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

The biological effects of low-dose ionizing radiation (LDIR) exposure in humans are not comprehensively understood,generating a high degree of controversy in published literature. The earliest stages of human development are known to be among the most sensitive to stress exposures,especially genotoxic stresses. However,the risks stemming from exposure to LDIR,particularly within the clinical diagnostic relevant dose range,have not been directly evaluated in human embryonic stem cells (hESCs). Here,we describe the dynamics of the whole genome transcriptional responses of different hESC lines to both LDIR and,as a reference,high-dose IR (HDIR). We found that even doses as low as 0.05 Gy could trigger statistically significant transient changes in a rather limited subset of genes in all hESCs lines examined. Gene expression signatures of hESCs exposed to IR appear to be highly dose-,time-,and cell line-dependent. We identified 50 genes constituting consensus gene expression signature as an early response to HDIR across all lines of hESC examined. We observed substantial differences in biological pathways affected by either LDIR or HDIR in hESCs,suggesting that the molecular mechanisms underpinning the responses of hESC may fundamentally differ depending on radiation doses. View Publication

Because video data are complex and are comprised of many images,mining information from video material is difficult to do without the aid of computer software. Video bioinformatics is a powerful quantitative approach for extracting spatio-temporal data from video images using computer software to perform dating mining and analysis. In this article,we introduce a video bioinformatics method for quantifying the growth of human embryonic stem cells (hESC) by analyzing time-lapse videos collected in a Nikon BioStation CT incubator equipped with a camera for video imaging. In our experiments,hESC colonies that were attached to Matrigel were filmed for 48 hours in the BioStation CT. To determine the rate of growth of these colonies,recipes were developed using CL-Quant software which enables users to extract various types of data from video images. To accurately evaluate colony growth,three recipes were created. The first segmented the image into the colony and background,the second enhanced the image to define colonies throughout the video sequence accurately,and the third measured the number of pixels in the colony over time. The three recipes were run in sequence on video data collected in a BioStation CT to analyze the rate of growth of individual hESC colonies over 48 hours. To verify the truthfulness of the CL-Quant recipes,the same data were analyzed manually using Adobe Photoshop software. When the data obtained using the CL-Quant recipes and Photoshop were compared,results were virtually identical,indicating the CL-Quant recipes were truthful. The method described here could be applied to any video data to measure growth rates of hESC or other cells that grow in colonies. In addition,other video bioinformatics recipes can be developed in the future for other cell processes such as migration,apoptosis,and cell adhesion. View Publication

The pathogenesis of malarial anemia is multifactorial,and the mechanisms responsible for its high mortality are poorly understood. Studies indicate that host mediators produced during malaria infection may suppress erythroid progenitor development (Miller,K.L.,J.C. Schooley,K.L. Smith,B. Kullgren,L.J. Mahlmann,and P.H. Silverman. 1989. Exp. Hematol. 17:379-385; Yap,G.S.,and M.M. Stevenson. 1991. Ann. NY Acad. Sci. 628:279-281). We describe an intrinsic role for macrophage migration inhibitory factor (MIF) in the development of the anemic complications and bone marrow suppression that are associated with malaria infection. At concentrations found in the circulation of malaria-infected patients,MIF suppressed erythropoietin-dependent erythroid colony formation. MIF synergized with tumor necrosis factor and gamma interferon,which are known antagonists of hematopoiesis,even when these cytokines were present in subinhibitory concentrations. MIF inhibited erythroid differentiation and hemoglobin production,and it antagonized the pattern of mitogen-activated protein kinase phosphorylation that normally occurs during erythroid progenitor differentiation. Infection of MIF knockout mice with Plasmodium chabaudi resulted in less severe anemia,improved erythroid progenitor development,and increased survival compared with wild-type controls. We also found that human mononuclear cells carrying highly expressed MIF alleles produced more MIF when stimulated with the malarial product hemozoin compared with cells carrying low expression MIF alleles. These data suggest that polymorphisms at the MIF locus may influence the levels of MIF produced in the innate response to malaria infection and the likelihood of anemic complications. View Publication

SUMMARY Resident cardiac macrophages are critical mediators of cardiac function. Despite their known importance to cardiac electrophysiology and tissue maintenance,there are currently no stem-cell-derived models of human engineered cardiac tissues (hECTs) that include resident macrophages. In this study,we made an induced pluripotent stem cell (iPSC)-derived hECT model with a resident population of macrophages (iM0) to better recapitulate the native myocardium and characterized their impact on tissue function. Macrophage retention within the hECTs was confirmed via immunofluorescence after 28 days of cultivation. The inclusion of iM0s significantly impacted hECT function,increasing contractile force production. A potential mechanism underlying these changes was revealed by the interrogation of calcium signaling,which demonstrated the modulation of ?-adrenergic signaling in +iM0 hECTs. Collectively,these findings demonstrate that macrophages significantly enhance cardiac function in iPSC-derived hECT models,emphasizing the need to further explore their contributions not only in healthy hECT models but also in the contexts of disease and injury. In brief Lock and Graney et al. develop a human engineered cardiac tissue with an incorporated iPSC-derived macrophage population to better mimic the complex cell landscape of the native myocardium. Macrophage inclusion leads to increased contractile function of the tissue,which is attributed to macrophage stimulation of the cardiomyocyte ?-adrenergic signaling pathway. Graphical Abstract View Publication

MicroRNAs (miRNAs) are a newly discovered endogenous class of small noncoding RNAs that play important posttranscriptional regulatory roles by targeting mRNAs for cleavage or translational repression. Accumulating evidence now supports the importance of miRNAs for human embryonic stem cell (hESC) self-renewal,pluripotency,and differentiation. However,with respect to induced pluripotent stem cells (iPSC),in which embryonic-like cells are reprogrammed from adult cells using defined factors,the role of miRNAs during reprogramming has not been well-characterized. Determining the miRNAs that are associated with reprogramming should yield significant insight into the specific miRNA expression patterns that are required for pluripotency. To address this lack of knowledge,we use miRNA microarrays to compare the microRNA-omes" of human iPSCs� View Publication

Dendritic cells (DCs) act as a portal for invasion by human immunodeficiency virus type-1 (HIV-1). Here,we investigated whether virion-incorporated host cell membrane proteins can affect virus replication in DC-T-cell cocultures. Using isogenic viruses either devoid of or bearing host-derived leukocyte function-associated antigen 1 (LFA-1),we showed that HIV-1 production is augmented when LFA-1-bearing virions are used compared to that for viral entities lacking this adhesion molecule. This phenomenon was observed in immature monocyte-derived DCs (IM-MDDCs) only and not in DCs displaying a mature phenotype. The increase is not due to higher virus production in responder CD4(+) T cells but rather is linked with a more important productive infection of IM-MDDCs. We provided evidence that virus-associated host LFA-1 molecules do not affect a late event in the HIV-1 life cycle but rather exert an effect on an early step in virus replication. We demonstrated that the enhancement of productive infection of IM-MDDCs that is conferred by virus-anchored host LFA-1 involves the protein kinase A (PKA) and PKC signal transduction pathways. The biological significance of this phenomenon was established by performing experiments with virus stocks produced in primary human cells and anti-LFA-1 antibodies. Together,our results indicate that the association between some virus-bound host proteins and their natural cognate ligands can modulate de novo HIV-1 production by IM-MDDCs. Therefore,the additional interactions between virus-bound host cell membrane constituents and counter receptors on the surfaces of DCs can influence HIV-1 replication in IM-MDDC-T-cell cocultures. View Publication

Age-related macular degeneration (AMD) is one of the major causes of blindness in aging population that progresses with death of retinal pigment epithelium (RPE) and photoreceptor degeneration inducing impairment of central vision. Discovery of human induced pluripotent stem (hiPS) cells has opened new avenues for the treatment of degenerative diseases using patient-specific stem cells to generate tissues and cells for autologous cell-based therapy. Recently,RPE cells were generated from hiPS cells. However,there is no evidence that those hiPS-derived RPE possess specific RPE functions that fully distinguish them from other types of cells. Here,we show for the first time that RPE generated from hiPS cells under defined conditions exhibit ion transport,membrane potential,polarized vascular endothelial growth factor secretion,and gene expression profile similar to those of native RPE. The hiPS-RPE could therefore be a very good candidate for RPE replacement therapy in AMD. However,these cells show rapid telomere shortening,DNA chromosomal damage,and increased p21 expression that cause cell growth arrest. This rapid senescence might affect the survival of the transplanted cells in vivo and therefore,only the very early passages should be used for regeneration therapies. Future research needs to focus on the generation of safe" as well as viable hiPS-derived somatic cells." View Publication

Alzheimer’s disease (AD) is a devastating neurodegenerative disorder,with no effective treatment currently available. Recently,non-pharmacological therapy,especially gamma frequency stimulation has shown promising therapeutic effects in Alzheimer’s disease (AD) mouse models. Electric field (EF) is a non-invasive biophysical approach for neuronal protection. However,whether EF is beneficial in AD neuropathology remains unknown. In this study,we exposed the P301S tauopathy mouse model to EF at gamma frequency on the head. We demonstrated that EF treatment significantly improved the cognitive impairments in the P301S mice. This was accompanied by reduced tau pathologies,suppressed microglial activation,neuroinflammation and oxidative stress in the tauopathy mouse brain. Moreover,EF treatment induced cell-specific responses in neural cells,with neurons being more susceptible,followed by microglia and oligodendrocytes. EF also had favorable effects on synaptic protein in neurons,inflammatory response and complement signaling in microglia,and myelination in oligodendrocytes. This study provides strong evidence that EF at gamma frequency may have great potential to be a novel therapeutic intervention for P301S by attenuating neuropathology and offering neuroprotection.Supplementary InformationThe online version contains supplementary material available at 10.1186/s13195-025-01859-8. View Publication