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

Induced pluripotent stem cells (iPSCs) were generated from peripheral blood mononuclear cells (PBMCs) isolated from the whole blood of a 43-year-old male with hypertrophic cardiomyopathy (HCM) who carries the pathogenic variant p.Val698Ala in beta-myosin heavy chain (MYH7). Patient-derived PBMCs were reprogrammed using non-integrative episomal vectors containing reprogramming factors OCT4,SOX2,LIN28,KLF4 and L-MYC. iPSCs were shown to express pluripotent markers,have trilineage differentiation potential,carry the pathogenic MYH7 variant p.Val698Ala,have a normal karyotype and no longer carry the episomal reprogramming vector. This line is useful for studying the link between variants in MYH7 and the pathogenesis of HCM. View Publication

Human embryonic stem cell (hESC)-based assay systems and genetically modified hESCs are very useful tools for screening drugs that regulate stemness and differentiation and for studying the molecular mechanisms involved in hESC fate determination. For these types of studies,feeder cell-dependent cultures of hESCs are often problematic because the physiology of the feeder cells is perturbed by the drug treatments or genetic modifications,which potentially obscures research outcomes. In this study,we evaluated three commonly used feeder-free culture conditions to determine whether they supported the undifferentiated growth of hESCs and to determine whether the hESCs grown in these conditions displayed gene expression patterns that were similar to the expression patterns of feeder cell-dependent hESCs. Our results demonstrate that hESCs grown in the three feeder-free conditions expressed undifferentiation marker genes as strongly as hESCs that were grown in the feeder-dependent cultures. Furthermore,genome-wide gene expression profiles indicated that the gene expression patterns of hESCs that were grown under feeder-free or feeder-dependent culture conditions were highly similar. These results indicate that the feeder-free culture conditions support the undifferentiated growth of hESCs as effectively as the feeder-dependent culture conditions. Therefore,feeder-free culture conditions are potentially suitable for drug screening and for the genetic manipulation of hESCs in basic research. View Publication

Epithelial-to-mesenchymal transition (EMT) is strongly associated with cancer progression,but its potential role during premalignant development has not been studied. Here,we show that a 4-week exposure of immortalized human bronchial epithelial cells (HBEC) to tobacco carcinogens can induce a persistent,irreversible,and multifaceted dedifferentiation program marked by EMT and the emergence of stem cell-like properties. EMT induction was epigenetically driven,initially by chromatin remodeling through H3K27me3 enrichment and later by ensuing DNA methylation to sustain silencing of tumor-suppressive microRNAs (miRNA),miR-200b,miR-200c,and miR-205,which were implicated in the dedifferentiation program in HBECs and also in primary lung tumors. Carcinogen-treated HBECs acquired stem cell-like features characterized by their ability to form spheroids with branching tubules and enrichment of the CD44(high)/CD24(low),CD133,and ALDH1 stem cell-like markers. miRNA overexpression studies indicated that regulation of the EMT,stem-like,and transformed phenotypes in HBECs were distinct events. Our findings extend present concepts of how EMT participates in cancer pathophysiology by showing that EMT induction can participate in cancer initiation to promote the clonal expansion of premalignant lung epithelial cells. View Publication

Glucocorticoids (GCs) play an important role in controlling acute graft-versus-host disease (aGvHD),a frequent complication of allogeneic hematopoietic stem cell transplantation. The anti-inflammatory activity of GCs is mainly ascribed to the modulation of T cells and macrophages,for which reason a genetically induced GC resistance of either of these cell types causes aggravated aGvHD. Since only a few genes are currently known that are differentially regulated under these conditions,we analyzed the expression of 54 candidate genes in the inflamed small intestine of mice suffering from aGvHD when either allogeneic T cells or host myeloid cells were GC resistant using a microfluidic dynamic array platform for high-throughput quantitative PCR. The majority of genes categorized as cytokines (e.g. Il2,Il6),chemokines (e.g. Ccl2,Cxcl1),cell surface receptors (e.g. Fasl,Ctla4) and intracellular molecules (e.g. Dusp1,Arg1) were upregulated in mice transplanted with GC resistant allogeneic T cells. Moreover,the expression of several genes linked to energy metabolism (e.g. Glut1) was altered. Surprisingly,mice harboring GC resistant myeloid cells showed almost no changes in gene expression despite their fatal disease course after aGvHD induction. To identify additional genes in the inflamed small intestine that were affected by a GC resistance of allogeneic T cells,we performed an RNAseq analysis,which uncovered more than 500 differentially expressed transcripts (e.g. Cxcr6,Glut3,Otc,Aoc1,Il1r1,Sphk1) that were enriched for biological processes associated with inflammation and tissue disassembly. The changes in gene expression could be confirmed during full-blown disease but hardly any of them in the preclinical phase using high-throughput quantitative PCR. Further analysis of some of these genes revealed a highly selective expression pattern in T cells,intestinal epithelial cells and macrophages,which correlated with their regulation during disease progression. Collectively,we identified an altered gene expression profile caused by GC resistance of transplanted allogeneic T cells,which could help to define new targets for aGvHD therapy. View Publication

Background: Differences in DNA methylation have been reported in B and T lymphocyte populations,including CD4+ T cells,isolated from rheumatoid arthritis (RA) patients when compared to healthy controls. CD4+ T cells are a heterogeneous cell type with subpopulations displaying distinct DNA methylation patterns. In this study,we investigated DNA methylation using reduced representation bisulfite sequencing in two CD4+ T cell populations (CD4+ memory and na{\{i}}ve cells) in three groups: newly diagnosed disease modifying antirheumatic drugs (DMARD) na{\"{i}}ve RA patients (N = 11) methotrexate (MTX) treated RA patients (N = 18) and healthy controls (N = 9) matched for age gender and smoking status. Results: Analyses of these data revealed significantly more differentially methylated positions (DMPs) in CD4+ memory than in CD4+ na{\""{i}}ve T cells (904 vs. 19 DMPs) in RA patients compared to controls. The majority of DMPs (72{\%}) identified in newly diagnosed and DMARD na{\""{i}}ve RA patients with active disease showed increased DNA methylation (39 DMPs) whereas most DMPs (80{\%}) identified in the MTX treated RA patients in remission displayed decreased DNA methylation (694 DMPs). Interestingly we also found that about one third of the 101 known RA risk loci overlapped (±500 kb) with the DMPs. Notably introns of the UBASH3A gene harbor both the lead RA risk SNP and two DMPs in CD4+ memory T cells. Conclusion: Our results suggest that RA associated DNA methylation differences vary between the two T cell subsets but are also influenced by RA characteristics such as disease activity disease duration and/or MTX treatment.""" View Publication

The presence of T regulatory (Treg) cells in the tumor microenvironment is associated with poor prognosis and resistance to therapies aimed at reactivating anti-tumor immune responses. Therefore,depletion of tumor-infiltrating Tregs is a potential approach to overcome resistance to immunotherapy. However,identifying Treg-specific targets to drive such selective depletion is challenging. CCR8 has recently emerged as one of these potential targets. Here,we describe GS-1811,a novel therapeutic monoclonal antibody that specifically binds to human CCR8 and is designed to selectively deplete tumor-infiltrating Tregs. We validate previous findings showing restricted expression of CCR8 on tumor Tregs,and precisely quantify CCR8 receptor densities on tumor and normal tissue T cell subsets,demonstrating a window for selective depletion of Tregs in the tumor. Importantly,we show that GS-1811 depleting activity is limited to cells expressing CCR8 at levels comparable to tumor-infiltrating Tregs. Targeting CCR8 in mouse tumor models results in robust anti-tumor efficacy,which is dependent on Treg depleting activity,and synergizes with PD-1 inhibition to promote anti-tumor responses in PD-1 resistant models. Our data support clinical development of GS-1811 to target CCR8 in cancer and drive tumor Treg depletion in order to promote anti-tumor immunity. View Publication

BackgroundStem-cell-derived therapy is a promising option for tissue regeneration. Human iPSC-derived progenitors of smooth muscle cells (pSMCs) exhibit limited proliferation and differentiation,which minimizes the risk of tumor formation while restoring smooth muscle cells (SMCs). Up to 29% of women suffer from recurrence of vaginal prolapse after prolapse surgery. Therefore,there is a need for therapies that can restore vaginal function. SMCs contribute to vaginal tone and contractility. We sought to examine whether human pSMCs can restore vaginal function in a rat model.MethodsFemale immunocompromised RNU rats were divided into 5 groups: intact controls (n?=?12),VSHAM (surgery?+?saline injection,n?=?35),and three cell-injection groups (surgery?+?cell injection using pSMCs from three patients,n?=?14/cell line). The surgery to induce vaginal injury was analogous to prolapse surgery. Menopause was induced by surgical ovariectomy. The vagina,urethra,bladder were harvested 10 weeks after surgery (5 weeks after cell injection). Organ bath myography was performed to evaluate the contractile function of the vagina,and smooth muscle thickness was examined by tissue immunohistochemistry. Collagen I,collagen III,and elastin mRNA and protein expressions in tissues were assessed.ResultsVaginal smooth muscle contractions induced by carbachol and KCl in the cell-injection groups were significantly greater than those in the VSHAM group. Collagen I protein expression in the vagina of the cell-injections groups was significantly higher than in the VSHAM group. Vaginal elastin protein expression was similar between the cell-injection and VSHAM groups. In the urethra,gene expression levels of collagen I,III,and elastin were all significantly greater in the cell-injection groups than in the VSHAM group. Collagen I,III,and elastin protein expression of the urethra did not show a consistent trend between cell-injection groups and the VSHAM group.ConclusionsHuman iPSC-derived pSMCs transplantation appears to be associated with improved contractile function of the surgically injured vagina in a rat model. This is accompanied by changes in extracellular protein expression the vagina and urethra. These observations support further efforts in the translation of pSMCs into a treatment for regenerating the surgically injured vagina in women who suffer recurrent prolapse after surgery.Supplementary InformationThe online version contains supplementary material available at 10.1186/s13287-024-03900-3. View Publication

Tumor angiogenesis is essential for malignant growth and metastasis. Bone marrow (BM)-derived endothelial progenitor cells (EPC) contribute to angiogenesis-mediated tumor growth. EPC ablation can reduce tumor growth; however,the lack of a marker that can track EPCs from the BM to tumor neovasculature has impeded progress in understanding the molecular mechanisms underlying EPC biology. Here,we report the use of transgenic mouse and lentiviral models to monitor the BM-derived compartment of the tumor stroma; this approach exploits the selectivity of the transcription factor inhibitor of DNA binding 1 (Id1) for EPCs to track EPCs in the BM,blood,and tumor stroma,as well as mature EPCs. Acute ablation of BM-derived EPCs using Id1-directed delivery of a suicide gene reduced circulating EPCs and yielded significant defects in angiogenesis-mediated tumor growth. Additionally,use of the Id1 proximal promoter to express microRNA-30-based short hairpin RNA inhibited the expression of critical EPC-intrinsic factors,confirming that signaling through vascular endothelial growth factor receptor 2 is required for EPC-mediated tumor biology. By exploiting the selectivity of Id1 gene expression in EPCs,our results establish a strategy to track and target EPCs in vivo,clarifying the significant role that EPCs play in BM-mediated tumor angiogenesis. View Publication

Ectopic expression of CAAT/enhancer binding protein α (C/EBPα) in p210BCR/ABL-expressing cells induces granulocytic differentiation,inhibits proliferation,and suppresses leukemogenesis. To dissect the molecular mechanisms underlying these biological effects,C/EBPα-regulated genes were identified by microarray analysis in 32D-p210BCR/ABL cells. One of the genes whose expression was activated by C/EBPα in a DNA binding-dependent manner in BCR/ABL-expressing cells is the transcriptional repressor Gfi-1. We show here that C/EBPα interacts with a functional C/EBP binding site in the Gfi-1 5'-flanking region and enhances the promoter activity of Gfi-1. Moreover,in K562 cells,RNA interference-mediated downregulation of Gfi-1 expression partially rescued the proliferation-inhibitory but not the differentiation-inducing effect of C/EBPα. Ectopic expression of wild-type Gfi-1,but not of a transcriptional repressor mutant (Gfi-1P2A),inhibited proliferation and markedly suppressed colony formation but did not induce granulocytic differentiation of BCR/ABL-expressing cells. By contrast,Gfi-1 short hairpin RNA-tranduced CD34(+) chronic myeloid leukemia cells were markedly more clonogenic than the scramble-transduced counterpart. Together,these studies indicate that Gfi-1 is a direct target of C/EBPα required for its proliferation and survival-inhibitory effects in BCR/ABL-expressing cells. View Publication

We have compared the transcriptomic profiles of human induced pluripotent stem cells after their differentiation in hepatocytes like cells in plates and microfluidic biochips. The biochips provided a 3D and dynamic support during the cell differentiation when compared to the 2D static cultures in plates. The microarray have demonstrated the up regulation of important pathway related to liver development and maturation during the culture in biochips. Furthermore,the results of the transcriptomic profile,coupled with immunostaining,and RTqPCR analysis have shown typical biomarkers illustrating the presence of responders of biliary like cells,hepatocytes like cells,and endothelial like cells. However,the overall tissue still presented characteristic of immature and foetal patterns. Nevertheless,the biochip culture provided a specific micro-environment in which a complex multicellular differentiation toward liver could be oriented. View Publication

Individually,transforming growth factor beta (TGF beta) and 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) alter the growth and differentiation of normal and transformed osteoblast-like (OB) cells. Although recent evidence suggests interactions between TGF beta and 1,25(OH)2D3 may occur,little is known of the individual or combined effects of these hormones on the expression of the osteoblast phenotype at the cytochemical and biochemical levels in normal human OB (hOB) cells. Primary cultures of hOBs were treated with TGF beta (0.001-10 ng/ml) and 1,25(OH)2D3 (0.1 pM-100 nM) either alone or in combination. TGF beta and 1,25(OH)2D3 stimulated spindle-shaped cells to become stellate in appearance and increased the number of cytoplasmic processes. TGF beta increased 3H-thymidine incorporation and 1,25(OH)2D3 reduced this effect. Conversely,procollagen type-I synthesis and secretion were increased in a dose-dependent manner in the presence of TGF beta but were not significantly affected in the presence of 1,25(OH)2D3. TGF beta and 1,25(OH)2D3 each marginally increased alkaline phosphatase (ALP) activity,but the combination synergistically increased ALP activity in a dose- and time-dependent manner at the cytochemical and biochemical level (three to tenfold over vehicle controls; n = 12). In contrast,TGF beta reduced 1,25(OH)2D3-stimulated osteocalcin secretion. These data suggest that TGF beta stimulates hOB cells to actively produce collagen matrix and proliferate. The combination of TGF beta and 1,25(OH)2D3,however,produces a synergistic increase in ALP activity and maintenance of collagen synthesis. 1,25(OH)2D3 stimulation may induce cells to advance to an endstage where cell proliferation is reduced and osteocalcin expression is promoted. Interactions between TGF beta and 1,25(OH)2D3 may represent important steps in the regulation of osteoblast differentiation and matrix production. View Publication

An urgent need exists to devise strategies to augment antiviral immune responses in patients with HIV who are virologically well controlled and immunologically stable on highly active antiretroviral therapy (HAART). The objective of this study was to compare the immunomodulatory effects of the cytokines interleukin (IL)-21 with IL-15 on CD8 T cells in patients with HIV RNA of less than 50 copies/mL and CD4 counts greater than 200 cells/mm.(3) Patient CD8 T cells displayed skewed maturation and decreased perforin expression compared with healthy controls. Culture of freshly isolated patient peripheral-blood mononuclear cells (PBMCs) for 5 hours to 5 days with IL-21 resulted in up-regulation of perforin in CD8 T cells,including memory and effector subsets and virus-specific T cells. IL-21 did not induce T-cell activation or proliferation,nor did it augment T-cell receptor (TCR)-induced degranulation. Treatment of patient PBMCs with IL-15 resulted in induction of perforin in association with lymphocyte proliferation and augmentation of TCR-induced degranulation. Patient CD8 T cells were more responsive to cytokine effects than the cells of healthy volunteers. We conclude that CD8 T cells of patients with HIV can be modulated by IL-21 to increase perforin expression without undergoing overt cellular activation. IL-21 could potentially be useful for its perforin-enhancing properties in anti-HIV immunotherapy. View Publication