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

Zika virus is a mosquito-borne flavivirus closely related to dengue virus that can cause severe disease in humans,including microcephaly in newborns and Guillain-Barr{\'{e}} syndrome in adults. Specific treatments and vaccines for Zika virus are not currently available. Here,we isolate and characterize four monoclonal antibodies (mAbs) from an infected patient that target the non-structural protein NS1. We show that while these antibodies are non-neutralizing,NS1-specific mAbs can engage Fc$\gamma$R without inducing antibody dependent enhancement (ADE) of infection in vitro. Moreover,we demonstrate that mAb AA12 has protective efficacy against lethal challenges of African and Asian lineage strains of Zika virus in Stat2-/- mice. Protection is Fc-dependent,as a mutated antibody unable to activate known Fc effector functions or complement is not protective in vivo. This study highlights the importance of the ZIKV NS1 protein as a potential vaccine antigen. View Publication

The mechanisms that control the inflammatory-immune response play a key role in tissue remodelling in cardiovascular diseases. T cell activation receptor CD69 binds to oxidized low-density lipoprotein (oxLDL),inducing the expression of anti-inflammatory NR4A nuclear receptors and modulating inflammation in atherosclerosis. To understand the downstream T cell responses triggered by the CD69-oxLDL binding,we incubated CD69-expressing Jurkat T cells with oxLDL. RNA sequencing revealed a differential gene expression profile dependent on the presence of CD69 and the degree of LDL oxidation. CD69-oxLDL binding induced the expression of NR4A receptors (NR4A1 and NR4A3),but also of PD-1. These results were confirmed using oxLDL and a monoclonal antibody against CD69 in CD69-expressing Jurkat and primary CD4??+??lymphocytes. CD69-mediated induction of PD-1 and NR4A3 was dependent on NFAT activation. Silencing NR4A3 slightly increased PD-1 levels,suggesting a potential regulation of PD-1 by this receptor. Moreover,expression of PD-1,CD69 and NR4A3 was increased in human arteries with chronic inflammation compared to healthy controls,with a strong correlation between PD-1 and CD69 mRNA expression (r??=??0.655 P?? View Publication

The cyclic GMP-AMP synthase (cGAS)/stimulator of interferon genes (STING) pathway is a cytosolic sensor of microbial and host-derived DNA and plays a key role in innate immunity. Activation of STING by cyclic dinucleotide (CDN) ligands in human monocytes induces a type I interferon response and production of pro-inflammatory cytokines associated with the induction of massive cell death. In this study we have re-evaluated the effect of signal strength of STING activation on the cytokine plasticity of human monocytes. CDN (2'3'c-GAMP) and non-CDN (diABZI,MSA-2) STING ligands in the range of EC50 concentrations (15 $\mu$M 2'3'c-GAMP,100 nM diABZI,25 $\mu$M MSA-2) induced IFN-$\beta$,IP-10,and large amounts of IL-1$\beta$ and TNF-$\alpha$,but no IL-10 or IL-19. Interestingly,LPS-induced production of IL-10 and IL-19 was abolished in the presence of diABZI or MSA-2,whereas IL-1$\beta$ and TNF-$\alpha$ were not inhibited. Surprisingly,we observed that tenfold lower (MSA-2,i.e. 2.5 $\mu$M) or 100-fold lower (diABZI,i.e. 1 nM) concentrations strongly stimulated secretion of anti-inflammatory IL-10 and IL-19,but little of IL-1$\beta$ and TNF-$\alpha$. Induction of IL-10 was associated with up-regulation of PRDM1 (Blimp-1). While cytokine secretion stimulated by the higher concentrations was accompanied by apoptosis as shown by cleavage of caspase-3 and PARP-1,the low concentrations did not trigger overt cell death yet induced cleavage of gasdermin-D. Our results reveal a previously unrecognized plasticity of human monocytes in their signal strength-dependent production of pro- versus anti-inflammatory cytokines upon STING activation. View Publication

Fragile X syndrome (FXS) is a neurodevelopmental disorder caused by hypermethylation of expanded CGG repeats (>200) in the FMR1 gene leading to gene silencing and loss of Fragile X Messenger Ribonucleoprotein (FMRP) expression. FMRP plays important roles in neuronal function,and loss of FMRP in mouse and human FXS cell models leads to aberrant synaptic signaling and hyperexcitability. Multiple drug candidates have advanced into clinical trials for FXS,but no efficacious treatment has been identified to date,possibly as a consequence of poor translation from pre-clinical animal models to human. Here,we use a high resolution all-optical electrophysiology platform applied to multiple FXS patient-derived and CRISPR/Cas9-generated isogenic neuronal cell lines to develop a multi-parametric FXS disease phenotype. This neurophysiological phenotype was optimized and validated into a high throughput assay based on the amount of FMRP re-expression and the number of healthy neurons in a mosaic network necessary for functional rescue. The resulting highly sensitive and multiparameter functional assay can now be applied as a discovery platform to explore new therapeutic approaches for the treatment of FXS. Deep functional characterization of Fragile X syndrome patient and isogenic neurons using all-optical electrophysiology and machine learning identifies a validated,FMR1-dependent cellular phenotype compatible with high throughput drug screening. View Publication

Drug-induced gastrointestinal toxicity (GIT) is a common treatment-emergent adverse event that can negatively impact dosing,thereby limiting efficacy and treatment options for patients. An in vitro assay of GIT is needed to address patient variability,mimic the microphysiology of the gut,and accurately predict drug-induced GIT. Primary human ileal organoids (termed 'enteroids') have proven useful for stimulating intestinal stem cell proliferation and differentiation to multiple cell types present in the gut epithelium. Enteroids have enabled characterization of gut biology and the signaling involved in the pathogenesis of disease. Here,enteroids were differentiated from four healthy human donors and assessed for culture duration-dependent differentiation status by immunostaining for gut epithelial markers lysozyme,chromogranin A,mucin,and sucrase isomaltase. Differentiated enteroids were evaluated with a reference set of 31 drugs exhibiting varying degrees of clinical incidence of diarrhea,a common manifestation of GIT that can be caused by drug-induced thinning of the gut epithelium. An assay examining enteroid viability in response to drug treatment demonstrated 90{\%} accuracy for recapitulating the incidence of drug-induced diarrhea. The human enteroid viability assay developed here presents a promising in vitro model for evaluating drug-induced diarrhea. View Publication

Periodontitis is an irreversible,bacteria-induced,chronic inflammatory disease that compromises the integrity of tooth-supporting tissues and adversely affects systemic health. As the immune system's first line of defense against bacteria,neutrophils use their microbicidal functions in the oral cavity to protect the host against periodontal disease. However,periodontal pathogens have adapted to resist neutrophil microbicidal mechanisms while still propagating inflammation,which provides essential nutrients for the bacteria to proliferate and cause disease. Advances in sequencing technologies have recognized several newly appreciated bacteria associated with periodontal lesions such as the Gram-positive anaerobic rod,Filifactor alocis. With the discovery of these oral bacterial species,there is also a growing need to assess their pathogenic potential and determine their contribution to disease progression. Currently,few studies have addressed the pathogenic mechanisms used by oral bacteria to manipulate the neutrophil functional responses at the level of the transcriptome. Thus,this study aims to characterize the global changes at the gene expression level in human neutrophils during infection with F. alocis. Our results indicate that the challenge of human neutrophils with F. alocis results in the differential expression of genes involved in multiple neutrophil effector functions such as chemotaxis,cytokine and chemokine signaling pathways,and apoptosis. Moreover,F. alocis challenges affected the expression of components from the TNF and MAPK kinase signaling pathways. This resulted in transient,dampened p38 MAPK activation by secondary stimuli TNF$\alpha$ but not by fMLF. Functionally,the F. alocis-mediated inhibition of p38 activation by TNF$\alpha$ resulted in decreased cytokine production but had no effect on the priming of the respiratory burst response or the delay of apoptosis by TNF$\alpha$. Since the modulatory effect was characteristic of viable F. alocis only,we propose this as one of F. alocis' mechanisms to control neutrophils and their functional responses. View Publication

BACKGROUND Plasma cell neoplasms (PCNs) encompass a spectrum of disorders including monoclonal gammopathy of undetermined significance,smoldering myeloma,plasma cell myeloma,and plasma cell leukemia. Molecular subtypes have been defined by recurrent cytogenetic abnormalities and somatic mutations that are prognostic and predictive. Karyotype and fluorescence in situ hybridization (FISH) have historically been used to guide management; however,new technologies and markers raise the need to reassess current testing algorithms. METHODS We convened a panel of representatives from international clinical laboratories to capture current state-of-the-art testing from published reports and to put forward recommendations for cytogenomic testing of plasma cell neoplasms. We reviewed 65 papers applying FISH,chromosomal microarray (CMA),next-generation sequencing,and gene expression profiling for plasma cell neoplasm diagnosis and prognosis. We also performed a survey of our peers to capture current laboratory practice employed outside our working group. RESULTS Plasma cell enrichment is widely used prior to FISH testing,most commonly by magnetic bead selection. A variety of strategies for direct,short- and long-term cell culture are employed to ensure clonal representation for karyotyping. Testing of clinically-informative 1p/1q,del(13q) and del(17p) are common using karyotype,FISH and,increasingly,CMA testing. FISH for a variety of clinically-informative balanced IGH rearrangements is prevalent. Literature review found that CMA analysis can detect abnormalities in 85-100{\%} of patients with PCNs; more specifically,in 5-53{\%} (median 14{\%}) of cases otherwise normal by FISH and cytogenetics. CMA results in plasma cell neoplasms are usually complex,with alteration counts ranging from 1 to 74 (median 10-20),primarily affecting loci not covered by FISH testing. Emerging biomarkers include structural alterations of MYC as well as somatic mutations of KRAS,NRAS,BRAF,and TP53. Together,these may be measured in a comprehensive manner by a combination of newer technologies including CMA and next-generation sequencing (NGS). Our survey suggests most laboratories have,or are soon to have,clinical CMA platforms,with a desire to move to NGS assays in the future. CONCLUSION We present an overview of current practices in plasma cell neoplasm testing as well as an algorithm for integrated FISH and CMA testing to guide treatment of this disease. View Publication

STI571 is a 2-phenylalaminopyrimidine derivative that inhibits c-abl,Bcr-Abl,and platelet-derived growth factor receptor tyrosine kinases. Recently,inhibition of stem cell factor (SCF)-induced c-kit phosphorylation and cell proliferation by STI571 was reported in the human myeloid cell line MO7e. Because approximately 70% of acute myelogenous leukemia (AML) cases are c-kit positive,we evaluated in vitro effects of STI571 on c-kit-positive cell lines and primary AML blast cells. At concentrations textgreater5 microM,the drug marginally inhibited SCF-independent proliferation of cell lines and most of AML blasts. Treatment of AML cells with cytarabine and STI571 showed synergistic effect at low concentrations. Western blotting analysis documented a distinct band of M(r) 145,000 specific for c-kit in cell lines and in AML samples. There was no correlation between the level of the c-kit expression evaluated by Western blotting and percentage of c-kit-positive blasts as measured by flow cytometry. Neither in cell lines nor in primary AML cells,c-kit autophosphorylation was detectable under standard growth conditions. SCF-induced phosphorylation of c-kit in MO7e cells was inhibited by STI571. In a c-kit-positive AML-4 cell line,as well as in AML samples,c-kit phosphorylation was not induced by SCF exposure,suggesting that in these cases,the receptor could not be functionally activated. In conclusion,with the exception of MO7e,SCF did not induce phosphorylation of c-kit,and cell proliferation was not modulated in the presence of STI571. We did not detect any SCF-independent c-kit phosphorylation in our experimental systems. Consequently,STI571 exerted only a limited inhibitory effect on the cell growth. View Publication

BACKGROUND Transplantation of enteric neural stem cells (ENSC) holds promise as a potential therapy for enteric neuropathies,including Hirschsprung disease. Delivery of transplantable cells via laparotomy has been described,but we propose a novel,minimally invasive endoscopic method of cell delivery. METHODS Enteric neural stem cells for transplantation were cultured from dissociated gut of postnatal donor mice. Twelve recipient mice,including Ednrb(-/-) mice with distal colonic aganglionosis,underwent colonoscopic injection of ENSC under direct vision using a 30-gauge Hamilton needle passed through a rigid cystoureteroscope. Cell engraftment,survival,and neuroglial differentiation were studied 1-4 weeks after the procedure. KEY RESULTS All recipient mice tolerated the procedure without complications and survived to sacrifice. Transplanted cells were found within the colonic wall in 9 of 12 recipient mice with differentiation into enteric neurons and glia. CONCLUSIONS & INFERENCES Endoscopic injection of ENSC is a safe and reliable method for cell delivery,and can be used to deliver a large number of cells to a specific area of disease. This minimally invasive endoscopic approach may prove beneficial to future human applications of cell therapy for neurointestinal disease. View Publication

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