搜索结果: 'methocult media formulations for mouse hematopoietic cells serum containing'

In this study we dissected retinal organoid morphogenesis in human embryonic stem cell (hESC)-derived cultures and established a convenient method for isolating large quantities of retinal organoids for modeling human retinal development and disease. Epithelialized cysts were generated via floating culture of clumps of Matrigel/hESCs. Upon spontaneous attachment and spreading of the cysts,patterned retinal monolayers with tight junctions formed. Dispase-mediated detachment of the monolayers and subsequent floating culture led to self-formation of retinal organoids comprising patterned neuroretina,ciliary margin,and retinal pigment epithelium. Intercellular adhesion-dependent cell survival and ROCK-regulated actomyosin-driven forces are required for the self-organization. Our data supports a hypothesis that newly specified neuroretina progenitors form characteristic structures in equilibrium through minimization of cell surface tension. In long-term culture,the retinal organoids autonomously generated stratified retinal tissues,including photoreceptors with ultrastructure of outer segments. Our system requires minimal manual manipulation,has been validated in two lines of human pluripotent stem cells,and provides insight into optic cup invagination in vivo. View Publication

While distinct stages of natural killer (NK) cell development have been defined,the molecular interactions that shape human NK cell maturation are poorly understood. Here we define intercellular interactions between developing NK cells and stromal cells which,through contact-dependent mechanisms,promote the generation of mature,functional human NK cells from CD34(+) precursors. We show that developing NK cells undergo unique,developmental stage-specific sustained and transient interactions with developmentally supportive stromal cells,and that the relative motility of NK cells increases as they move through development in vitro and ex vivo. These interactions include the formation of a synapse between developing NK cells and stromal cells,which we term the developmental synapse. Finally,we identify a role for CD56 in developmental synapse structure,NK cell motility and NK cell development. Thus,we define the developmental synapse leading to human NK cell functional maturation. View Publication

The cell-surface straight and branched repeats of N-acetyllactosamine (LacNAc) units,called poly-LacNAc chains,characterize the histo-blood group i and I antigens,respectively. The transition of straight to branched poly-LacNAc chain (i to I) is determined by the I locus,which expresses 3 IGnT transcripts,IGnTA,IGnTB,and IGnTC. Our previous investigation demonstrated that the i-to-I transition in erythroid differentiation is regulated by the transcription factor CCAAT/enhancer binding protein alpha (C/EBPalpha). In the present investigation,the K-562 cell line was used as a model to show that the i-to-I transition is determined by the phosphorylation status of the C/EBPalpha Ser-21 residue,with dephosphorylated C/EBPalpha Ser-21 stimulating the transcription of the IGnTC gene,consequently resulting in I branching. Results from studies using adult erythropoietic and granulopoietic progenitor cells agreed with those derived using the K-562 cell model,with lentiviral expression of C/EBPalpha in CD34(+) hematopoietic cells demonstrating that the dephosphorylated form of C/EBPalpha Ser-21 induced the expression of I antigen,granulocytic CD15,and also erythroid CD71 antigens. Taken together,these results demonstrate that the regulation of poly-LacNAc branching (I antigen) formation in erythropoiesis and granulopoiesis share a common mechanism,with dephosphorylation of the Ser-21 residue on C/EBPalpha playing the critical role. View Publication

BACKGROUND The Activin A and bone morphogenetic protein (BMP) pathways are critical regulators of the immune system and of bone formation. Inappropriate activation of these pathways,as in conditions of congenital heterotopic ossification,are thought to activate an osteogenic program in endothelial cells. However,if and how this occurs in human endothelial cells remains unclear. METHODS We used a new directed differentiation protocol to create human induced pluripotent stem cell (hiPSC)-derived endothelial cells (iECs) from patients with fibrodysplasia ossificans progressiva (FOP),a congenital disease of heterotopic ossification caused by an activating R206H mutation in the Activin A type I receptor (ACVR1). This strategy allowed the direct assay of the cell-autonomous effects of ACVR1 R206H in the endogenous locus without the use of transgenic expression. These cells were challenged with BMP or Activin A ligand,and tested for their ability to activate osteogenesis,extracellular matrix production,and differential downstream signaling in the BMP/Activin A pathways. RESULTS We found that FOP iECs could form in conditions with low or absent BMP4. These conditions are not normally permissive in control cells. FOP iECs cultured in mineralization media showed increased alkaline phosphatase staining,suggesting formation of immature osteoblasts,but failed to show mature osteoblastic features. However,FOP iECs expressed more fibroblastic genes and Collagen 1/2 compared to control iECs,suggesting a mechanism for the tissue fibrosis seen in early heterotopic lesions. Finally,FOP iECs showed increased SMAD1/5/8 signaling upon BMP4 stimulation. Contrary to FOP hiPSCs,FOP iECs did not show a significant increase in SMAD1/5/8 phosphorylation upon Activin A stimulation,suggesting that the ACVR1 R206H mutation has a cell type-specific effect. In addition,we found that the expression of ACVR1 and type II receptors were different in hiPSCs and iECs,which could explain the cell type-specific SMAD signaling. CONCLUSIONS Our results suggest that the ACVR1 R206H mutation may not directly increase the formation of mature chondrogenic or osteogenic cells by FOP iECs. Our results also show that BMP can induce endothelial cell dysfunction,increase expression of fibrogenic matrix proteins,and cause differential downstream signaling of the ACVR1 R206H mutation. This iPSC model provides new insight into how human endothelial cells may contribute to the pathogenesis of heterotopic ossification. View Publication

Reaction with peroxynitrite at pH 7.4 and 37 degrees C was found to increase the 8-oxodeoxyguanosine levels in calf thymus DNA 35- 38-fold. This oxidation of deoxyguanosine,as well as the peroxynitrite-mediated nitration of tyrosine to 3-nitrotyrosine,was significantly inhibited by ascorbic acid,glutathione and (-)-epigallocatechin gallate,a polyphenolic antioxidant present in tea. For 50% inhibition of the oxidation of deoxyguanosine to 8-oxodeoxyguanosine,1.1,7.6 or 0.25 mM ascorbate,glutathione or (-)-epigallocatechin gallate,respectively,was required. For 50% inhibition of tyrosine nitration,the respective concentrations were 1.4,4.6 or 0.11 mM. Thus,(-)-epigallocatechin gallate is a significantly better inhibitor of both reactions than either ascorbate or glutathione. Reaction of (-)-epigallocatechin gallate with peroxynitrite alone resulted in the formation of a number of products. Ultraviolet spectra of two of these suggest that the tea polyphenol and/or its oxidation products are nitrated by peroxynitrite. View Publication

BACKGROUND Cytotoxic T lymphocyte antigen-4 (CTLA-4) limits T-cell activation and is expressed on T-regulatory cells. Human CTLA-4 deficiency results in severe immune dysregulation. Abatacept (CTLA-4 Ig) is approved for the treatment of rheumatoid arthritis (RA) and its mechanism of action is attributed to effects on T-cells. It is known that CTLA-4 modulates the expression of its ligands CD80 and CD86 on antigen presenting cells (APC) by transendocytosis. As B-cells express CD80/CD86 and function as APC,we hypothesize that B-cells are a direct target of abatacept. OBJECTIVES To investigate direct effects of abatacept on human B-lymphocytes in vitro and in RA patients. METHODS The effect of abatacept on healthy donor B-cells' phenotype,activation and CD80/CD86 expression was studied in vitro. Nine abatacept-treated RA patients were studied. Seven of these were followed up to 24 months,and two up to 12 months only and treatment response,immunoglobulins,ACPA,RF concentrations,B-cell phenotype and ACPA-specific switched memory B-cell frequency were assessed. RESULTS B-cell development was unaffected by abatacept. Abatacept treatment resulted in a dose-dependent decrease of CD80/CD86 expression on B-cells in vitro,which was due to dynamin-dependent internalization. RA patients treated with abatacept showed a progressive decrease in plasmablasts and serum IgG. While ACPA-titers only moderately declined,the frequency of ACPA-specific switched memory B-cells significantly decreased. CONCLUSIONS Abatacept directly targets B-cells by reducing CD80/CD86 expression. Impairment of antigen presentation and T-cell activation may result in altered B-cell selection,providing a new therapeutic mechanism and a base for abatacept use in B-cell mediated autoimmunity. View Publication

Protein modification by small ubiquitin-related modifier proteins (SUMOs) controls diverse cellular functions. Dysregulation of SUMOylation or deSUMOylation processes has been implicated in the development of cancer and neurodegenerative diseases. However,no small-molecule inhibiting protein SUMOylation has been reported so far. Here,we report inhibition of SUMOylation by ginkgolic acid and its analog,anacardic acid. Ginkgolic acid and anacardic acid inhibit protein SUMOylation both in vitro and in vivo without affecting in vivo ubiquitination. Binding assays with a fluorescently labeled probe showed that ginkgolic acid directly binds E1 and inhibits the formation of the E1-SUMO intermediate. These studies will provide not only a useful tool for investigating the roles of SUMO conjugations in a variety of pathways in cells,but also a basis for the development of drugs targeted against diseases involving aberrant SUMOylation. View Publication

The nonreceptor tyrosine kinase c-Src is frequently over-expressed or hyperactivated in various human cancers and contributes to cancer progression in cooperation with up-regulated growth factor receptors. However,Src-selective anticancer drugs are still in clinical trials. To identify more effective inhibitors of c-Src-mediated cancer progression,we developed a new screening platform using Csk-deficient cells that can be transformed by c-Src. We found that purvalanol A,developed as a CDK inhibitor,potently suppressed the anchorage-independent growth of c-Src-transformed cells,indicating that the activation of CDKs contributes to the c-Src transformation. We also found that purvalanol A suppressed the c-Src activity as effectively as the Src-selective inhibitor PP2,and that it reverted the transformed morphology to a nearly normal shape with less cytotoxicity than PP2. Purvalanol A induced a strong G2-M arrest,whereas PP2 weakly acted on the G1-S transition. Furthermore,when compared with PP2,purvalanol A more effectively suppressed the growth of human colon cancer HT29 and SW480 cells,in which Src family kinases and CDKs are activated. These findings demonstrate that the coordinated inhibition of cell cycle progression and tyrosine kinase signaling by the multi-selective purvalanol A is effective in suppressing cancer progression associated with c-Src up-regulation. View Publication

Neurogenesis decreases during aging and following cranial radiotherapy,causing a progressive cognitive decline that is currently untreatable. However,functional neural stem cells remained present in the subventricular zone of high dose-irradiated and aged mouse brains. We therefore investigated whether alterations in the neurogenic niches are perhaps responsible for the neurogenesis decline. This hypothesis was supported by the absence of proliferation of neural stem cells that were engrafted into the vascular niches of irradiated host brains. Moreover,we observed a marked increase in TGF-β1 production by endothelial cells in the stem cell niche in both middle-aged and irradiated mice. In co-cultures,irradiated brain endothelial cells induced the apoptosis of neural stem/progenitor cells via TGF-β/Smad3 signalling. Strikingly,the blockade of TGF-β signalling in vivo using a neutralizing antibody or the selective inhibitor SB-505124 significantly improved neurogenesis in aged and irradiated mice,prevented apoptosis and increased the proliferation of neural stem/progenitor cells. These findings suggest that anti-TGF-β-based therapy may be used for future interventions to prevent neurogenic collapse following radiotherapy or during aging. View Publication

The classification of breast cancer into multiple molecular subtypes has necessitated the need for biomarkers that can assess tumor progression and the effects of chemopreventive agents on specific breast cancer subtypes. The goal of this study was to identify biomarkers whose expression are altered along with estrogen receptor α (ERα) in the polyoma middle-T antigen (PyMT) transgenic model of breast cancer and to investigate the chemopreventive activity of phenethyl isothiocyanate (PEITC). The diet of PyMT female mice was fortified with PEITC (8 mmol/kg) and the mammary streak and/or gross tumors and metastases in lungs were subjected to immunohistochemical analyses for ERα,FOXA1,and GATA-3. FOXA1 is associated with luminal type A cancers,while GATA-3 is a marker of luminal progenitor cell differentiation. In both control and PEITC-treated groups,there was a progressive loss of ERα and FOXA1 but persistence of GATA-3 expression indicating that the tumors retain luminal phenotype. Overall,the PyMT induced tumors exhibited the entire gamut of phenotypes from ERα+/FOXA1+/GATA-3+ tumors in the early stage to ERα±/FOXA1-/GATA-3+ in the late stage. Thus,PyMT model serves as an excellent model for studying progression of luminal subtype tumors. PEITC treated animals had multiple small tumors,indicating delay in tumor progression. Although these tumors were histologically similar to those in controls,there was a lower expression of these biomarkers in normal luminal cells indicating delay in tumor initiation. In in vitro studies,PEITC depleted AldeFluor-positive putative stem/progenitor cells,which may partly be responsible for the delay in tumor initiation. View Publication

IL-33,a new member of the IL-1 family,has been described as an important inducer of Th2 cytokines and mediator of inflammatory responses. In this study,we demonstrate that murine basophils sorted directly from the bone marrow,without prior exposure to IL-3 or Fc(epsilon)R cross-linking,respond to IL-33 alone by producing substantial amounts of histamine,IL-4,and IL-6. These cells express ST2 constitutively and generate a cytokine profile that differs from their IL-3-induced counterpart by a preferential production of IL-6. In vivo,IL-33 promotes basophil expansion in the bone marrow (BM) through an indirect mechanism of action depending on signaling through the beta(c) chain shared by receptors for IL-3,GM-CSF,and IL-5. IL-3 can still signal through its specific beta(IL-3) chain in these mutant mice,which implies that it is not the unique growth-promoting mediator in this setup,but requires IL-5 and/or GMCSF. Our results support a major role of the latter growth factor,which is readily generated by total BM cells as well as sorted basophils in response to IL-33 along with low amounts of IL-3. Furthermore,GM-CSF amplifies IL-3-induced differentiation of basophils from BM cells,whereas IL-5 that is also generated in vivo,affects neither their functions nor their growth in vitro or in vivo. In conclusion,our data provide the first evidence that IL-33 not only activates unprimed basophils directly,but also promotes their expansion in vivo through induction of GM-CSF and IL-3. View Publication

In the present investigation,we studied the modulating effects of several tea catechins and bioflavonoids on DNA methylation catalyzed by prokaryotic SssI DNA methyltransferase (DNMT) and human DNMT1. We found that each of the tea polyphenols [catechin,epicatechin,and (-)-epigallocatechin-3-O-gallate (EGCG)] and bioflavonoids (quercetin,fisetin,and myricetin) inhibited SssI DNMT- and DNMT1-mediated DNA methylation in a concentration-dependent manner. The IC(50) values for catechin,epicatechin,and various flavonoids ranged from 1.0 to 8.4 microM,but EGCG was a more potent inhibitor,with IC(50) values ranging from 0.21 to 0.47 microM. When epicatechin was used as a model inhibitor,kinetic analyses showed that this catechol-containing dietary polyphenol inhibited enzymatic DNA methylation in vitro largely by increasing the formation of S-adenosyl-L-homocysteine (a potent noncompetitive inhibitor of DNMTs) during the catechol-O-methyltransferase-mediated O-methylation of this dietary catechol. In comparison,the strong inhibitory effect of EGCG on DNMT-mediated DNA methylation was independent of its own methylation and was largely due to its direct inhibition of the DNMTs. This inhibition is strongly enhanced by Mg(2+). Computational modeling studies showed that the gallic acid moiety of EGCG plays a crucial role in its high-affinity,direct inhibitory interaction with the catalytic site of the human DNMT1,and its binding with the enzyme is stabilized by Mg(2+). The modeling data on the precise molecular mode of EGCG's inhibitory interaction with human DNMT1 agrees perfectly with our experimental finding. View Publication