技术资料

The long-term maintenance of hematopoietic stem cells (HSCs) relies on the regulation of endoplasmic reticulum (ER) stress at a low level,but the underlying mechanism remains poorly understood. Here,we demonstrate that suppression of ER stress improves the functions of HSCs and protects HSCs against ionizing radiation (IR)-induced injury. We identify epithelial membrane protein 1 (EMP1) as a key regulator that mitigates ER stress in HSCs. Emp1 deficiency leads to the accumulation of protein aggregates and elevated ER stress,ultimately resulting in impaired HSC maintenance and self-renewal. Mechanistically,EMP1 is located within the ER and interacts with ceramide synthase 2 (CERS2) to limit the production of a class of sphingolipids,dihydroceramides (dhCers). DhCers accumulate in Emp1-deficient HSCs and induce protein aggregation. Furthermore,Emp1 deficiency renders HSCs more susceptible to IR,while overexpression of Emp1 or inhibition of CERS2 protects HSCs against IR-induced injury. These findings highlight the critical role played by the EMP1-CERS2-dhCers axis in constraining ER stress and preserving HSC potential. A new study shows EMP1 protects hematopoietic stem cells by suppressing sphingolipid metabolism and ER stress. EMP1 interacts with CERS2 to limit dihydroceramide production,which causes protein aggregation when elevated. 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

Squalene-based emulsion (SE) adjuvants like MF59 and AS03 are used in protein subunit vaccines against influenza virus (e.g.,Fluad,Pandemrix,Arepanrix) and SARS-CoV-2 (e.g.,Covifenz,SKYCovione). We demonstrate the critical role of uric acid (UA),a damage-associated molecular pattern (DAMP),in triggering immunogenicity by SE adjuvants. In mice,SE adjuvants elevated DAMP levels in draining lymph nodes. Strikingly,inhibition of UA synthesis reduced vaccine-induced innate immunity,subsequently impairing optimal antibody and T cell responses. In vivo treatment with UA crystals elicited partial adjuvant effects. In vitro stimulation with UA crystals augmented the activation of dendritic cells (DCs) and B cells and altered multiple pathways in these cells,including inflammation and antigen presentation in DCs and cell proliferation in B cells. In an influenza vaccine model,UA contributed to protection against influenza viral infection. These results demonstrate the importance of DAMPs,specifically the versatile role of UA in the immunogenicity of SE adjuvants,by regulating DCs and B cells. View Publication

Na{\{i}}ve T cell activation in secondary lymphoid organs such as lymph nodes (LNs) occurs upon recognition of cognate antigen presented by antigen presenting cells (APCs). T cell activation requires cytoskeleton rearrangement and sustained interactions with APCs. Enabled/vasodilator-stimulated phosphoprotein (Ena/VASP) proteins are a family of cytoskeletal effector proteins responsible for actin polymerization and are frequently found at the leading edge of motile cells. Ena/VASP proteins have been implicated in motility and adhesion in various cell types but their role in primary T cell interstitial motility and activation has not been explored. Our goal was to determine the contribution of Ena/VASP proteins to T cell-APC interactions T cell activation and T cell expansion in vivo. Our results showed that na{\"{i}}ve T cells from Ena/VASP-deficient mice have a significant reduction in antigen-specific T cell accumulation following Listeria monocytogenes infection. The kinetics of T cell expansion impairment were further confirmed in Ena/VASP-deficient T cells stimulated via dendritic cell immunization. To investigate the cause of this T cell expansion defect we analyzed T cell-APC interactions in vivo by two-photon microscopy and observed fewer Ena/VASP-deficient na{\"{i}}ve T cells interacting with APCs in LNs during priming. We also determined that Ena/VASP-deficient T cells formed conjugates with significantly less actin polymerization at the T cell-APC synapse and that these conjugates were less stable than their WT counterparts. Finally we found that Ena/VASP-deficient T cells have less LFA-1 polarized to the T cell-APC synapse. Thus we conclude that Ena/VASP proteins contribute to T cell actin remodeling during T cell-APC interactions which promotes the initiation of stable T cell conjugates during APC scanning. Therefore Ena/VASP proteins are required for efficient activation and expansion of T cells in vivo." View Publication

Allogeneic T cells are key immune therapeutic cells to fight cancer and other clinical indications. High T cell dose per patient and increasing patient numbers result in clinical demand for a large number of allogeneic T cells. This necessitates a manufacturing platform that can be scaled up while retaining cell quality. Here we present a closed and scalable platform for T cell manufacturing to meet clinical demand. Upstream manufacturing steps of T cell activation and expansion are done in-vessel,in a stirred-tank bioreactor. T cell selection,which is necessary for CAR-T-based therapy,is done in the bioreactor itself,thus maintaining optimal culture conditions through the selection step. Platform's attributes of automation and performing the steps of T cell activation,expansion,and selection in-vessel,greatly contribute to enhancing process control,cell quality,and to the reduction of manual labor and contamination risk. In addition,the viability of integrating a closed,automated,downstream process of cell concentration,is demonstrated. The presented T cell manufacturing platform has scale-up capabilities while preserving key factors of cell quality and process control. View Publication

The putative behavioral effects of the enantiomers of BAY K 8644 and the behavioral responses to (+/-)-BAY K 8644 following chronic injection were assessed on motor function in mice. The interaction of the enantiomers of BAY K 8644 with mouse brain dihydropyridine binding sites was also evaluated. The calcium channel activating enantiomer (-)-S-BAY K 8644 impaired rotarod and motor activity with an ED50 value of 0.5 mg/kg. The calcium channel blocker enantiomer (+)-R-BAY K 8644 neither affected rotarod nor motor activity. (+)-R-BAY K 8644,and the structurally related dihydropyridine calcium channel blockers nifedipine and (-)-202-791 inhibited the impairment of rotarod activity by (-)-S-BAY K 8644 in a dose-dependent manner. (+/-)-BAY K 8644 produced convulsions in mice with a CD50 of 5 mg/kg. Chronic injection of (+/-)-BAY K 8644 (8 mg/kg IP once each day for four days) resulted in a significant tolerance to,and increase in recovery from,the motor deficits produced by (+/-)-BAY K 8644. Furthermore,chronic treatment with (+/-)-BAY K 8644 increased the onset time,but did not reduce the number of mice having convulsions to (+/-)-BAY K 8644. Chronic injection of nifedipine did not affect the motor deficit and convulsive activity of (+/-)-BAY K 8644. The behavioral effects of (+/-)-BAY K 8644 were observed at significant brain levels of drug. [3H]Nitrendipine binding to mouse brain dihydropyridine binding sites was unchanged in mice chronically injected with either (+/-)-BAY K 8644 or nifedipine.(ABSTRACT TRUNCATED AT 250 WORDS) View Publication

BackgroundMale factor infertility (MFI) is responsible for 50% of infertility cases and in 15% of the cases sperm is absent due to germ cell aplasia. Human induced pluripotent stem cell (hiPSC)-derived spermatogonial stem cells (hSSCs) could serve as an autologous germ cell source for MFI in patients with an insufficient sperm yield for assisted reproductive technology (ART). The endocannabinoid system (ECS) has been implicated to play a role in mouse embryonic stem cells (mESCs) and the human testicular environment. However,the contribution of the ECS in hiPSCs and hiPSC-derived hSSCs is currently unknown. Here,we aimed to assess whether hiPSCs and hiPSC-derived hSSCs are regulated by components of the ECS and whether manipulation of the ECS could increase the yield of hiPSC-derived SSCs and serve as an autologous cell-based source for treatment of MFI.MethodsWe reprogrammed human dermal fibroblasts (hDFs) to hiPSCs,induced differentiation of hSSC from hiPSCs and evaluated the presence of ECS ligands (AEA,2-AG) by LC/MS,receptors (CB1R,CB2R,TRPV1,GPR55) by qPCR,flow cytometry and immunofluorescent labeling. We then examined the efficacy of endogenous and synthetic selective ligands (ACPA,CB65,CSP,ML184) on proliferation of hiPSCs using real-time cell analysis (RTCA) and assessed the effects of on CB2R agonism on hiPSC pluripotency and differentiation to hSSCs.ResultshiPSCs from hDFs expressed the pluripotency markers OCT4,SOX2,NANOG,SSEA4 and TRA-1-60; and could be differentiated into ID4+,PLZF?+?hSSCs. hiPSCs and hiPSC-derived hSSCs secreted AEA and 2-AG at 10??10 ??10??9 M levels. Broad expression of all ECS receptors was observed in both hiPSCs and hiPSC-derived hSSCs,with a higher CB2R expression in hSSCs in comparison to hiPSCs. CB2R agonist CB65 promoted proliferation and differentiation of hiPSCs to hiPSC-hSSCs in comparison to AEA,2-AG,ACPA,CSP and ML184. The EC50 of CB65 was determined to be 2.092?×?10??8 M for support of pluripotency and preservation of stemness on hiPSCs from 78 h. CB65 stimulation at EC50 also increased the yield of ID4?+?hSSCs,PLZF?+?SSPCs and SCP3?+?spermatocytes from day 10 to 12.ConclusionsWe demonstrated here for the first time that stimulation of CB2R results in an increased yield of hiPSCs and hiPSC-derived hSSCs. CB65 is a potent CB2R agonist that can be used to increase the yield of hiPSC-derived hSSCs offering an alternative source of autologous male germ cells for patients with MFI. Increasing the male germ/stem cell pool by CB65 supplementation could be part of the ART-associated protocols in MFI patients with complete germ cell aplasia.Supplementary InformationThe online version contains supplementary material available at 10.1186/s40659-025-00596-4. View Publication

We studied the suitability of collagen-based semisolid medium for assay of endogenous erythroid colony formation performed in myeloproliferative disorders. Bone marrow (BM) mononuclear cells (MNC) from 103 patients suspected of having polycythemia vera (PV,76 patients) or essential thrombocythemia (ET,27 patients) were grown in collagen-based,serum-free,cytokine-free semisolid medium. Colony analysis at day 8 or 10 showed that this collagen assay is specific,as endogenous growth of erythroid colonies was never observed in cultures of 16 healthy donors and 6 chronic myelogenous leukemia (CML) patients. Endogenous erythroid colony formation was observed in 53.3% of patients suspected of PV,with only 15.4% of positive cultures for patients with 1 minor PV criterion and 72% (p = 0.009) of positive cultures for patients with textgreater or =2 minor or 1 major PV criterion. Similarly,endogenous growth of erythroid colonies was found in 44.4% of patients suspected of ET,with 31.6% of positive cultures for patients with 1 ET criterion versus 75% for patients with textgreater or =2 ET criteria. In addition,we found that in collagen gels,tests of erythropoietin (EPO) hypersensitivity in the presence of 0.01 or 0.05 U/ml of EPO and tests of endogenous colony-forming units-megakaryocyte (CFU-MK) formation cannot be used to detect PV or ET,as these tests were positive for,respectively,21.4% and 50% of healthy donors and 83% and 50% of CML patients. A retrospective analysis suggests that collagen assays are more sensitive than methylcellulose assays to assess endogenous growth of erythroid colonies. In summary,serum-free collagen-based colony assays are simple and reliable assays of endogenous growth of erythroid colonies in myeloproliferative diseases. They also appear to be more sensitive than methylcellulose-based assays. View Publication

BACKGROUND Alzheimer's disease (AD) is characterized by progressive memory loss and impaired cognitive function. Early-onset familial forms of the disease (FAD) are caused by inheritance of mutant genes encoding presenilin 1 (PS1) variants. We have demonstrated that prion promoter (PrP)-driven expression of human FAD-linked PS1 variants in mice leads to impairments in environmental enrichment (EE)-induced adult hippocampal neural progenitor cell (AHNPC) proliferation and neuronal differentiation,and have provided evidence that accessory cells in the hippocampal niche expressing PS1 variants may modulate AHNPC phenotypes,in vivo. While of significant interest,these latter studies relied on transgenic mice that express human PS1 variant transgenes ubiquitously and at high levels,and the consequences of wild type or mutant PS1 expressed under physiologically relevant levels on EE-mediated AHNPC phenotypes has not yet been tested. RESULTS To assess the impact of mutant PS1 on EE-induced AHNPC phenotypes when expressed under physiological levels,we exposed adult mice that constitutively express the PSEN1 M146V mutation driven by the endogenous PSEN1 promoter (PS1 M146V knock-in" (KI) mice) to standard or EE-housed conditions. We show that in comparison to wild type PS1 mice AHNPCs in mice carrying homozygous (PS1M146V/M146V) or heterozygous (PS1M146V/+) M146V mutant alleles fail to exhibit EE-induced proliferation and commitment towards neurogenic lineages. More importantly we report that the survival of newborn progenitors are diminished in PS1 M146V KI mice exposed to EE-conditions compared to respective EE wild type controls. CONCLUSIONS Our findings reveal that expression at physiological levels achieved by a single PS1 M146V allele is sufficient to impair EE-induced AHNPC proliferation survival and neuronal differentiation in vivo. These results and our finding that microglia expressing a single PS1 M146V allele impairs the proliferation of wild type AHNPCs in vitro argue that expression of mutant PS1 in the AHNPC niche impairs AHNPCs phenotypes in a dominant non-cell autonomous manner. View Publication

Although a number of growth factors have been shown to be involved in neurogenesis,the role of inflammatory cytokines remains relatively unexplored in the normal brain. Here we investigated the effect of interferon gamma (IFNgamma) in the regulation of neural precursor (NP) activity in both the developing and the adult mouse brain. Exogenous IFNgamma inhibited neurosphere formation from the wild-type neonatal and adult subventricular zone (SVZ). More importantly,however,these effects were mirrored in vivo,with mutant mice lacking endogenous IFNgamma displaying enhanced neurogenesis,as demonstrated by an increase in proliferative bromodeoxyuridine-labeled cells in the SVZ and an increased percentage of newborn neurons in the olfactory bulb. Furthermore,NPs isolated from IFNgamma null mice exhibited an increase in self-renewal ability and in the capacity to produce differentiated neurons and oligodendrocytes. These effects resulted from the direct action of IFNgamma on the NPs,as determined by single-cell assays and the fact that nearly all the neurospheres were derived from cells positive for major histocompatibility complex class I antigen,a downstream marker of IFNgamma-mediated activation. Moreover,the inhibitory effect was ameliorated in the presence of SVZ-derived microglia,with their removal resulting in almost complete inhibition of NP proliferation. Interestingly,in contrast to the results obtained in the adult,exogenous IFNgamma treatment stimulated neurosphere formation from the embryonic brain,an effect that was mediated by sonic hedgehog. Together these findings provide the first direct evidence that IFNgamma acts as a regulator of the active NP pool in the non-inflammatory brain. View Publication

Protein kinase CK2 (formerly casein kinase II) is a serine/threonine kinase overexpressed in many human tumors,transformed cell lines,and rapidly proliferating tissues. Recent data have shown that many cancers involve inappropriate reactivation of Wnt signaling through ectopic expression of Wnts themselves,as has been seen in a number of human breast cancers,or through mutation of intermediates in the Wnt pathway,such as adenomatous polyposis coli or beta-catenin,as described in colon and other cancers. Wnts are secreted factors that are important in embryonic development,but overexpression of certain Wnts,such as Wnt-1,leads to proliferation and transformation of cells. We report that upon stable transfection of Wnt-1 into the mouse mammary epithelial cell line C57MG,morphological changes and increased proliferation are accompanied by increased levels of CK2,as well as of beta-catenin. CK2 and beta-catenin co-precipitate with the Dvl proteins,which are Wnt signaling intermediates. A major phosphoprotein of the size of beta-catenin appears in in vitro kinase reactions performed on the Dvl immunoprecipitates. In vitro translated beta-catenin,Dvl-2,and Dvl-3 are phosphorylated by CK2. The selective CK2 inhibitor apigenin blocks proliferation of Wnt-1-transfected cells,abrogates phosphorylation of beta-catenin,and reduces beta-catenin and Dvl protein levels. These results demonstrate that endogenous CK2 is a positive regulator of Wnt signaling and growth of mammary epithelial cells. View Publication

Endoglin is an accessory receptor for TGF-beta signaling and is required for normal hemangioblast,early hematopoietic,and vascular development. We have previously shown that an upstream enhancer,Eng -8,together with the promoter region,mediates robust endothelial expression yet is inactive in blood. To identify hematopoietic regulatory elements,we used array-based methods to determine chromatin accessibility across the entire locus. Subsequent transgenic analysis of candidate elements showed that an endothelial enhancer at Eng +9 when combined with an element at Eng +7 functions as a strong hemato-endothelial enhancer. Chromatin immunoprecipitation (ChIP)-chip analysis demonstrated specific binding of Ets factors to the promoter as well as to the -8,+7+9 enhancers in both blood and endothelial cells. By contrast Pu.1,an Ets factor specific to the blood lineage,and Gata2 binding was only detected in blood. Gata2 was bound only at +7 and GATA motifs were required for hematopoietic activity. This modular assembly of regulators gives blood and endothelial cells the regulatory freedom to independently fine-tune gene expression and emphasizes the role of regulatory divergence in driving functional divergence. View Publication