Prostaglandin E2 enhances hematopoietic stem cell homing, survival, and proliferation.
Adult hematopoietic stem cells (HSCs) are routinely used to reconstitute hematopoiesis after myeloablation; however,transplantation efficacy and multilineage reconstitution can be limited by inadequate HSC number,or poor homing,engraftment,or self-renewal. Here we report that mouse and human HSCs express prostaglandin E2 (PGE2) receptors,and that short-term ex vivo exposure of HSCs to PGE2 enhances their homing,survival,and proliferation,resulting in increased long-term repopulating cell (LTRC) and competitive repopulating unit (CRU) frequency. HSCs pulsed with PGE2 are more competitive,as determined by head-to-head comparison in a competitive transplantation model. Enhanced HSC frequency and competitive advantage is stable and maintained upon serial transplantation,with full multilineage reconstitution. PGE2 increases HSC CXCR4 mRNA and surface expression,enhances their migration to SDF-1 in vitro and homing to bone marrow in vivo,and stimulates HSC entry into and progression through cell cycle. In addition,PGE2 enhances HSC survival,associated with an increase in Survivin mRNA and protein expression and reduction in intracellular active caspase-3. Our results define novel mechanisms of action whereby PGE2 enhances HSC function and supports a strategy to use PGE2 to facilitate hematopoietic transplantation.
View Publication
Nanog1 in NTERA-2 and recombinant NanogP8 from somatic cancer cells adopt multiple protein conformations and migrate at multiple M.W species
Human Nanog1 is a 305-amino acid (aa) homeodomain-containing transcription factor critical for the pluripotency of embryonic stem (ES) and embryonal carcinoma (EC) cells. Somatic cancer cells predominantly express a retrogene homolog of Nanog1 called NanogP8,which is ˜99% similar to Nanog at the aa level. Although the predicted M.W of Nanog1/NanogP8 is ∼35 kD,both have been reported to migrate,on Western blotting (WB),at apparent molecular masses of 29-80 kD. Whether all these reported protein bands represent authentic Nanog proteins is unclear. Furthermore,detailed biochemical studies on Nanog1/NanogpP8 have been lacking. By combining WB using 8 anti-Nanog1 antibodies,immunoprecipitation,mass spectrometry,and studies using recombinant proteins,here we provide direct evidence that the Nanog1 protein in NTERA-2 EC cells exists as multiple M.W species from ˜22 kD to 100 kD with a major 42 kD band detectable on WB. We then demonstrate that recombinant NanogP8 (rNanogP8) proteins made in bacteria using cDNAs from multiple cancer cells also migrate,on denaturing SDS-PAGE,at ˜28 kD to 180 kD. Interestingly,different anti-Nanog1 antibodies exhibit differential reactivity towards rNanogP8 proteins,which can spontaneously form high M.W protein species. Finally,we show that most long-term cultured cancer cell lines seem to express very low levels of or different endogenous NanogP8 protein that cannot be readily detected by immunoprecipitation. Altogether,the current study reveals unique biochemical properties of Nanog1 in EC cells and NanogP8 in somatic cancer cells.
View Publication
A versatile mouse model to advance human microglia transplantation research in neurodegenerative diseases
BackgroundRecent studies highlight the critical role of microglia in neurodegenerative disorders,and emphasize the need for humanized models to accurately study microglial responses. Human-mouse microglia xenotransplantation models are a valuable platform for functional studies and for testing therapeutic approaches,yet currently those models are only available for academic research. This hampers their implementation for the development and testing of medication that targets human microglia.MethodsWe developed the hCSF1Bdes mouse line,which is suitable as a new transplantation model and available to be crossed to any disease model of interest. The hCSF1Bdes model created by CRISPR gene editing is RAG2 deficient and expresses human CSF1. Additionally,we crossed this model with two humanized App KI mice,the AppHu and the AppSAA. Flow cytometry,immunohistochemistry and bulk sequencing was used to study the response of microglia in the context of Alzheimer’s disease.ResultsOur results demonstrate the successful transplantation of iPSC-derived human microglia into the brains of hCSF1Bdes mice without triggering a NK-driven immune response. Furthermore,we confirmed the multipronged response of microglia in the context of Alzheimer’s disease. The hCSF1Bdes and the crosses with the Alzheimer’s disease knock-in model AppSAA and the humanized App knock-in control mice,AppHu are deposited with EMMA and fully accessible to the research community.ConclusionThe hCSF1Bdes mouse is available for both non-profit and for-profit organisations,facilitating the use of the xenotransplantation paradigm for human microglia to study complex human disease.Supplementary InformationThe online version contains supplementary material available at 10.1186/s13024-025-00823-2.
View Publication
产品类型:
产品号#:
85850
85857
产品名:
mTeSR™1
mTeSR™1
Fenouille N et al. (DEC 2010)
Cancer research 70 23 9659--70
Persistent activation of the Fyn/ERK kinase signaling axis mediates imatinib resistance in chronic myelogenous leukemia cells through upregulation of intracellular SPARC.
SPARC is an extracellular matrix protein that exerts pleiotropic effects on extracellular matrix organization,growth factor availability,cell adhesion,differentiation,and immunity in cancer. Chronic myelogenous leukemia (CML) cells resistant to the BCR-ABL inhibitor imatinib (IM-R cells) were found to overexpress SPARC mRNA. In this study,we show that imatinib triggers SPARC accumulation in a variety of tyrosine kinase inhibitor (TKI)-resistant CML cell lines. SPARC silencing in IM-R cells restored imatinib sensitivity,whereas enforced SPARC expression in imatinib-sensitive cells promoted viability as well as protection against imatinib-mediated apoptosis. Notably,we found that the protective effect of SPARC required intracellular retention inside cells. Accordingly,SPARC was not secreted into the culture medium of IM-R cells. Increased SPARC expression was intimately linked to persistent activation of the Fyn/ERK kinase signaling axis. Pharmacologic inhibition of this pathway or siRNA-mediated knockdown of Fyn kinase resensitized IM-R cells to imatinib. In support of our findings,increased levels of SPARC mRNA were documented in blood cells from CML patients after 1 year of imatinib therapy compared with initial diagnosis. Taken together,our results highlight an important role for the Fyn/ERK signaling pathway in imatinib-resistant cells that is driven by accumulation of intracellular SPARC.
View Publication
产品类型:
产品号#:
04100
产品名:
MethoCult™ H4100
Wang P et al. ( 2017)
Molecular autism 8 11
CRISPR/Cas9-mediated heterozygous knockout of the autism gene CHD8 and characterization of its transcriptional networks in cerebral organoids derived from iPS cells.
BACKGROUND CHD8 (chromodomain helicase DNA-binding protein 8),which codes for a member of the CHD family of ATP-dependent chromatin-remodeling factors,is one of the most commonly mutated genes in autism spectrum disorders (ASD) identified in exome-sequencing studies. Loss of function mutations in the gene have also been found in schizophrenia (SZ) and intellectual disabilities and influence cancer cell proliferation. We previously reported an RNA-seq analysis carried out on neural progenitor cells (NPCs) and monolayer neurons derived from induced pluripotent stem (iPS) cells that were heterozygous for CHD8 knockout (KO) alleles generated using CRISPR-Cas9 gene editing. A significant number of ASD and SZ candidate genes were among those that were differentially expressed in a comparison of heterozygous KO lines (CHD8(+/-)) vs isogenic controls (CHD8(+/-)),including the SZ and bipolar disorder (BD) candidate gene TCF4,which was markedly upregulated in CHD8(+/-) neuronal cells. METHODS In the current study,RNA-seq was carried out on CHD8(+/-) and isogenic control (CHD8(+/+)) cerebral organoids,which are 3-dimensional structures derived from iPS cells that model the developing human telencephalon. RESULTS TCF4 expression was,again,significantly upregulated. Pathway analysis carried out on differentially expressed genes (DEGs) revealed an enrichment of genes involved in neurogenesis,neuronal differentiation,forebrain development,Wnt/β-catenin signaling,and axonal guidance,similar to our previous study on NPCs and monolayer neurons. There was also significant overlap in our CHD8(+/-) DEGs with those found in a transcriptome analysis carried out by another group using cerebral organoids derived from a family with idiopathic ASD. Remarkably,the top DEG in our respective studies was the non-coding RNA DLX6-AS1,which was markedly upregulated in both studies; DLX6-AS1 regulates the expression of members of the DLX (distal-less homeobox) gene family. DLX1 was also upregulated in both studies. DLX genes code for transcription factors that play a key role in GABAergic interneuron differentiation. Significant overlap was also found in a transcriptome study carried out by another group using iPS cell-derived neurons from patients with BD,a condition characterized by dysregulated WNT/β-catenin signaling in a subgroup of affected individuals. CONCLUSIONS Overall,the findings show that distinct ASD,SZ,and BD candidate genes converge on common molecular targets-an important consideration for developing novel therapeutics in genetically heterogeneous complex traits.
View Publication
产品类型:
产品号#:
05850
05857
05870
05875
85850
85857
85870
85875
产品名:
mTeSR™1
mTeSR™1
Miller TW et al. (APR 2011)
Clinical cancer research : an official journal of the American Association for Cancer Research 17 7 2024--34
A gene expression signature from human breast cancer cells with acquired hormone independence identifies MYC as a mediator of antiestrogen resistance.
PURPOSE: Although most patients with estrogen receptor α (ER)-positive breast cancer initially respond to endocrine therapy,many ultimately develop resistance to antiestrogens. However,mechanisms of antiestrogen resistance and biomarkers predictive of such resistance are underdeveloped. EXPERIMENTAL DESIGN: We adapted four ER(+) human breast cancer cell lines to grow in an estrogen-depleted medium. A gene signature of estrogen independence was developed by comparing expression profiles of long-term estrogen-deprived (LTED) cells to their parental counterparts. We evaluated the ability of the LTED signature to predict tumor response to neoadjuvant therapy with an aromatase inhibitor and disease outcome following adjuvant tamoxifen. We utilized Gene Set Analysis (GSA) of LTED cell gene expression profiles and a loss-of-function approach to identify pathways causally associated with resistance to endocrine therapy. RESULTS: The LTED gene expression signature was predictive of high tumor cell proliferation following neoadjuvant therapy with anastrozole and letrozole,each in different patient cohorts. This signature was also predictive of poor recurrence-free survival in two studies of patients treated with adjuvant tamoxifen. Bioinformatic interrogation of expression profiles in LTED cells revealed a signature of MYC activation. The MYC activation signature and high MYC protein levels were both predictive of poor outcome following tamoxifen therapy. Finally,knockdown of MYC inhibited LTED cell growth. CONCLUSIONS: A gene expression signature derived from ER(+) breast cancer cells with acquired hormone independence predicted tumor response to aromatase inhibitors and associated with clinical markers of resistance to tamoxifen. Activation of the MYC pathway was associated with this resistance.
View Publication
产品类型:
产品号#:
05620
产品名:
MammoCult™人培养基试剂盒
A. Wu et al. (Jul 2025)
International Journal of Molecular Sciences 26 13
Identification of a PAK6-Mediated MDM2/p21 Axis That Modulates Survival and Cell Cycle Control of Drug-Resistant Stem/Progenitor Cells in Chronic Myeloid Leukemia
Chronic myeloid leukemia (CML) is a leading example of a malignancy where a molecular targeted therapy revolutionized treatment but has rarely led to cures. Overcoming tyrosine kinase inhibitor (TKI) drug resistance remains a challenge in the treatment of CML. We have recently identified miR-185 as a predictive biomarker where reduced expression in CD34 + treatment-naïve CML cells was associated with TKI resistance. We have also identified PAK6 as a target gene of miR-185 that was upregulated in CD34 + TKI-nonresponder cells. However,its role in regulating TKI resistance remains largely unknown. In this study,we specifically targeted PAK6 in imatinib (IM)-resistant cells and CD34 + stem/progenitor cells from IM-nonresponders using a lentiviral-mediated PAK6 knockdown strategy. Interestingly,the genetic and pharmacological suppression of PAK6 significantly reduced proliferation and increased apoptosis in TKI-resistant cells. Cell survivability was further diminished when IM was combined with PAK6 knockdown. Importantly,PAK6 inhibition in TKI-resistant cells induced cell cycle arrest in the G2-M phase and cellular senescence,accompanied by increased levels of DNA damage-associated senescence markers. Mechanically,we identified a PAK6-mediated MDM2-p21 axis that regulates cell cycle arrest and senescence. Thus,PAK6 plays a critical role in determining alternative cell fates in leukemic cells,and targeting PAK6 may offer a therapeutic strategy to selectively eradicate TKI-resistant cells.
View Publication
Saghizadeh M et al. (NOV 2013)
PLoS ONE 8 11 e79632
A Simple Alkaline Method for Decellularizing Human Amniotic Membrane for Cell Culture
Human amniotic membrane is a standard substratum used to culture limbal epithelial stem cells for transplantation to patients with limbal stem cell deficiency. Various methods were developed to decellularize amniotic membrane,because denuded membrane is poorly immunogenic and better supports repopulation by dissociated limbal epithelial cells. Amniotic membrane denuding usually involves treatment with EDTA and/or proteolytic enzymes; in many cases additional mechanical scraping is required. Although ensuring limbal cell proliferation,these methods are not standardized,require relatively long treatment times and can result in membrane damage. We propose to use 0.5 M NaOH to reliably remove amniotic cells from the membrane. This method was used before to lyse cells for DNA isolation and radioactivity counting. Gently rubbing a cotton swab soaked in NaOH over the epithelial side of amniotic membrane leads to nearly complete and easy removal of adherent cells in less than a minute. The denuded membrane is subsequently washed in a neutral buffer. Cell removal was more thorough and uniform than with EDTA,or EDTA plus mechanical scraping with an electric toothbrush,or n-heptanol plus EDTA treatment. NaOH-denuded amniotic membrane did not show any perforations compared with mechanical or thermolysin denuding,and showed excellent preservation of immunoreactivity for major basement membrane components including laminin α2,γ1-γ3 chains,α1/α2 and α6 type IV collagen chains,fibronectin,nidogen-2,and perlecan. Sodium hydroxide treatment was efficient with fresh or cryopreserved (10% dimethyl sulfoxide or 50% glycerol) amniotic membrane. The latter method is a common way of membrane storage for subsequent grafting in the European Union. NaOH-denuded amniotic membrane supported growth of human limbal epithelial cells,immortalized corneal epithelial cells,and induced pluripotent stem cells. This simple,fast and reliable method can be used to standardize decellularized amniotic membrane preparations for expansion of limbal stem cells in vitro before transplantation to patients.
View Publication
EasySep™小鼠TIL(CD45)正选试剂盒
产品手册Evaluating Hematopoietic Cell Therapy Product Potency Using the CFU Assay
科学海报CRISPR-Cas9 Gene Editing Of CDK5RAP2 In Human Pluripotent Stem Cells, Derivation Of Genetically Stable Clonal Lines And Formation Of Cerebral Organoids
产品手册Small Molecules for Cancer Research
沪公网安备31010102008431号