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

Better understanding of the earliest molecular pathologies of all neurodegenerative diseases is expected to improve human therapeutics. We investigated the earliest molecular pathology of spinocerebellar ataxia type 1 (SCA1),a rare familial neurodegenerative disease that primarily induces death and dysfunction of cerebellum Purkinje cells. Extensive prior studies have identified involvement of transcription or RNA-splicing factors in the molecular pathology of SCA1. However,the regulatory network of SCA1 pathology,especially central regulators of the earliest developmental stages and inflammatory events,remains incompletely understood. Here,we elucidated the earliest developmental pathology of SCA1 using originally developed dynamic molecular network analyses of sequentially acquired RNA-seq data during differentiation of SCA1 patient-derived induced pluripotent stem cells (iPSCs) to Purkinje cells. Dynamic molecular network analysis implicated histone genes and cytokine-relevant immune response genes at the earliest stages of development,and revealed relevance of ISG15 to the following degradation and accumulation of mutant ataxin-1 in Purkinje cells of SCA1 model mice and human patients. Molecular changes in neurodegeneration occur much earlier than previously expected. In this study,dynamic molecular network analysis of iPSC differentiation uncovers a temporal pathway from histone to ISG15 with the earliest molecular changes of SCA1. View Publication

Angiotensin (Ang)-(1–7) stimulates vasoprotective functions of diabetic (DB) CD34 + hematopoietic stem/progenitor cells partly by decreasing reactive oxygen species (ROS),increasing nitric oxide (NO) levels and decreasing TGFβ1 secretion. Telomerase reverse transcriptase (TERT) translocates to mitochondria and regulates ROS generation. Alternative splicing of TERT results in variants α-,β- and α-β-TERT,which may oppose functions of full-length (FL) TERT. This study tested if the protective functions of Ang-(1–7) or TGFβ1-silencing are mediated by mitoTERT and that diabetes decreases FL-TERT expression by inducing splicing. CD34 + cells were isolated from the peripheral blood mononuclear cells of nondiabetic (ND,n = 68) or DB (n = 74) subjects. NO and mitoROS levels were evaluated by flow cytometry. TERT splice variants and mitoDNA-lesions were characterized by qPCR. TRAP assay was used for telomerase activity. Decoy peptide was used to block mitochondrial translocation (mitoXTERT). TERT inhibitor or mitoXTERT prevented the effects of Ang-(1–7) on NO or mitoROS levels in DB-CD34 + cells. FL-TERT expression and telomerase activity were lower and mitoDNA-lesions were higher in DB cells compared to ND and were reversed by Ang-(1–7) or TGFβ1-silencing. The prevalence of TERT splice variants,with predominant β-TERT expression,was higher and the expression of FL-TERT was lower in DB cells (n = 25) compared to ND (n = 30). Ang-(1–7) or TGFβ1-silencing decreased TERT-splicing and increased FL-TERT. Blocking of β-splicing increased FL-TERT and protected mitoDNA in DB-cells. The findings suggest that diabetes induces TERT-splicing in CD34 + cells and that β-TERT splice variant largely contributes to the mitoDNA oxidative damage. View Publication

Colorectal cancer (CRC) is a prevalent malignant tumor globally,ranking third in incidence and second in mortality. Metastasis is the main cause of death in patients with CRC. Solanum nigrum L. (SNL),a traditional Chinese medicinal herb endowed with detoxification,blood circulation enhancement,and anti-swelling properties,has been widely used in folk prescriptions for cancer treatment in China. Solamargine (SM) is the major steroidal alkaloid glycoside purified from SNL. However,its role and mechanism against metastatic CRC are not yet clear. The purpose of this study was to evaluate the inhibitory effect of SM on human hepatic metastatic CRC and investigate its underlying mechanism. CCK-8 assay,colony-formation assay,transwell assay,flow cytometry,tumoursphere formation assay,reverse-transcription quantitative PCR (RT-qPCR),Western blotting,transcriptomic sequencing and ferroptosis analysis were performed to reveal the efficacy and the underlying mechanism of SM in CRC cell lines. In vivo,allograft model,patient-derived xenograft (PDX) model,and liver metastatic model were performed to verify the effect of SM on the growth and metastasis of CRC. SM was found to suppress hepatic metastasis in CRC by effectively targeting key cellular processes,including proliferation,survival,and stemness. RNA sequencing showed that SM could induce ferroptosis,which was confirmed by elevated lipid reactive oxygen species (ROS) and downregulated glutathione peroxidase 4 (GPX4) and glutathione synthetase (GSS) in CRC cells and xenografts. Induction of ferroptosis by SM was regulated by nuclear factor erythroid 2-related factor 2 (Nrf2). Furthermore,downregulation of β-catenin was found to be fundamental for the SM-enabled cancer stem cells (CSCs) elimination and metastasis blockage in CRC. Our results indicated that SM is a promising therapeutic drug to inhibit hepatic metastasis in CRC by inducing ferroptosis and impeding CSCs. The online version contains supplementary material available at 10.1186/s13020-025-01171-5. View Publication

Few epitopes are available for vaccination therapy of patients with squamous cell carcinoma of the head and neck (SCCHN). Using a tumor-specific CTL,aldehyde dehydrogenase 1 family member A1 (ALDH1A1) was identified as a novel tumor antigen in SCCHN. Mass spectral analysis of peptides in tumor-derived lysates was used to determine that the CTL line recognized the HLA-A*0201 (HLA-A2) binding ALDH1A1(88-96) peptide. Expression of ALDH1A1 in established SCCHN cell lines,normal mucosa,and primary keratinocytes was studied by quantitative reverse transcription-PCR and immunostaining. Protein expression was further defined by immunoblot analysis,whereas ALDH1A1 activity was measured using ALDEFLUOR. ALDH1A1(88-96) peptide was identified as an HLA-A2-restricted,naturally presented,CD8(+) T-cell-defined tumor peptide. ALDH1A1(88-96) peptide-specific CD8(+) T cells recognized only HLA-A2(+) SCCHN cell lines,which overexpressed ALDH1A1,as well as targets transfected with ALDH1A1 cDNA. Target recognition was blocked by anti-HLA class I and anti-HLA-A2 antibodies. SCCHN cell lines overexpressing ALDH1 had high enzymatic activity. ALDH1A1 protein was expressed in 12 of 17 SCCHN,and 30 of 40 dysplastic mucosa samples,but not in normal mucosa. ALDH1A1 expression levels in target cells correlated with their recognition by ALDH1A1(88-96) peptide-specific CD8(+) T cells. Our findings identify ALDH1A1,a metabolic antigen,as a potential target for vaccination therapy in the cohort of SCCHN subjects with tumors overexpressing this protein. A smaller cohort of subjects with SCCHN,whose tumors express little to no ALDH1A1,and thus are deficient in conversion of retinal to retinoic acid,could benefit from chemoprevention therapy. View Publication

Background Human embryonic stem cells (hESCs) serve as a potential unlimited ex vivo source of cardiomyocytes for disease modeling,cardiotoxicity screening,drug discovery,and cell-based therapies. Despite the fundamental importance of Ca2+-induced Ca2+ release in excitation-contraction coupling,the mechanistic basis of Ca2+ handling of hESC-derived ventricular cardiomyocytes (VCMs) remains elusive. Objectives To study Ca2+ sparks as unitary events of Ca2+ handling for mechanistic insights. Methods To avoid ambiguities owing to the heterogeneous nature,we experimented with hESC-VCMs,purified on the basis of zeocin resistance and signature ventricular action potential after LV-MLC2v-tdTomato-T2A-Zeo transduction. Results Ca2+ sparks that were sensitive to inhibitors of sarco/endoplasmic reticulum Ca2+-ATPase (thapsigargin and cyclopiazonic acid) and ryanodine receptor (RyR; ryanodine,tetracaine) but not inositol trisphosphate receptors (xestospongin C and 2-aminoethyl diphenylborinate) could be recorded. In a permeabilization model,we further showed that RyRs could be sensitized by Ca2+. Increasing external Ca2+ dramatically escalated the basal Ca2+ and spark frequency. Furthermore,RyR-mediated Ca2+ release sensitized nearby RyRs,leading to compound Ca2+ sparks. Depolarization or L-type Ca2+ channel agonist (FPL 64176 and Bay K8644) pretreatment induced an extracellular Ca2+-dependent cytosolic Ca2+ increase and reduced the sarcoplasmic reticulum content. By contrast,removal of external Na+ or the addition of the Na+-Ca2+ exchanger inhibitor (KB-R7943 and SN-6) had no effect,suggesting that the Na+-Ca2+ exchanger is not involved in triggering sparks. Inhibition of mitochondrial Ca2+ uptake by carbonyl cyanide m-chlorophenyl hydrazone promoted Ca2+ waves. Conclusion Taken collectively,our findings provide the first lines of direct evidence that hESC-VCMs have functional Ca2+-induced Ca2+ release. However,the sarcoplasmic reticulum is leaky and without a mature terminating mechanism in early development. View Publication

BAG-1 protein has been well characterized as necessary for proper neuronal development. However,little is known about the function of BAG-1 in the adult brain. In this work,the expression and localization of BAG-1 in the mature mouse brain was studied. The levels of both BAG-1 isoforms decrease significantly in the brain during development. BAG-1 was found preferentially expressed in Neuronal Precursor Cells (NPCs) in the two major niches of neurogenesis. Lentiviral mediated overexpression of BAG-1 increased the proliferation rate of cultured NPCs. In addition,depletion of BAG-1 from NPCs induced a decrease in NPCs proliferation in the presence of a stress hormone,corticosterone. These data suggest a role for BAG-1 in mechanisms of neurogenesis in the adult mouse brain. View Publication

OBJECTIVE: Animal models have provided evidence for the existence of leukemia stem cells (LSC). However,prospective isolation of human LSC from patients with acute myeloid leukemia (AML),as well as the assessment of their clinical significance,has remained a major challenge. MATERIALS AND METHODS: We have studied the functional characteristics of a subset of leukemia cells that expressed CD34 and high aldehyde dehydrogenase activity (ALDH(br)),which was freshly isolated from the mononuclear cells at the time of diagnosis from the marrow of 68 consecutive patients suffering from AML. RESULTS: The percentage of ALDH(br) cells ranged from 0.01% to 16.0% with a median of 0.5%. Compared to their counterparts with low aldehyde dehydrogenase activity from the same individual patients,the ALDH(br) population showed a significantly higher affinity to human mesenchymal stromal cells (n=12; ptextless0.01),a more than twofold higher proportion of slow-dividing and quiescent cells (n=4; ptextless0.05),higher numbers of long-term culture-initiating cell colonies in vitro (n=25; ptextless0.01),and an enhanced engraftment in the nonobese diabetic/severe combined immunodeficient mouse model (n=3; ptextless0.05). Above all,we found that the frequency of ALDH(br) cells correlated significantly with diminished survival probability (p=0.025) and with adverse cytogenetic factors (ptextless0.05). CONCLUSION: A small proportion of leukemia cells derived from the marrow of patients with AML were ALDH(br) and CD34(+). They demonstrated functional characteristics of LSC and high percentages of these cells among the leukemia cells correlated significantly with poor clinical outcome. View Publication

BACKGROUND: Mesenchymal stromal cells (MSC) have been proven to have potent immunosuppressive action and hence have been proposed for the treatment of severe Graft Versus Host Disease. However,in most models,MSC were added at the same time of lymphocyte stimulation,which is quite different from what occurs in vivo. AIMS: To investigate how the timing of lymphocyte activation and the exposure to activation-related cytokines (licensing) can influence the immunosuppressive action of Wharton's jelly stromal cells (WJSC). METHODS: WJSC,licensed or not with activation-related cytokines,were added lymphocytes the same time or 24 hours after their stimulation with phytohaemoagglutinin. Proliferation of lymphocytes and cytokines production was measured after three days co-culture. RESULTS: Lymphocytes stimulated in the presence of WJSC displayed a dramatic decrease in proliferation and production of cytokines,in spite of normal expression of activation markers. The suppression was weakened when targeted lymphocytes were seperated by a membrane and partially rescued by the addition of exogenous l-tryptophan,suggesting a major role for indoleamine 2,3-dioxigenase with a probable paracrine effect. Licensing of WJSC increased the immunosuppressive effect,in both contact and non-contact settings. The timing of WJSC licensing was crucial for the immunosuppressive action. Lymphocytes pre-stimulated alone for 24 h,and added afterwards to non-licensed WJSC,showed normal or even increased proliferation. On the other hand,their proliferation was strongly inhibited by licensed WJSC. CONCLUSIONS: WJSC have a potent immunosuppressive function best realized with direct contact,and increased by licensing signals before and during lymphocyte stimulation. Our results could contribute to the set up of new WJSC-based therapies for severe autoimmuno disorders. View Publication

Mesenchymal stromal cells (MSCs) have important immunosuppressive properties,but the mechanisms and soluble factors involved in these effects remain unclear. We have studied prostaglandin-E2 (PGE2) as a possible candidate implied in adipose tissue-derived MSCs (Ad-MSCs) immunosuppressive properties over dendritic cells and T lymphocytes,compared to bone marrow derived MSCs (BM-MSCs). We found that both MSCs inhibited the maturation of myeloid-DCs and plasmocytoid-DCs. High levels of PGE2 were detected in DCs/MSCs co-cultures. Its blockade with indomethacin (IDM) allowed plasmocytoid-DCs but not myeloid-DCs maturation. Additionally,high levels of PGE2 were found in co-cultures in which Ad-MSCs or BM-MSCs inhibited activated T cells proliferation and pro-inflammatory cytokines production. PGE2 blockade by IDM preserved T lymphocytes proliferation but did not restore the pro-inflammatory cytokines secretion. However,an increased expression of transcription factors and cytokines genes involved in the Th1/Th2 differentiation pathway was detected in the T cells co-cultured with Ad-MSCs,but not with BM-MSCs. In conclusion,we propose that PGE2 is a soluble factor mediating most of the immunosuppressive effects of Ad-MSCs and BM-MSCs over p-DCs maturation and activated T lymphocytes proliferation and cytokine secretion. View Publication

Directed neural differentiation of human embryonic stem cells (ESCs) enables researchers to generate diverse neuronal populations for human neural development study and cell replacement therapy. To realize this potential,it is critical to precisely understand the role of various endogenous and exogenous factors involved in neural differentiation. Cell density,one of the endogenous factors,is involved in the differentiation of human ESCs. Seeding cell density can result in variable terminal cell densities or localized cell densities (LCDs),giving rise to various outcomes of differentiation. Thus,understanding how LCD determines the differentiation potential of human ESCs is important. The aim of this study is to highlight the role of LCD in the differentiation of H9 human ESCs into neuroectoderm (NE),the primordium of the nervous system. We found the initially seeded cells form derived cells with variable LCDs and subsequently affect the NE differentiation. Using a newly established method for the quantitative examination of LCD,we demonstrated that in the presence of induction medium supplemented with or without SMAD signaling blockers,high LCD promotes the differentiation of NE. Moreover,SMAD signaling blockade promotes the differentiation of NE but not non-NE germ layers,which is dependent on high LCDs. Taken together,this study highlights the need to develop innovative strategies or techniques based on LCDs for generating neural progenies from human ESCs. View Publication

The generation of personalized induced pluripotent stem cells (iPSCs) followed by targeted genome editing provides an opportunity for developing customized effective cellular therapies for genetic disorders. However,it is critical to ascertain whether edited iPSCs harbor unfavorable genomic variations before their clinical application. To examine the mutation status of the edited iPSC genome and trace the origin of possible mutations at different steps,we have generated virus-free iPSCs from amniotic cells carrying homozygous point mutations in beta-hemoglobin gene (HBB) that cause severe beta-thalassemia (beta-Thal),corrected the mutations in both HBB alleles by zinc finger nuclease-aided gene targeting,and obtained the final HBB gene-corrected iPSCs by excising the exogenous drug resistance gene with Cre recombinase. Through comparative genomic hybridization and whole-exome sequencing,we uncovered seven copy number variations,five small insertions/deletions,and 64 single nucleotide variations (SNVs) in beta-Thal iPSCs before the gene targeting step and found a single small copy number variation,19 insertions/deletions,and 340 single nucleotide variations in the final gene-corrected beta-Thal iPSCs. Our data revealed that substantial but different genomic variations occurred at factor-induced somatic cell reprogramming and zinc finger nuclease-aided gene targeting steps,suggesting that stringent genomic monitoring and selection are needed both at the time of iPSC derivation and after gene targeting. View Publication