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

Johnson,Ogishi,and Domingo-Vila et al. describe two siblings with inherited PD-L1 deficiency. Human PD-L1 deficiency underlies early-onset T1D,like PD-1 deficiency,but does not lead to fatal autoimmunity with extensive leukocytic dysregulation,unlike PD-1 deficiency. View Publication

Prenatal nicotine exposure impairs fetal cortical grey matter volume,but the precise cellular mechanisms remain poorly understood. This study elucidates the role of nicotinic acetylcholine receptors (nAChRs) in progenitor cells and radial glia (RG) during human cortical development. We identify two nAChR subunits—CHRNA7 and the human-specific CHRFAM7A—expressed in SOX2+ progenitors and neurons,with CHRFAM7A particularly enriched along RG endfeet. nAChR activation in organotypic slices and dissociated cultures increases RG proliferation while decreasing neuronal differentiation,whereas nAChR knockdown reduces RG and increases neurons. Single-cell RNA sequencing reveals that nicotine exposure downregulates key genes in excitatory neurons (ENs),with CHRNA7 or CHRFAM7A selectively modulating these changes,suggesting an evolutionary divergence in regulatory pathways. Furthermore,we identify YAP1 as a critical downstream effector of nAChR signaling,and inhibiting YAP1 reverses nicotine-induced phenotypic alterations in oRG cells,highlighting its role in nicotine-induced neurodevelopmental pathophysiology. Subject terms: Neuronal development,Developmental neurogenesis,Neural stem cells View Publication

The cerebellum plays a critical role in all vertebrates,and many neurological disorders are associated with cerebellum dysfunction. A major limitation in cerebellar research has been the lack of adequate disease models. As an alternative to animal models,cerebellar neurons differentiated from pluripotent stem cells have been used. However,previous studies only produced limited amounts of Purkinje cells. Moreover,in vitro generation of Purkinje cells required co-culture systems,which may introduce unknown components to the system. Here we describe a novel differentiation strategy that uses defined medium to generate Purkinje cells,granule cells,interneurons,and deep cerebellar nuclei projection neurons,that self-formed and differentiated into electrically active cells. Using a defined basal medium optimized for neuronal cell culture,we successfully promoted the differentiation of cerebellar precursors without the need for co-culturing. We anticipate that our findings may help developing better models for the study of cerebellar dysfunctions,while providing an advance toward the development of autologous replacement strategies for treating cerebellar degenerative diseases. View Publication

The pulmonary system is comprised of two main compartments,airways and alveolar space. Their tissue and cellular complexity ensure lung function and protection from external agents,for example,virus. Two-dimensional (2D) in vitro systems and animal models have been largely employed to elucidate the molecular mechanisms underlying human lung development,physiology,and pathogenesis. However,neither of these models accurately recapitulate the human lung environment and cellular crosstalk. More recently,human-derived three-dimensional (3D) models have been generated allowing for a deeper understanding of cell-to-cell communication. However,the availability and accessibility of primary human cell sources from which generate the 2D and 3D models may be limited. In the past few years,protocols have been developed to successfully employ human pluripotent stem cells (hPSCs) and differentiate them toward pulmonary fate in vitro. In the present review,we discuss the advantages and pitfalls of hPSC-derived lung 2D and 3D models,including the main characteristics and potentials for these models and their current and future applications for modeling development and diseases. Lung organoids currently represent the closest model to the human pulmonary system. We further focus on the applications of lung organoids for the study of human diseases such as pulmonary fibrosis,infectious diseases,and lung cancer. Finally,we discuss the present limitations and potential future applications of 3D lung organoids. This article is categorized under: Adult Stem Cells,Tissue Renewal,and Regeneration {\textgreater} Stem Cells and Disease Adult Stem Cells,Tissue Renewal,and Regeneration {\textgreater} Stem Cell Differentiation and Reversion. View Publication

Cutaneous tuberculosis (CTB) is an infectious disease highly associated with extracellular matrix remodeling and granuloma-driven fibrosis. Fibroblasts play crucial roles in this fibrotic process,but their specific roles in Mycobacterium tuberculosis (Mtb) skin infections remain unclear due to the lack of proper in vitro models. Here,we demonstrate that skin organoids (SKOs) derived from human induced pluripotent stem cells can model CTB infected by Mtb. Single-cell RNA analyses reveal an increase in fibroblasts,upregulation of genes involved in collagen synthesis,and enhanced collagen degradation induced by MMP2 and MMP14 in Mtb-infected SKOs. This is accompanied by the destruction of nerve cells and adipocytes. Importantly,the onset of fibrosis in Mtb-infected SKOs is dependent on the activation of the PI3K-AKT signaling pathway and transcription factor AP1 in fibroblasts. Pharmacological inhibition of PI3K-AKT and AP1 alleviates fibrosis and collagen deposition. Our findings have uncovered distinct alterations in cell populations during Mtb-induced skin fibrosis,highlighting the crucial roles of PI3K-AKT and AP1. The study demonstrates the utility of SKOs for investigating CTB pathogenesis and evaluating potential antifibrotic treatments. Cutaneous tuberculosis is an infectious disease associated with extracellular matrix remodeling and granuloma-driven fibrosis. Here,the authors present an in vitro model of this disease using skin organoids infected with Mycobacterium tuberculosis,and describe infection-induced alterations in specific pathways and cell populations. View Publication

The derivation of induced pluripotent stem cells (iPSCs) usually involves the viral introduction of reprogramming factors into somatic cells. Here we used gene targeting to generate a mouse strain with a single copy of an inducible,polycistronic reprogramming cassette,allowing for the induction of pluripotency in various somatic cell types. As these 'reprogrammable mice' can be easily bred,they are a useful tool to study the mechanisms underlying cellular reprogramming. View Publication

Elucidation of the cellular and molecular mechanisms that maintain mammary epithelial tissue integrity is of broad interest and paramount to the design of more effective treatments for breast cancer. Evidence from both in vitro and in vivo experiments suggests that mammary cell differentiation is a hierarchical process originating in an uncommitted stem cell with self-renewal potential. However,analysis of the properties and regulation of mammary stem cells has been limited by a lack of methods for their prospective isolation. Here we report the use of multi-parameter cell sorting and limiting dilution transplant analysis to demonstrate the purification of a rare subset of adult mouse mammary cells that are able individually to regenerate an entire mammary gland within 6 weeks in vivo while simultaneously executing up to ten symmetrical self-renewal divisions. These mammary stem cells are phenotypically distinct from and give rise to mammary epithelial progenitor cells that produce adherent colonies in vitro. The mammary stem cells are also a rapidly cycling population in the normal adult and have molecular features indicative of a basal position in the mammary epithelium. View Publication

Pig induced pluripotent stem cells (piPSCs) offer a great opportunity and a number of advantages in the generation of transgenic animals. These immortalized cells can undergo multiple rounds of genetic modifications (e.g.,gene knock-in,knockout) and selection leading to animals that have optimized traits of biomedical or agricultural interests. In this chapter we describe the production and characterization of piPSCs,microinjection of piPSCs into embryos,embryo transfer and production of chimeric animals based on successful protocols. View Publication