Li D et al. (MAY 2016)
Stem Cell Reports 6 5 717--728
Optimized Approaches for Generation of Integration-free iPSCs from Human Urine-Derived Cells with Small Molecules and Autologous Feeder
Generation of induced pluripotent stem cells (iPSCs) from human urine-derived cells (hUCs) provides a convenient and non-invasive way to obtain patient-specific iPSCs. However,many isolated hUCs exhibit very poor proliferation and are difficult to reprogram. In this study,we optimized reprogramming approaches for hUCs with very poor proliferation. We report here that a compound cocktail containing cyclic pifithrin-a (a P53 inhibitor),A-83-01,CHIR99021,thiazovivin,NaB,and PD0325901 significantly improves the reprogramming efficiency (170-fold more) for hUCs. In addition,we showed that replacement of Matrigel with autologous hUC feeders can overcome the reprogramming failure due to the massive cell death that occurs during delivery of reprogramming factors. In summary,we describe improved approaches to enable iPSC generation from hUCs that were otherwise difficult to reprogram,a valuable asset for banking patient-specific iPSCs.
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产品类型:
产品号#:
05850
05857
05870
05875
85850
85857
85870
85875
产品名:
mTeSR™1
mTeSR™1
Andrade LNdS et al. (SEP 2012)
Human Molecular Genetics 21 17 3825--3834
Evidence for premature aging due to oxidative stress in iPSCs from Cockayne syndrome
Cockayne syndrome (CS) is a human premature aging disorder associated with neurological and developmental abnormalities,caused by mutations mainly in the CS group B gene (ERCC6). At the molecular level,CS is characterized by a deficiency in the transcription-couple DNA repair pathway. To understand the role of this molecular pathway in a pluripotent cell and the impact of CSB mutation during human cellular development,we generated induced pluripotent stem cells (iPSCs) from CSB skin fibroblasts (CSB-iPSC). Here,we showed that the lack of functional CSB does not represent a barrier to genetic reprogramming. However,iPSCs derived from CSB patient's fibroblasts exhibited elevated cell death rate and higher reactive oxygen species (ROS) production. Moreover,these cellular phenotypes were accompanied by an up-regulation of TXNIP and TP53 transcriptional expression. Our findings suggest that CSB modulates cell viability in pluripotent stem cells,regulating the expression of TP53 and TXNIP and ROS production.
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产品类型:
产品号#:
05850
05857
05870
05875
85850
85857
85870
85875
产品名:
mTeSR™1
mTeSR™1
Almeida S et al. (SEP 2013)
Acta Neuropathologica 126 3 385--399
Modeling key pathological features of frontotemporal dementia with C9ORF72 repeat expansion in iPSC-derived human neurons
The recently identified GGGGCC repeat expansion in the noncoding region of C9ORF72 is the most common pathogenic mutation in patients with frontotemporal dementia (FTD) or amyotrophic lateral sclerosis (ALS). We generated a human neuronal model and investigated the pathological phenotypes of human neurons containing GGGGCC repeat expansions. Skin biopsies were obtained from two subjects who had textgreater1,000 GGGGCC repeats in C9ORF72 and their respective fibroblasts were used to generate multiple induced pluripotent stem cell (iPSC) lines. After extensive characterization,two iPSC lines from each subject were selected,differentiated into postmitotic neurons,and compared with control neurons to identify disease-relevant phenotypes. Expanded GGGGCC repeats exhibit instability during reprogramming and neuronal differentiation of iPSCs. RNA foci containing GGGGCC repeats were present in some iPSCs,iPSC-derived human neurons and primary fibroblasts. The percentage of cells with foci and the number of foci per cell appeared to be determined not simply by repeat length but also by other factors. These RNA foci do not seem to sequester several major RNA-binding proteins. Moreover,repeat-associated non-ATG (RAN) translation products were detected in human neurons with GGGGCC repeat expansions and these neurons showed significantly elevated p62 levels and increased sensitivity to cellular stress induced by autophagy inhibitors. Our findings demonstrate that key neuropathological features of FTD/ALS with GGGGCC repeat expansions can be recapitulated in iPSC-derived human neurons and also suggest that compromised autophagy function may represent a novel underlying pathogenic mechanism.
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产品类型:
产品号#:
05850
05857
05870
05875
85850
85857
85870
85875
产品名:
mTeSR™1
mTeSR™1
F. M. Duarte et al. (Sep 2025)
PLOS One 20 9
Reaching a cell monolayer at the end of hiPSC differentiation enhances neural crest lineage commitment
Neural crest stem cells (NCSCs) compose a highly migratory,multipotent,stem cell population arising from the neural plate border of the embryonic ectoderm. Investigating the development of NCSCs is critical in understanding both embryonic development and abnormal events that underlie neurocristopathies. Suggested seeding densities in in vitro human induced pluripotent stem cells (hiPSCs) differentiation protocols,varying between 10,000 cells/cm 2 and 200,000 cells/cm 2,demonstrate a lack of consensus on the optimal conditions to obtain NCSCs. Aiming to maximize the differentiation efficiency of hiPSCs towards the NCSCs lineage,we investigated the effect of the initial seeding density on NCSCs lineage commitment,both in fibroblast- and human peripheral blood mononuclear cell (PBMC)-derived hiPSCs. Cultures were characterized with gene and protein expression analysis assessing stemness ( OCT3/4 and NANOG ),neural crest identity ( SNAI2 and SOX10 ) and neuroectoderm identity ( PAX6 and SOX1 ). We demonstrate that reaching a confluent monolayer of cells by the end of the differentiating protocol is crucial to obtaining NCSCs from hiPSCs. To achieve this,our results indicated 17,000 cells/cm 2 is the optimal initial seeding density. Under this protocol,a confluent monolayer was reached after 8 days of differentiation and an average of 89% SOX10 positive cells were obtained. The fold change of SNAI2 and SOX10 expression was 11-fold and 17-fold higher,respectively,in cultures seeded with 17,000 cells/cm 2,compared to the highest tested density of 200,000 cells/cm 2 . In contrast,seeding 200,000 cells/cm 2 induced neuroectoderm-like cells,confirmed by an average of 45% of cells marking positive for PAX6. With this work,we demonstrate the importance of achieving cellular confluency during NCSCs differentiation.
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产品类型:
产品号#:
08610
100-0483
100-0484
100-0276
100-1130
产品名:
STEMdiff™ 神经嵴分化试剂盒
Hausser Scientificᵀᴹ 明线血球计数板
ReLeSR™
mTeSR™ Plus
mTeSR™ Plus
C. Kinnear et al. (Apr 2024)
Cell Reports Medicine 5 5
Myosin inhibitor reverses hypertrophic cardiomyopathy in genotypically diverse pediatric iPSC-cardiomyocytes to mirror variant correction
Pathogenic variants in MYH7 and MYBPC3 account for the majority of hypertrophic cardiomyopathy (HCM). Targeted drugs like myosin ATPase inhibitors have not been evaluated in children. We generate patient and variant-corrected iPSC-cardiomyocytes (CMs) from pediatric HCM patients harboring single variants in MYH7 ( V606M ; R453C ),MYBPC3 ( G148R ) or digenic variants ( MYBPC3 P955fs,TNNI3 A157V ). We also generate CMs harboring MYBPC3 mono- and biallelic variants using CRISPR editing of a healthy control. Compared with isogenic and healthy controls,variant-positive CMs show sarcomere disorganization,higher contractility,calcium transients,and ATPase activity. However,only MYH7 and biallelic MYBPC3 variant-positive CMs show stronger myosin-actin binding. Targeted myosin ATPase inhibitors show complete rescue of the phenotype in variant-positive CMs and in cardiac Biowires to mirror isogenic controls. The response is superior to verapamil or metoprolol. Myosin inhibitors can be effective in genotypically diverse HCM highlighting the need for myosin inhibitor drug trials in pediatric HCM.
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产品类型:
产品号#:
05025
产品名:
STEMdiff™ 心肌细胞解离试剂盒
V. Lullo et al. (Jul 2024)
Frontiers in Immunology 15
A novel iPSC-based model of ICF syndrome subtype 2 recapitulates the molecular phenotype of ZBTB24 deficiency
Immunodeficiency,Centromeric instability and Facial anomalies (ICF) syndrome is a rare genetic disorder characterized by variable immunodeficiency. More than half of the affected individuals show mild to severe intellectual disability at early onset. This disorder is genetically heterogeneous and ZBTB24 is the causative gene of the subtype 2,accounting for about 30% of the ICF cases. ZBTB24 is a multifaceted transcription factor belonging to the Zinc-finger and BTB domain-containing protein family,which are key regulators of developmental processes. Aberrant DNA methylation is the main molecular hallmark of ICF syndrome. The functional link between ZBTB24 deficiency and DNA methylation errors is still elusive. Here,we generated a novel ICF2 disease model by deriving induced pluripotent stem cells (iPSCs) from peripheral CD34 + -blood cells of a patient homozygous for the p.Cys408Gly mutation,the most frequent missense mutation in ICF2 patients and which is associated with a broad clinical spectrum. The mutation affects a conserved cysteine of the ZBTB24 zinc-finger domain,perturbing its function as transcriptional activator. ICF2-iPSCs recapitulate the methylation defects associated with ZBTB24 deficiency,including centromeric hypomethylation. We validated that the mutated ZBTB24 protein loses its ability to directly activate expression of CDCA7 and other target genes in the patient-derived iPSCs. Upon hematopoietic differentiation,ICF2-iPSCs showed decreased vitality and a lower percentage of CD34 + /CD43 + /CD45 + progenitors. Overall,the ICF2-iPSC model is highly relevant to explore the role of ZBTB24 in DNA methylation homeostasis and provides a tool to investigate the early molecular events linking ZBTB24 deficiency to the ICF2 clinical phenotype.
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产品类型:
产品号#:
05310
产品名:
STEMdiff™ 造血试剂盒
V. Magliocca et al. (Jul 2024)
Frontiers in Cellular Neuroscience 18
Modeling riboflavin transporter deficiency type 2: from iPSC-derived motoneurons to iPSC-derived astrocytes
Riboflavin transporter deficiency type 2 (RTD2) is a rare neurodegenerative autosomal recessive disease caused by mutations in the SLC52A2 gene encoding the riboflavin transporters,RFVT2. Riboflavin (Rf) is the precursor of FAD (flavin adenine dinucleotide) and FMN (flavin mononucleotide),which are involved in different redox reactions,including the energetic metabolism processes occurring in mitochondria. To date,human induced pluripotent stem cells (iPSCs) have given the opportunity to characterize RTD2 motoneurons,which reflect the most affected cell type. Previous works have demonstrated mitochondrial and peroxisomal altered energy metabolism as well as cytoskeletal derangement in RTD2 iPSCs and iPSC-derived motoneurons. So far,no attention has been dedicated to astrocytes. Here,we demonstrate that in vitro differentiation of astrocytes,which guarantee trophic and metabolic support to neurons,from RTD2 iPSCs is not compromised. These cells do not exhibit evident morphological differences nor significant changes in the survival rate when compared to astrocytes derived from iPSCs of healthy individuals. These findings indicate that differently from what had previously been documented for neurons,RTD2 does not compromise the morpho-functional features of astrocytes.
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产品类型:
产品号#:
05230
05711
05790
05854
05855
100-1281
产品名:
STEMdiff™ 三胚层分化试剂盒
NeuroCult™ SM1 神经添加物
BrainPhys™神经元培养基
mFreSR™
mFreSR™
NeuroCult™ SM1 神经添加物
M. Huyghe et al. (Oct 2024)
Frontiers in Immunology 15 3
Comparative analysis of iPSC-derived NK cells from two differentiation strategies reveals distinct signatures and cytotoxic activities
The ability to generate natural killer (NK) cells from induced pluripotent stem cells (iPSCs) has given rise to new possibilities for the large-scale production of homogeneous immunotherapeutic cellular products and opened new avenues towards the creation of “off-the-shelf” cancer immunotherapies. However,the differentiation of NK cells from iPSCs remains poorly understood,particularly regarding the ontogenic landscape of iPSC-derived NK (iNK) cells produced in vitro and the influence that the differentiation strategy employed may have on the iNK profile. To investigate this question,we conducted a comparative analysis of two sets of iNK cells generated from the same iPSC line using two different protocols: (i) a short-term,clinically compatible feeder-free protocol corresponding to primitive hematopoiesis,and (ii) a lymphoid-based protocol representing the definitive hematopoietic step. Our work demonstrated that both protocols are capable of producing functional iNK cells. However,the two sets of resulting iNKs exhibited distinct phenotypes and transcriptomic profiles. The lymphoid-based differentiation approach generated iNKs with a more mature and activated profile,which demonstrated higher cytotoxicity against cancer cell lines compared to iNK cells produced under short-term feeder-free conditions suggesting that the differentiation strategy must be considered when designing iNK cell–based adoptive immunotherapies.
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产品类型:
产品号#:
15025
15065
产品名:
RosetteSep™人NK细胞富集抗体混合物
RosetteSep™人NK细胞富集抗体混合物
K. Quaid et al. (Feb 2025)
Nature Communications 16
iPSCs and iPSC-derived cells as a model of human genetic and epigenetic variation
Understanding the interaction between genetic and epigenetic variation remains a challenge due to confounding environmental factors. We propose that human induced Pluripotent Stem Cells (iPSCs) are an excellent model to study the relationship between genetic and epigenetic variation while controlling for environmental factors. In this study,we have created a comprehensive resource of high-quality genomic,epigenomic,and transcriptomic data from iPSC lines and three iPSC-derived cell types (neural stem cell (NSC),motor neuron,monocyte) from three healthy donors. We find that epigenetic variation is most strongly associated with genetic variation at the iPSC stage,and that relationship weakens as epigenetic variation increases in differentiated cells. Additionally,cell type is a stronger source of epigenetic variation than genetic variation. Further,we elucidate a utility of studying epigenetic variation in iPSCs and their derivatives for identifying important loci for GWAS studies and the cell types in which they may be acting. Subject terms: Epigenomics,Genomics,Transcriptomics
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产品类型:
产品号#:
05320
产品名:
STEMdiff™ 单核细胞试剂盒
F. Efendic et al. (Aug 2025)
Cells 14 16
Disrupted Myelination in FAHN: Insights from a Patient-Specific hiPSC Neuron–Oligodendrocyte Model
Fatty-acid-hydroxylase-associated neurodegeneration (FAHN) is a rare neurodegenerative disorder caused by loss-of-function mutations in the FA2H gene,leading to impaired enzymatic activity and resulting in myelin sheath instability,demyelination,and axonal degeneration. In this study,we established a human in vitro model using neurons and oligodendrocytes derived from induced pluripotent stem cells (hiPSCs) of a FAHN patient. This coculture system enabled the investigation of myelination processes and myelin integrity in a disease-relevant context. Analyses using immunofluorescence and Western blot revealed impaired expression and localisation of key myelin proteins in oligodendrocytes and cocultures. FA2H-deficient cells showed reduced myelination,shortened internodes,and disrupted formation of the nodes of Ranvier. Additionally,we identified autophagy defects—a hallmark of many neurodegenerative diseases—including reduced p62 expression,elevated LC3B levels,and impaired fusion of autophagosomes with lysosomes. This study presents a robust hiPSC-based model to study FAHN,offering new insights into the molecular pathology of the disease. Our findings suggest that FA2H mutations compromise both the structural integrity of myelin and the efficiency of the autophagic machinery,highlighting potential targets for future therapeutic interventions.
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产品类型:
产品号#:
100-0483
100-0484
产品名:
Hausser Scientificᵀᴹ 明线血球计数板
ReLeSR™
M. Themeli et al. (feb 2020)
Stem cell reports 14 2 300--311
iPSC-Based Modeling of RAG2 Severe Combined Immunodeficiency Reveals Multiple T Cell Developmental Arrests.
RAG2 severe combined immune deficiency (RAG2-SCID) is a lethal disorder caused by the absence of functional T and B cells due to a differentiation block. Here,we generated induced pluripotent stem cells (iPSCs) from a RAG2-SCID patient to study the nature of the T cell developmental blockade. We observed a strongly reduced capacity to differentiate at every investigated stage of T cell development,from early CD7-CD5- to CD4+CD8+. The impaired differentiation was accompanied by an increase in CD7-CD56+CD33+ natural killer (NK) cell-like cells. T cell receptor D rearrangements were completely absent in RAG2SCID cells,whereas the rare T cell receptor B rearrangements were likely the result of illegitimate rearrangements. Repair of RAG2 restored the capacity to induce T cell receptor rearrangements,normalized T cell development,and corrected the NK cell-like phenotype. In conclusion,we succeeded in generating an iPSC-based RAG2-SCID model,which enabled the identification of previously unrecognized disorder-related T cell developmental roadblocks.
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产品类型:
产品号#:
05310
100-0485
07174
85850
85857
85870
85875
100-1077
产品名:
STEMdiff™ 造血试剂盒
温和细胞解离试剂
mTeSR™1
mTeSR™1
ReLeSR™
(Jul 2025)
Bio-protocol 15 13
Derivation and Culture of Enriched Phrenic-Like Motor Neurons From Human iPSCs
The fatal motor neuron (MN) disease amyotrophic lateral sclerosis (ALS) is characterized by progressive degeneration of the phrenic MNs (phMNs) controlling the activity of the diaphragm,leading to death by respiratory failure. Human experimental models to study phMNs are lacking,hindering the understanding of the mechanisms of phMN degeneration in ALS. Here,we describe a protocol to derive phrenic-like MNs from human induced pluripotent stem cells (hiPSC-phMNs) within 30 days. During spinal cord development,phMNs emerge from specific MN progenitors located in the dorsalmost MN progenitor (pMN) domain at cervical levels,under the control of a ventral-to-dorsal gradient of Sonic hedgehog (SHH) signaling and a rostro-caudal gradient of retinoic acid (RA). The method presented here uses optimized concentrations of RA and the SHH agonist purmorphamine,followed by fluorescence-activated cell sorting (FACS) of the resulting MN progenitor cells (MNPCs) based on a cell-surface protein (IGDCC3) enriched in hiPSC-phMNs. The resulting cultures are highly enriched in MNs expressing typical phMN markers. This protocol enables the generation of hiPSC-phMNs and is highly reproducible using several hiPSC lines,offering a disease-relevant system to study mechanisms of respiratory MN dysfunction. While the protocol has been validated in the context of ALS research,it can be adopted to study human phrenic MNs in other research fields where these neurons are of interest.
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