cells competent to form rosettes. Initial cell density determines the ratio of central nervous system and neural crest progeny. Directed differentiation of human induced pluripotent stem (hiPS) cells into midbrain dopamine and spinal motoneurons confirms the robustness and general applicability of the induction protocol. Noggin/SB431542-based neural induction should facilitate the use of hES and hiPS cells in regenerative medicine and disease modeling and obviate the need for protocols based on stromal feeders or embryoid bodies. View Publication

Chronic myelogenous leukemia (CML) is a hematopoietic disorder originating from p210BCR/ABL-transformed stem cells,which begins as indolent chronic phase (CP) but progresses into fatal blast crisis (BC). To investigate molecular mechanism(s) underlying disease evolution,CML-exhibiting p210BCR/ABL transgenic mice were crossed with BXH2 mice that transmit a replication-competent retrovirus. Whereas nontransgenic mice in the BXH2 background exclusively developed acute myeloid leukemia,p210BCR/ABL transgenic littermates developed nonmyeloid leukemias,in which inverse polymerase chain reaction detected 2 common viral integration sites (CISs). Interestingly,one CIS was transgene's own promoter,which up-regulated p210BCR/ABL expression. The other was the 5' noncoding region of a transcription factor,Zfp423,which induced aberrant Zfp423 expression. The cooperative activities of Zfp423 and p210BCR/ABL were demonstrated as follows: (1) introduction of Zfp423 in p210BCR/ABL transgenic bone marrow (BM) cells increased colony-forming ability,(2) suppression of ZNF423 (human homologue of Zfp423) in ZNF423-expressing,p210BCR/ABL-positive hematopoietic cells retarded cell growth,(3) mice that received a transplant of BM cells transduced with Zfp423 and p210BCR/ABL developed acute leukemia,and (4) expression of ZNF423 was found in human BCR/ABL-positive cell lines and CML BC samples. These results demonstrate that enhanced expression of p210BCR/ABL and deregulated expression of Zfp423/ZNF423 contribute to CML BC. View Publication