技术资料

BACKGROUND Many groups have generated insulin-secreting cells from hESCs/iPSCs in multiple differentiation stages by mimicking the developmental processes. However,these cells do not always secrete glucose responsive insulin,one of the most important characteristics of pancreatic $$ cells. We focused on the importance of endodermal differentiation from human iPSCs in order to obtain functional pancreatic $$ cells. METHODS We established a 6-stage protocol for the differentiation process from hiPSCs to pancreatic $$ cells using defined culture media without feeders or serum. We examined the effect of CHIR99021,the selective inhibitor of GSK-3$$,in the presence of Activin,FGF2,and BMP4 during definitive endodermal induction by immunostaining for SOX17 and FOXA2. We also compared the insulin secretion at the last stage between monolayer culture and spheroid culture conditions. Cultured cells were transplanted under the kidney capsules of STZ-induced diabetic NOD-SCID mice,and blood glucose levels were measured. Immunohistochemical analysis was performed 4 weeks and 12 weeks after transplantation. RESULTS Addition of CHIR99021 in the presence of Activin,FGF2,and BMP4 for 2 days improved the viability of the endodermal cells,keeping the high positive rate of SOX17. Spheroid formation after the endocrine progenitor stage showed more efficient insulin secretion than monolayer culture did. After cell transplantation,diabetic mice showed lowered blood glucose levels,and we detected islet-like structures in vivo. CONCLUSION We generated functional pancreatic $$ cells from human iPS cells. Induction of definitive endoderm and spheroid formation might be key steps for producing them. View Publication

BACKGROUND Severe fever with thrombocytopenia syndrome (SFTS) is a tick-borne infectious disease with a high case fatality rate,and is caused by the SFTS virus (SFTSV). SFTS is endemic to China,South Korea,and Japan. The viral RNA level in sera of patients with SFTS is known to be strongly associated with outcomes. Virological SFTS diagnosis with high sensitivity and specificity are required in disease endemic areas. METHODOLOGY/PRINCIPAL FINDINGS We generated novel monoclonal antibodies (MAbs) against the SFTSV nucleocapsid (N) protein and developed a sandwich antigen (Ag)-capture enzyme-linked immunosorbent assay (ELISA) for the detection of N protein of SFTSV using MAb and polyclonal antibody as capture and detection antibodies,respectively. The Ag-capture system was capable of detecting at least 350-1220 TCID50/100 μl/well from the culture supernatants of various SFTSV strains. The efficacy of the Ag-capture ELISA in SFTS diagnosis was evaluated using serum samples collected from patients suspected of having SFTS in Japan. All 24 serum samples (100%) containing high copy numbers of viral RNA (textgreater105 copies/ml) showed a positive reaction in the Ag-capture ELISA,whereas 12 out of 15 serum samples (80%) containing low copy numbers of viral RNA (textless105 copies/ml) showed a negative reaction in the Ag-capture ELISA. Among these Ag-capture ELISA-negative 12 samples,9 (75%) were positive for IgG antibodies against SFTSV. CONCLUSIONS The newly developed Ag-capture ELISA is useful for SFTS diagnosis in acute phase patients with high levels of viremia. View Publication

Human embryonic stem cells (ESCs) readily commit to the trophoblast lineage after exposure to bone morphogenetic protein-4 (BMP-4) and two small compounds,an activin A signaling inhibitor and a FGF2 signaling inhibitor (BMP4/A83-01/PD173074; BAP treatment). During differentiation,areas emerge within the colonies with the biochemical and morphological features of syncytiotrophoblast (STB). Relatively pure fractions of mononucleated cytotrophoblast (CTB) and larger syncytial sheets displaying the expected markers of STB can be obtained by differential filtration of dispersed colonies through nylon strainers. RNA-seq analysis of these fractions has allowed them to be compared with cytotrophoblasts isolated from term placentas before and after such cells had formed syncytia. Although it is clear from extensive gene marker analysis that both ESC- and placenta-derived syncytial cells are trophoblast,each with the potential to transport a wide range of solutes and synthesize placental hormones,their transcriptome profiles are sufficiently dissimilar to suggest that the two cell types have distinct pedigrees and represent functionally different kinds of STB. We propose that the STB generated from human ESCs represents the primitive syncytium encountered in early pregnancy soon after the human trophoblast invades into the uterine wall. View Publication

BACKGROUND Identification of species-specific trypanosome molecules is important for laboratory- and field-based research into epidemiology and disease diagnosis. Although Trypanosoma congolense is the most important trypanosome pathogen of cattle in Africa,no species-specific molecules found in infective bloodstream forms (BSF) of the parasites have been identified,thus limiting development of diagnostic tests. METHODS Immuno-mass spectrometric methods were used to identify a protein that is recognized by a T. congolense-specific monoclonal antibody (mAb) Tc6/42.6.4. The identified molecule was expressed as a recombinant protein in E. coli and was tested in several immunoassays for its ability to interact with the mAb. The three dimensional structure of the protein was modeled and compared to crystal- and NMR-structures of the homologous proteins from T. cruzi and T. brucei respectively,in order to examine structural differences leading to the different immunoreactivity of the T. congolense molecule. Enzyme-linked immunosorbent assays (ELISA) were used to measure antibodies produced by trypanosome-infected African cattle in order to assess the potential for use of T. congolense calflagin in a serodiagnostic assay. RESULTS The antigen recognized by the T. congolense-specific mAb Tc6/42.6.4 was identified as a flagellar calcium-binding protein,calflagin. The recombinant molecule showed immunoreactivity with the T. congolense-specific mAb confirming that it is the cognate antigen. Immunofluorescence experiments revealed that Ca2+ modulated the localization of the calflagin molecule in trypanosomes. Structural modelling and comparison with calflagin homologues from other trypanosomatids revealed four non-conserved regions on the surface of the T. congolense molecule that due to differences in surface chemistry and structural topography may form species-specific epitopes. ELISAs using the recombinant calflagin as antigen to detect antibodies in trypanosome-infected cattle showed that the majority of cattle had antibody responses. Area under the Receiver-Operating Characteristic (ROC) curves,associated with host IgG and IgM,were calculated to be 0.623 and 0.709 respectively,indicating a positive correlation between trypanosome infection and the presence of anti-calflagin antibodies. CONCLUSIONS While calflagin is conserved among different species of African trypanosomes,our results show that T. congolense calflagin possesses unique epitopes that differentiate this protein from homologues in other trypanosome species. MAb Tc6/42.6.4 has clear utility as a laboratory tool for identifying T. congolense. T. congolense calflagin has potential as a serodiagnostic antigen and should be explored further for its utility in antigen-detection assays for diagnosis of cattle infections. View Publication

Human embryonic stem cells (hESCs) exhibit unique cell cycle structure,self-renewal and pluripotency. The Forkhead box transcription factor M1 (FOXM1) is critically required for the maintenance of pluripotency in mouse embryonic stem cells and mouse embryonal carcinoma cells,but its role in hESCs remains unclear. Here,we show that FOXM1 expression was enriched in undifferentiated hESCs and was regulated in a cell cycle-dependent manner with peak levels detected at the G2/M phase. Expression of FOXM1 did not correlate with OCT4 and NANOG during in vitro differentiation of hESCs. Importantly,knockdown of FOXM1 expression led to aberrant cell cycle distribution with impairment in mitotic progression but showed no profound effect on the undifferentiated state. Interestingly,FOXM1 depletion sensitized hESCs to oxidative stress. Moreover,genome-wide analysis of FOXM1 targets by ChIP-seq identified genes important for M phase including CCNB1 and CDK1,which were subsequently confirmed by ChIP and RNA interference analyses. Further peak set comparison against a differentiating hESC line and a cancer cell line revealed a substantial difference in the genomic binding profile of FOXM1 in hESCs. Taken together,our findings provide the first evidence to support FOXM1 as an important regulator of cell cycle progression and defense against oxidative stress in hESCs. View Publication

Pluripotent stem cells exhibit cell cycle-regulated heterogeneity for trimethylation of histone-3 on lysine-4 (H3K4me3) on developmental gene promoters containing bivalent epigenetic domains. The heterogeneity of H3K4me3 can be attributed to Cyclin-dependent kinase-2 (CDK2) phosphorylation and activation of the histone methyltransferase,MLL2 (KMT2B),during late-G1. The deposition of H3K4me3 on developmental promoters in late-G1 establishes a permissive chromatin architecture that enables signaling cues to promote differentiation from the G1 phase. These data suggest that the inhibition of MLL2 phosphorylation and activation will prevent the initiation of differentiation. Here,we describe a method to seamlessly modify a putative CDK2 phosphorylation site on MLL2 to restrict its phosphorylation and activation. Specifically,by utilizing dimeric CRISPR RNA-guided nucleases,RFNs (commercially known as the NextGEN™ CRISPR),in combination with an excision-only piggyBac™ transposase,we demonstrate how to generate a point mutation of threonine-542,a predicted site to prevent MLL2 activation. This gene editing method enables the use of both positive and negative selection,and allows for subsequent removal of the donor cassette without leaving behind any unwanted DNA sequences or modifications. This seamless donor-excision" approach provides clear advantages over using single stranded oligo-deoxynucleotides (ssODN) as donors to create point mutations� View Publication

We asked this question: in normal humans,is either a normal dietary intake or normal serum concentration of phosphorus a determinant of the serum concentration of 1,25(OH)2D? In seven normal men whose dietary phosphorus was decreased from 2,300 to 625 mg/d,each intake for 8-9 d,under strictly controlled,normal metabolic conditions,we measured serum concentrations of 1,25(OH)2D daily,and concentrations of phosphorus hourly throughout a 24-h period,before and after restriction. Decreasing dietary phosphorus induced: (a) a 58% increase in serum levels of 1,25(OH)2D; (b) a 35% decrease in serum levels of phosphorus measured in the afternoon; (c) a 12% decrease in the 24-h mean serum level of phosphorus; but,(d) no decrease in morning fasting levels of phosphorus. Serum concentrations of 1,25(OH)2D varied inversely and significantly with 24-h mean concentrations of phosphorus (r = -0.77,P less than 0.001). When these data are combined with those of our prior study in which dietary phosphorus was varied over an extreme range,the relationship between serum levels of 1,25(OH)2D and 24-h mean serum levels of phosphorus is even stronger (r = -0.90,P less than 0.001). In the aggregate,the results demonstrate that in normal men,dietary phosphorus throughout a normal range and beyond,can finely regulate the renal production and serum concentration of 1,25(OH)2D,and provide evidence that this regulation is mediated by fine modulation of the serum concentration of phosphorus. View Publication

Adipose-derived stem cells (ASCs) have received considerable attention in oncology because of the known direct link between obesity and cancer as well as the use of ASCs in reconstructive surgery after tumor ablation. Previous studies have documented how cancer cells commandeer ASCs to support their survival by altering extracellular matrix (ECM) composition and stiffness,migration,and metastasis. This study focused on delineating the effects of ASCs and adipocytes on the self-renewal of stem/progenitor cells and hierarchy of breast epithelial cells. The immortalized breast epithelial cell line MCF10A,ductal carcinoma in situ (DCIS) cell lines MCF10DCIS.com and SUM225,and MCF10A overexpressing SRC oncogene were examined using a mammosphere assay and flow cytometry for the effects of ASCs on their self-renewal and stem-luminal progenitor-differentiated cell surface marker profiles. Interestingly,ASCs promoted the self-renewal of all cell types except SUM225. ASC co-culture or treatment with ASC conditioned media (CM) altered the number of CD49fhigh/EpCAMlow basal/stem-like and CD49fmedium/EpCAMmedium luminal progenitor cells. Among multiple factors secreted by ASCs,IFN$$ and HGF displayed unique actions on epithelial cell hierarchy. IFN$$ increased stem/progenitor-like cells while simultaneously reducing the size of mammospheres,whereas HGF increased the size of mammospheres with an accompanying increase in luminal progenitor cells. ASCs expressed higher levels of HGF,whereas adipocytes expressed higher levels of IFN$$. Since luminal progenitor cells are believed to be prone for transformation,IFN$$ and HGF expression status of ASCs may influence susceptibility for developing breast cancer as well as on outcomes of autologous fat transplantation on residual/dormant tumor cells. IMPLICATIONS This study suggests that the ratio of adipose-derived stem cells to adipocytes influences cancer cell hierarchy,which may impact incidence and progression. View Publication

We have established an in vitro 3D system which recapitulates the human tracheo-bronchial mucosa comprehensive of the pseudostratified epithelium and the underlying stromal tissue. In particular,we reported that the mature model,entirely constituted of primary cells of human origin,develops key markers proper of the native tissue such as the mucociliary differentiation of the epithelial sheet and the formation of the basement membrane. The infection of the pseudo-tissue with a strain of NonTypeable Haemophilus influenzae results in bacteria association and crossing of the mucus layer leading to an apparent targeting of the stromal space where they release large amounts of vesicles and form macro-structures. In summary,we propose our in vitro model as a reliable and potentially customizable system to study mid/long term host-pathogen processes. View Publication

Routine techniques for the isolation of human peripheral blood mononuclear cells (PBMCs) include density centrifugation with Ficoll-Paque and isolation by cell preparation tubes (CPTs) and SepMate tubes with Lymphoprep. In a series of experiments,these three PBMC isolation techniques were compared for cell recovery and viability,PBMC population composition,and cell functionality,aiming to provide a starting basis for the selection of the most appropriate method of PBMC isolation for a specific downstream application. PBMCs were freshly isolated from venous blood of healthy male donors,applying the different techniques in parallel. Cell recovery and viability were assessed using a hemacytometer and trypan blue. Immunophenotyping was performed by flow cytometry. Cell functionality was assessed in stimulated (100 ng/mL staphylococcal enterotoxin B [SEB]) and unstimulated 24 hours PBMC cultures,with cytokine production and lactate dehydrogenase (LDH) release as readout measures. PBMC isolation by SepMate and CPT resulted in a 70% higher recovery than Ficoll isolation. CPT-isolated populations contained more erythrocyte contamination. Cell viability,assessed by trypan blue exclusion,was 100% for all three isolation techniques. SepMate and CPT isolation gave higher SEB-induced cytokine responses in cell cultures,for IFNγ and for secondary cytokines. IL-6 and IL-8 release in unstimulated cultures was higher for CPT-isolated PBMCs compared to Ficoll- and SepMate-isolated PBMCs. LDH release did not differ between cell isolation techniques. In addition to criteria such as cost and application practicalities,these data may support selection of a specific PBMC isolation technique for downstream analysis. View Publication

It has been proposed that the ancestral fungus was mating competent and homothallic. However,many mating-competent fungi were initially classified as asexual because their mating capacity was hidden behind layers of regulation. For efficient in vitro mating,the essentially obligate diploid ascomycete pathogen Candida albicans has to change its mating type locus from heterozygous MTL a /α to homozygous MTL a / a or MTL α/α and then undergo an environmentally controlled epigenetic switch to the mating-competent opaque form. These requirements greatly reduce the potential for C. albicans mating. Deletion of the Yci1 domain gene OFR1 bypasses the need for C. albicans cells to change the mating type locus from heterozygous to homozygous prior to switching to the opaque form and mating and allows homothallic mating of MTL heterozygous strains. This bypass is carbon source dependent and does not occur when cells are grown on glucose. Transcriptional profiling of ofr1 mutant cells shows that in addition to regulating cell type and mating circuitry,Ofr1 is needed for proper regulation of histone and chitin biosynthesis gene expression. It appears that OFR1 is a key regulator in C. albicans and functions in part to maintain the cryptic mating phenotype of the pathogen. View Publication

Over 45,000 new cases of oral and pharyngeal cancers are diagnosed and account for over 8,000 deaths a year in the United States. An environmental chemical receptor,the aryl hydrocarbon receptor (AHR),has previously been implicated in oral squamous cell carcinoma (OSCC) initiation as well as in normal tissue-specific stem cell self-renewal. These previous studies inspired the hypothesis that the AHR plays a role in both the acquisition and progression of OSCC,as well as in the formation and maintenance of cancer stem-like cells. To test this hypothesis,AHR activity in two oral squamous cell lines was modulated with AHR prototypic,environmental and bacterial AHR ligands,AHR-specific inhibitors,and phenotypic,genomic and functional characteristics were evaluated. The data demonstrate that: 1) primary OSCC tissue expresses elevated levels of nuclear AHR as compared to normal tissue,2) Ahr mRNA expression is up-regulated in 320 primary OSCC,3) AHR hyper-activation with several ligands,including environmental and bacterial ligands,significantly increases AHR activity,ALDH1 activity,and accelerates cell migration,4) AHR inhibition blocks the rapid migration of OSCC cells and reduces cell chemoresistance,5) AHR knockdown inhibits tumorsphere formation in low adherence conditions,and 6) AHR knockdown inhibits tumor growth and increases overall survival in vivo. These data demonstrate that the AHR plays an important role in development and progression of OSCC,and specifically cancer stem-like cells. Prototypic,environmental and bacterial AHR ligands may exacerbate OSCC by enhancing expression of these properties. IMPLICATIONS This study,for the first time,demonstrates the ability of diverse AHR ligands to regulate AHR activity in oral squamous cell carcinoma cells,as well as regulate several important characteristics of oral cancer stem cells,in vivo and in vitro. View Publication