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

Klotho,a well-known aging suppressor protein,has been implicated in neuroprotection and the regulation of neuronal senescence. While previous studies have demonstrated its anti-aging properties in human brain organoids,its potential to mitigate neurodegenerative processes triggered by ?-amyloid remains underexplored. In this study,we utilised human induced pluripotent stem cells (iPSCs) engineered with a doxycycline-inducible system to overexpress KLOTHO and generated 2D cortical neuron cultures from these cells. These neurons were next exposed to pre-aggregated ?-amyloid 1–42 oligomers to model the neurotoxicity associated with Alzheimer’s disease. Our data reveal that upregulation of KLOTHO significantly reduced ?-amyloid-induced neuronal degeneration and apoptosis,as evidenced by decreased cleaved caspase-3 expression and preservation of axonal integrity. Additionally,KLOTHO overexpression prevented the loss of dendritic branching and mitigated reductions in axonal diameter,hallmark features of neurodegenerative pathology. These results highlight Klotho’s protective role against ?-amyloid-induced neurotoxicity in human cortical neurons and suggest that its age-related decline may contribute to neurodegenerative diseases such as Alzheimer’s disease. Our findings underscore the therapeutic potential of Klotho-based interventions in mitigating age-associated neurodegenerative processes.Supplementary InformationThe online version contains supplementary material available at 10.1186/s13041-025-01199-6. View Publication

BackgroundAmyloid-beta (A?) plaques and their associated glial responses are hallmark features of Alzheimer’s disease (AD),yet their interactions within the human brain remain poorly defined.MethodsWe applied spatial transcriptomics (ST) and immunohistochemistry (IHC) to 78 postmortem brain sections from 21 individuals in the Religious Orders Study and Memory and Aging Project (ROSMAP). We paired ST with histological data and stratified spots into major categories of plaque-glia niches based on A?,GFAP,and IBA1 intensity. Leveraging published ROSMAP single-nucleus RNA-seq data,we examined differences in gene expression,cellular composition,and intercellular communication across these niches. Neuronal and glial changes were validated by IHC and quantitative analyses. We further characterized glial responses using gene set enrichment analysis (GSEA) with known mouse glial signatures and human AD-associated microglial states. Finally,we used iPSC-derived multicellular cultures and single-cell RNA sequencing (scRNA-seq) to identify cell types that,upon short-term A? exposure,recapitulate the glial responses observed in the human spatial data.ResultsLow-A? regions,enriched for diffuse plaques,exhibited transcriptomic profiles consistent with greater neuronal loss than high-A? regions. High-glia regions showed increased expression of inflammatory and neurodegenerative pathways. Spatial glial responses aligned with established gene modules,including plaque-induced genes (PIGs),oligodendrocyte (OLIG) responses,disease-associated microglia (DAM),disease-associated astrocytes (DAA),and human AD-associated microglial states,indicating that diverse glial phenotypes emerge around plaques and shape the local immune environment. IHC confirmed elevated neuronal apoptosis near low-A? plaques and greater CD68 abundance and synaptic loss near glia-high plaques. In vitro,iPSC-derived microglia—but not astrocytes—exposed to A? displayed transcriptomic changes that closely mirrored the glial states identified in our ST dataset.ConclusionsOur study provides a comprehensive spatial transcriptomic dataset from human AD brain tissue and bridges spatial gene expression with traditional neuropathology. By integrating ST,snRNA-seq,and human multicellular models,we map cellular states and molecular events within plaque-glia niches. This work offers a spatially resolved framework for dissecting plaque-glia interactions and reveals new insights into the cellular and molecular heterogeneity underlying neurodegenerative pathology.Supplementary InformationThe online version contains supplementary material available at 10.1186/s44477-025-00002-z. View Publication

Human induced pluripotent stem cell (hiPSC) derived neurons are powerful tools to model disease biology in the drug development space. Here we leveraged a spectrum of neurophysiological tools to characterize iPSC-derived NGN2 neurons. Specifically,we applied these technologies to detect phenotypes associated with presynaptic dysfunction and rescue in NGN2 neurons lacking a synaptic vesicle associated protein MUNC18-1,encoded by syntaxin binding protein 1 gene (STXBP1). STXBP1 homozygous knock out NGN2 neurons lacked miniature post synaptic currents and demonstrated disrupted network bursting as assayed with multielectrode array and calcium imaging. Furthermore,knock out neurons released less glutamate into culture media,consistent with a presynaptic deficit. These synaptic phenotypes were rescued by reconstitution of STXBP1 protein by AAV transduction in a dose-dependent manner. Our results identify a complementary suite of physiological methods suitable to examine the modulation of synaptic transmission in human neurons. View Publication

BACKGROUND Evaluation of cystic fibrosis transmembrane conductance regulator (CFTR) functional activity to assess new therapies and define diagnosis of cystic fibrosis (CF) is cumbersome. It is known that leukocytes express detectable levels of CFTR but the molecule has not been characterized in these cells. In this study we aim at setting up and validating a blood test to evaluate CFTR expression and function in leukocytes. DESCRIPTION Western blot,PCR,immunofluorescence and cell membrane depolarization analysis by single-cell fluorescence imaging,using the potential-sensitive DiSBAC(2)(3) probe were utilized. Expression of PKA phosphorylated,cell membrane-localized CFTR was detected in non-CF monocytes,being undetectable or present in truncated form in monocytes derived from CF patients presenting with nonsense mutations. CFTR agonist administration induced membrane depolarization in monocytes isolated from non-CF donors (31 subjects) and,to a lesser extent,obligate CFTR heterozygous carriers (HTZ: 15 subjects),but it failed in monocytes from CF patients (44 subjects). We propose an index,which values in CF patients are significantly (ptextless0.001) lower than in the other two groups. Nasal Potential Difference,measured in selected subjects had concordant results with monocytes assay (Kappa statistic 0.93,95%CI: 0.80-1.00). RESULTS AND SIGNIFICANCE CFTR is detectable and is functional in human monocytes. We also showed that CFTR-associated activity can be evaluated in 5 ml of peripheral blood and devise an index potentially applicable for diagnostic purposes and both basic and translational research: from drug development to evaluation of functional outcomes in clinical trials. View Publication

OBJECTIVES: Sustained suppression of plasma viremia in HIV-infected individuals is attainable with antiretroviral therapy (ART); however,eradication of virus that would allow discontinuation of ART has been hampered by the persistence of HIV reservoirs. It is of great interest to identify individuals who had received ART for prolonged periods of time with extremely low or undetectable HIV reservoirs and monitor plasma viremia following discontinuation of therapy. METHODS: We measured the size of HIV reservoirs in CD4(+) T cells of individuals on long-term ART and monitored plasma viremia following cessation of ART in one individual with an exceptionally low viral burden after a decade of therapy. RESULTS: We demonstrated undetectable levels of HIV DNA in the blood of eight of 45 infected individuals on long-term ART. Among those eight individuals,the frequency of cells carrying infectious virus was significantly lower in those who initiated ART during the early versus the chronic phase of infection. One individual with undetectable HIV DNA in both blood and tissue and a profoundly low level of infectious virus experienced plasma viral rebound 50 days following discontinuation of ART. CONCLUSIONS: Our data suggest that a significant reduction in the size of viral reservoirs may be achievable in selected individuals who initiate standard ART early in infection. However,given re-emergence of plasma viremia in an individual with an extraordinarily low viral burden,therapeutic strategies aimed at specifically targeting these extremely rare HIV-infected cells with novel interventions may be necessary in order to achieve eradication of virus. View Publication

BACKGROUND Therapies targeting certain CFTR mutants have been approved,yet variations in clinical response highlight the need for in-vitro and genetic tools that predict patient-specific clinical outcomes. Toward this goal,the CF Canada-Sick Kids Program in Individual CF Therapy (CFIT) is generating a first of its kind" View Publication

DNA methyltransferase inhibitors represent promising new drugs for cancer therapies. The first of these compounds (5-azacytidine,Vidaza) has recently been approved as an antitumor agent,and others are presently in various stages of their preclinical or clinical development. Most of the archetypal inhibitors have been established and characterized in different experimental systems,which has thus far precluded their direct comparison. We have now established defined experimental conditions that allowed a comparative analysis of the six most widely known DNA methyltransferase inhibitors: 5-azacytidine (5-aza-CR),5-aza-2'-deoxycytidine (5-aza-CdR),zebularine,procaine,(-)-epigallocatechin-3-gallate (EGCG),and RG108. Of these,5-aza-CR,5-aza-CdR,zebularine,and EGCG were found to exhibit significant cytotoxicity in human cancer cell lines. 5-aza-CdR and EGCG were also found to be genotoxic,as evidenced by the induction of micronuclei. In addition,5-aza-CR,5-aza-CdR,zebularine,and RG108 caused concentration-dependent demethylation of genomic DNA,whereas procaine and EGCG failed to induce significant effects. Finally,the experiments in cancer cell lines were complemented by a cell-free in vitro assay with purified recombinant DNA methyltransferase,which indicated that RG108 is the only drug capable of direct enzyme inhibition. These results show a substantial diversity in the molecular activities of DNA methyltransferase inhibitors and provide valuable insights into the developmental potential of individual drugs. View Publication

Given their self-renewing and pluripotent capabilities,human embryonic stem cells (hESCs) are well poised as a cellular source for tissue regeneration therapy. However,the host immune response against transplanted hESCs is not well characterized. In fact,controversy remains as to whether hESCs have immune-privileged properties. To address this issue,we used in vivo bioluminescent imaging to track the fate of transplanted hESCs stably transduced with a double-fusion reporter gene consisting of firefly luciferase and enhanced GFP. We show that survival after transplant is significantly limited in immunocompetent as opposed to immunodeficient mice. Repeated transplantation of hESCs into immunocompetent hosts results in accelerated hESC death,suggesting an adaptive donor-specific immune response. Our data demonstrate that transplanted hESCs trigger robust cellular and humoral immune responses,resulting in intragraft infiltration of inflammatory cells and subsequent hESC rejection. Moreover,we have found CD4(+) T cells to be an important modulator of hESC immune-mediated rejection. Finally,we show that immunosuppressive drug regimens can mitigate the anti-hESC immune response and that a regimen of combined tacrolimus and sirolimus therapies significantly prolongs survival of hESCs for up to 28 days. Taken together,these data suggest that hESCs are immunogenic,trigger both cellular and humoral-mediated pathways,and,as a result,are rapidly rejected in xenogeneic hosts. This process can be mitigated by a combined immunosuppressive regimen as assessed by molecular imaging approaches. View Publication

Rett syndrome (RTT) is a postnatal neurodevelopmental disorder that primarily affects girls. Mutations in the methyl-CpG-binding protein 2 (MECP2) gene account for approximately 95 % of all RTT cases. To model RTT in vitro,we generated induced pluripotent stem cells (iPSCs) from fibroblasts of two RTT patients with different mutations (MECP2 (R306C) and MECP2 (1155$$32)) in their MECP2 gene. We found that these iPSCs were capable of differentiating into functional neurons. Compared to control neurons,the RTT iPSC-derived cells had reduced soma size and a decreased amount of synaptic input,evident both as fewer Synapsin 1-positive puncta and a lower frequency of spontaneous excitatory postsynaptic currents. Supplementation of the culture media with choline rescued all of these defects. Choline supplementation may act through changes in the expression of choline acetyltransferase,an important enzyme in cholinergic signaling,and also through alterations in the lipid metabolite profiles of the RTT neurons. Our study elucidates the possible mechanistic pathways for the effect of choline on human RTT cell models,thereby illustrating the potential for using choline as a nutraceutical to treat RTT. View Publication

Photoreceptor degeneration due to retinitis pigmentosa (RP) is a primary cause of inherited retinal blindness. Photoreceptor cell-replacement may hold the potential for repair in a completely degenerate retina by reinstating light sensitive cells to form connections that relay information to downstream retinal layers. This study assessed the therapeutic potential of photoreceptor progenitors derived from human embryonic and induced pluripotent stem cells (ESCs and iPSCs) using a protocol that is suitable for future clinical trials. ESCs and iPSCs were cultured in four specific stages under defined conditions,resulting in generation of a near-homogeneous population of photoreceptor-like progenitors. Following transplantation into mice with end-stage retinal degeneration,these cells differentiated into photoreceptors and formed a cell layer connected with host retinal neurons. Visual function was partially restored in treated animals,as evidenced by two visual behavioral tests. Furthermore,the magnitude of functional improvement was positively correlated with the number of engrafted cells. Similar efficacy was observed using either ESCs or iPSCs as source material. These data validate the potential of human pluripotent stem cells for photoreceptor replacement therapies aimed at photoreceptor regeneration in retinal disease. View Publication

Human NK cell deficiencies are rare yet result in severe and often fatal disease,particularly as a result of viral susceptibility. NK cells develop from hematopoietic stem cells,and few monogenic errors that specifically interrupt NK cell development have been reported. Here we have described biallelic mutations in IRF8,which encodes an interferon regulatory factor,as a cause of familial NK cell deficiency that results in fatal and severe viral disease. Compound heterozygous or homozygous mutations in IRF8 in 3 unrelated families resulted in a paucity of mature CD56dim NK cells and an increase in the frequency of the immature CD56bright NK cells,and this impairment in terminal maturation was also observed in Irf8-/-,but not Irf8+/-,mice. We then determined that impaired maturation was NK cell intrinsic,and gene expression analysis of human NK cell developmental subsets showed that multiple genes were dysregulated by IRF8 mutation. The phenotype was accompanied by deficient NK cell function and was stable over time. Together,these data indicate that human NK cells require IRF8 for development and functional maturation and that dysregulation of this function results in severe human disease,thereby emphasizing a critical role for NK cells in human antiviral defense. View Publication

Monocytes and macrophages are often claimed to have limited potential for proliferation in vivo and in vitro although a human monocyte subset with increased potential to proliferate in culture,termed the proliferative monocyte (PM),has previously been identified. The response of the putatively less mature PM to conditions conducive to haematopoietic stem cell culture was determined. Co-culture of monocytes on a HUVEC monolayer induced up to four cell divisions in a 9 day period. The PM response to haematopoietic growth factors (Flt3L,SCF,IL-6,IL-3 and M-CSF) was determined. M-CSF induced the greatest proliferative response in PM; IL-3 and Flt3L reduced basal and M-CSF-induced proliferation. The inhibition of M-CSFR kinase activity by GW2580 indicated that the ligand(s) for this receptor was a potent inducer of proliferation of this subset; inhibitors of intracellular signalling pathways also reduced PM proliferation. View Publication