A. Huber et al. (Jan 2023)
STAR protocols 4 102076
Generation of gene-of-interest knockouts in murine organoids using CRISPR-Cas9.
Gene-of-interest knockout organoids present a powerful and versatile research tool to study a gene's effects on many biological and pathological processes. Here,we present a straightforward and broadly applicable protocol to generate gene knockouts in mouse organoids using CRISPR-Cas9 technology. We describe the processes of transient transfecting organoids with pre-assembled CRISPR-Cas9 ribonucleoprotein complexes,organoid cell sorting,and establishing clonal organoid culture pairs. We then detail how to confirm the knockout via Western blot analysis.
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产品号#:
06005
产品名:
IntestiCult™ 类器官生长培养基 (小鼠)
A. Stern et al. (Apr 2022)
SLAS Discovery 27 201-208
The CellRaft AIR? system: A novel system enabling organoid imaging, identification, and isolation
Three-dimensional (3D) culture systems have been developed that can re-capitulate organ level responses,simulate compound diffusion through complex structures,and assess cellular heterogeneity of tissues,making them attractive models for advanced in vitro research and discovery. Organoids are a unique subtype of 3D cell culture that are grown from stem cells,are self-organizing,and closely replicate in vivo pathophysiology. Organoids have been used to understand tissue development,model diseases,test drug sensitivity and toxicity,and advance regenerative medicine. However,traditional organoid culture methods are inadequate because they are low throughput and ill-suited for single organoid imaging,phenotypic assessment,and isolation from heterogenous organoid populations. To address these bottlenecks,we have adapted our tissue culture consumable and instrumentation to enable automated imaging,identification,and isolation of individual organoids. Organoids grown on the 3D CytoSort? Array can be reliably tracked,imaged,and phenotypically analyzed using brightfield and fluorescent microscopy as they grow over time,then released and transferred fully intact for use in downstream applications. Using mouse hepatic and pancreatic organoids,we have demonstrated the use of this technology for single-organoid imaging,clonal organoid generation,parent organoid subcloning,and single-organoid RNA extraction for downstream gene expression or transcriptomic analysis. The results validate the ability of the CellRaft AIR? System to facilitate efficient,user-friendly,and automated workflows broadly applicable to organoid research by overcoming several pain points: 1) single organoid time-course imaging and phenotypic assessment,2) establishment of single cell-derived organoids,and 3) isolation and retrieval of single organoids for downstream applications.
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产品号#:
06030
06040
产品名:
HepatiCult™ 类器官生长培养基 (小鼠)
PancreaCult™类器官生长培养基(小鼠)
Wang Y et al. (MAR 2017)
Mucosal immunology 10 2 373--384
An LGG-derived protein promotes IgA production through upregulation of APRIL expression in intestinal epithelial cells.
p40,a Lactobacillus rhamnosus GG (LGG)-derived protein,transactivates epidermal growth factor receptor (EGFR) in intestinal epithelial cells,leading to amelioration of intestinal injury and inflammation. To elucidate mechanisms by which p40 regulates mucosal immunity to prevent inflammation,this study aimed to determine the effects and mechanisms of p40 on regulation of a proliferation-inducing ligand (APRIL) expression in intestinal epithelial cells for promoting immunoglobulin A (IgA) production. p40 upregulated April gene expression and protein production in mouse small intestine epithelial (MSIE) cells,which were inhibited by blocking EGFR expression and kinase activity. Enteroids from Egfr(fl/fl),but not Egfr(fl/fl)-Vil-Cre mice with EGFR specifically deleted in intestinal epithelial cells,exhibited increased April gene expression by p40 treatment. p40-conditioned media from MSIE cells increased B-cell class switching to IgA(+) cells and IgA production,which was suppressed by APRIL receptor-neutralizing antibodies. Treatment of B cells with p40 did not show any effects on IgA production. p40 treatment increased April gene expression and protein production in small intestinal epithelial cells,fecal IgA levels,IgA(+)B220(+),IgA(+)CD19(+),and IgA(+) plasma cells in lamina propria of Egfr(fl/fl),but not of Egfr(fl/fl)-Vil-Cre,mice. Thus p40 upregulates EGFR-dependent APRIL production in intestinal epithelial cells,which may contribute to promoting IgA production.
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产品号#:
06005
产品名:
IntestiCult™ 类器官生长培养基 (小鼠)
Ibiza S et al. (JUL 2016)
Nature 535 7612 440--443
Glial-cell-derived neuroregulators control type 3 innate lymphoid cells and gut defence.
Group 3 innate lymphoid cells (ILC3) are major regulators of inflammation and infection at mucosal barriers. ILC3 development is thought to be programmed,but how ILC3 perceive,integrate and respond to local environmental signals remains unclear. Here we show that ILC3 in mice sense their environment and control gut defence as part of a glial"ILC3"epithelial cell unit orchestrated by neurotrophic factors. We found that enteric ILC3 express the neuroregulatory receptor RET. ILC3-autonomous Ret ablation led to decreased innate interleukin-22 (IL-22),impaired epithelial reactivity,dysbiosis and increased susceptibility to bowel inflammation and infection. Neurotrophic factors directly controlled innate Il22 downstream of the p38 MAPK/ERK-AKT cascade and STAT3 activation. Notably,ILC3 were adjacent to neurotrophic-factor-expressing glial cells that exhibited stellate-shaped projections into ILC3 aggregates. Glial cells sensed microenvironmental cues in a MYD88-dependent manner to control neurotrophic factors and innate IL-22. Accordingly,glial-intrinsic Myd88 deletion led to impaired production of ILC3-derived IL-22 and a pronounced propensity towards gut inflammation and infection. Our work sheds light on a novel multi-tissue defence unit,revealing that glial cells are central hubs of neuron and innate immune regulation by neurotrophic factor signals.
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产品号#:
06005
产品名:
IntestiCult™ 类器官生长培养基 (小鼠)
Saxena A et al. (JUL 2017)
American journal of physiology. Gastrointestinal and liver physiology 313 1 G26--G38
Absence of the NOD2 protein renders epithelia more susceptible to barrier dysfunction due to mitochondrial dysfunction.
Irregular mitochondria structure and reduced ATP in some patients with IBD suggest that metabolic stress contributes to disease. Loss-of-function mutation in the nucleotide-binding oligomerization domain (NOD)-2 gene is a major susceptibility trait for IBD. Hence,we assessed if loss of NOD2 further impairs the epithelial barrier function instigated by disruption of mitochondrial ATP synthesis via the hydrogen ionophore dinitrophenol (DNP). NOD2 protein (virtually undetectable in epithelia under basal conditions) was increased in T84 (human colon cell line) cells treated with noninvasive Escherichia coli + DNP (16 h). Increased intracellular bacteria in wild-type (WT) and NOD2 knockdown (KD) cells and colonoids from NOD2(-/-) mice were mediated by reactive oxygen species (ROS) and the MAPK ERK1/2 pathways as determined by cotreatment with the antioxidant mitoTEMPO and the ERK inhibitor U0126: ROS was upstream of ERK1/2 activation. Despite increased E. coli in DNP-treated NOD2 KD compared with WT cells,there were no differences in the internalization of fluorescent inert beads or dead E. coli particles. This suggests that lack of killing in the NOD2 KD cells was responsible for the increased numbers of viable intracellular bacteria; a conclusion supported by evidence of reduced autophagy in NOD2 KD T84 epithelia. Thus,in a two-hit hypothesis,decreased barrier function due to dysfunctional mitochondrial is amplified by lack of NOD2 in transporting enterocytes: subsequently,greater numbers of bacteria entering the mucosa would be a significant inflammatory threat especially since individuals with NOD2 mutations have compromised macrophage and Paneth cell responses to bacteria.NEW & NOTEWORTHY Increased internalization of bacteria by epithelia with dysfunctional mitochondria (reduced ATP) is potentiated if the cells lack nucleotide-binding oligomerization domain 2 (NOD2),mutations in which are inflammatory bowel disease-susceptibility traits. Uptake of bacteria was dependent on reactive oxygen species and MAP-kinase activity,and the increased viable intracellular bacteria in NOD2(-/-) cells likely reflect a reduced ability to recognize and kill bacteria. Thus a significant barrier defect occurs with NOD2 deficiency in conjunction with metabolic stress that could contribute to inflammation.
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产品号#:
06005
产品名:
IntestiCult™ 类器官生长培养基 (小鼠)
Ishikawa S et al. ( 2017)
Respiratory Research 18 1 1--11
A 3D epithelial-mesenchymal co-culture model of human bronchial tissue recapitulates multiple features of airway tissue remodeling by TGF-β1 treatment
BACKGROUND: The collagen gel contraction assay measures gel size to assess the contraction of cells embedded in collagen gel matrices. Using the assay with lung fibroblasts is useful in studying the lung tissue remodeling process in wound healing and disease development. However,the involvement of bronchial epithelial cells in this process should also be investigated. METHODS: We applied a layer of mucociliary differentiated bronchial epithelial cells onto collagen gel matrices with lung fibroblasts. This co-culture model enables direct contact between epithelial and mesenchymal cells. We stimulated the culture with transforming growth factor (TGF) beta1 as an inducer of tissue remodeling for 21 days,and measured gel size,histological changes,and expression of factors related to extracellular matrix homeostasis. RESULTS: TGF-beta1 exerted a concentration-dependent effect on collagen gel contraction and on contractile myofibroblasts in the mesenchymal collagen layer. TGF-beta1 also induced expression of the mesenchymal marker vimentin in the basal layer of the epithelium,suggesting the induction of epithelial-mesenchymal transition. In addition,the expression of various genes encoding extracellular matrix proteins was upregulated. Fibrotic tenascin-C accumulated in the sub-epithelial region of the co-culture model. CONCLUSION: Our findings indicate that TGF-beta1 can affect both epithelial and mesenchymal cells,and induce gel contraction and structural changes. Our novel in vitro co-culture model will be a useful tool for investigating the roles of epithelial cells,fibroblasts,and their interactions in the airway remodeling process.
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Efficient Derivation of Functional Human Airway Epithelium from Pluripotent Stem Cells via Temporal Regulation of Wnt Signaling.
Effective derivation of functional airway organoids from induced pluripotent stem cells (iPSCs) would provide valuable models of lung disease and facilitate precision therapies for airway disorders such as cystic fibrosis. However,limited understanding of human airway patterning has made this goal challenging. Here,we show that cyclical modulation of the canonical Wnt signaling pathway enables rapid directed differentiation of human iPSCs via an NKX2-1+progenitor intermediate into functional proximal airway organoids. We find that human NKX2-1+progenitors have high levels of Wnt activation but respond intrinsically to decreases in Wnt signaling by rapidly patterning into proximal airway lineages at the expense of distal fates. Using this directed approach,we were able to generate cystic fibrosis patient-specific iPSC-derived airway organoids with a defect in forskolin-induced swelling that is rescued by gene editing to correct the disease mutation. Our approach has many potential applications in modeling and drug screening for airway diseases.
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产品号#:
05001
05021
05022
产品名:
PneumaCult™-ALI 培养基
PneumaCult™-ALI 培养基含12 mm Transwell®插件
PneumaCult™-ALI 培养基含6.5 mm Transwell®插件
Shikotra A et al. ( 2017)
Journal of immunology (Baltimore,Md. : 1950) 198 8 3307--3317
A CEACAM6-High Airway Neutrophil Phenotype and CEACAM6-High Epithelial Cells Are Features of Severe Asthma.
Severe asthma represents a major unmet clinical need; understanding the pathophysiology is essential for the development of new therapies. Using microarray analysis,we previously found three immunological clusters in asthma: Th2-high,Th17-high,and Th2/17-low. Although new therapies are emerging for Th2-high disease,identifying molecular pathways in Th2-low disease remains an important goal. Further interrogation of our previously described microarray dataset revealed upregulation of gene expression for carcinoembryonic Ag cell adhesion molecule (CEACAM) family members in the bronchi of patients with severe asthma. Our aim was therefore to explore the distribution and cellular localization of CEACAM6 using immunohistochemistry on bronchial biopsy tissue obtained from patients with mild-to-severe asthma and healthy control subjects. Human bronchial epithelial cells were used to investigate cytokine and corticosteroid in vitro regulation of CEACAM6 gene expression. CEACAM6 protein expression in bronchial biopsies was increased in airway epithelial cells and lamina propria inflammatory cells in severe asthma compared with healthy control subjects. CEACAM6 in the lamina propria was localized to neutrophils predominantly. Neutrophil density in the bronchial mucosa was similar across health and the spectrum of asthma severity,but the percentage of neutrophils expressing CEACAM6 was significantly increased in severe asthma,suggesting the presence of an altered neutrophil phenotype. CEACAM6 gene expression in cultured epithelial cells was upregulated by wounding and neutrophil elastase. In summary,CEACAM6 expression is increased in severe asthma and primarily associated with airway epithelial cells and tissue neutrophils. CEACAM6 may contribute to the pathology of treatment-resistant asthma via neutrophil and airway epithelial cell-dependent pathways.
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产品号#:
05001
05021
05022
产品名:
PneumaCult™-ALI 培养基
PneumaCult™-ALI 培养基含12 mm Transwell®插件
PneumaCult™-ALI 培养基含6.5 mm Transwell®插件
Zhou T et al. (JUL 2017)
Cell stem cell
High-Content Screening in hPSC-Neural Progenitors Identifies Drug Candidates that Inhibit Zika Virus Infection in Fetal-like Organoids and Adult Brain.
Zika virus (ZIKV) infects fetal and adult human brain and is associated with serious neurological complications. To date,no therapeutic treatment is available to treat ZIKV-infected patients. We performed a high-content chemical screen using human pluripotent stem cell-derived cortical neural progenitor cells (hNPCs) and found that hippeastrine hydrobromide (HH) and amodiaquine dihydrochloride dihydrate (AQ) can inhibit ZIKV infection in hNPCs. Further validation showed that HH also rescues ZIKV-induced growth and differentiation defects in hNPCs and human fetal-like forebrain organoids. Finally,HH and AQ inhibit ZIKV infection in adult mouse brain in vivo. Strikingly,HH suppresses viral propagation when administered to adult mice with active ZIKV infection,highlighting its therapeutic potential. Our approach highlights the power of stem cell-based screens and validation in human forebrain organoids and mouse models in identifying drug candidates for treating ZIKV infection and related neurological complications in fetal and adult patients.
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产品号#:
产品名:
Barkal LJ et al. ( 2017)
Nature Communications 8 1
Microbial volatile communication in human organotypic lung models
We inhale respiratory pathogens continuously,and the subsequent signaling events between host and microbe are complex,ultimately resulting in clearance of the microbe,stable colonization of the host,or active disease. Traditional in vitro methods are ill-equipped to study these critical events in the context of the lung microenvironment. Here we introduce a microscale organotypic model of the human bronchiole for studying pulmonary infection. By leveraging microscale techniques,the model is designed to approximate the structure of the human bronchiole,containing airway,vascular,and extracellular matrix compartments. To complement direct infection of the organotypic bronchiole,we present a clickable extension that facilitates volatile compound communication between microbial populations and the host model. Using Aspergillus fumigatus,a respiratory pathogen,we characterize the inflammatory response of the organotypic bronchiole to infection. Finally,we demonstrate multikingdom,volatile-mediated communication between the organotypic bronchiole and cultures of Aspergillus fumigatus and Pseudomonas aeruginosa.
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产品号#:
05001
05021
05022
产品名:
PneumaCult™-ALI 培养基
PneumaCult™-ALI 培养基含12 mm Transwell®插件
PneumaCult™-ALI 培养基含6.5 mm Transwell®插件
R. M. Eichenberger et al. ( 2018)
Journal of extracellular vesicles 7 1 1428004
Characterization ofTrichuris murissecreted proteins and extracellular vesicles provides new insights into host-parasite communication.
Whipworms are parasitic nematodes that live in the gut of more than 500 million people worldwide. Owing to the difficulty in obtaining parasite material,the mouse whipwormTrichuris murishas been extensively used as a model to study human whipworm infections. These nematodes secrete a multitude of compounds that interact with host tissues where they orchestrate a parasitic existence. Herein we provide the first comprehensive characterization of the excretory/secretory products ofT. muris. We identify 148 proteins secreted byT. murisand show for the first time that the mouse whipworm secretes exosome-like extracellular vesicles (EVs) that can interact with host cells. We use an Optiprep{\textregistered} gradient to purify the EVs,highlighting the suitability of this method for purifying EVs secreted by a parasitic nematode. We also characterize the proteomic and genomic content of the EVs,identifying {\textgreater}350 proteins,56 miRNAs (22 novel) and 475 full-length mRNA transcripts mapping toT. murisgene models. Many of the miRNAs putatively mapped to mouse genes are involved in regulation of inflammation,implying a role in parasite-driven immunomodulation. In addition,for the first time to our knowledge,colonic organoids have been used to demonstrate the internalization of parasite EVs by host cells. Understanding how parasites interact with their host is crucial to develop new control measures. This first characterization of the proteins and EVs secreted byT. murisprovides important information on whipworm-host communication and forms the basis for future studies.
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产品号#:
06005
产品名:
IntestiCult™ 类器官生长培养基 (小鼠)
K. Huang et al. (MAY 2018)
Pediatric research 83 5 1031--1040
Targeting the PXR-TLR4 signaling pathway to reduce intestinal inflammation in an experimental model of necrotizing enterocolitis.
BackgroundThere is substantial evidence that signaling through Toll-like receptor 4 (TLR4) contributes to the pathogenesis of necrotizing enterocolitis (NEC). Pregnane X receptor (PXR),a xenobiotic sensor and signaling intermediate for certain host-bacterial metabolites,has been shown to negatively regulate TLR4 signaling. Here we investigated the relationship between PXR and TLR4 in the developing murine intestine and explored the capacity of PXR to modulate inflammatory pathways involved in experimental NEC.MethodsWild-type and PXR-/- mice were studied at various time points of development in an experimental model of NEC. In addition,we studied the ability of the secondary bile acid lithocholic acid (LCA),a known PXR agonist in liver,to activate intestinal PXR and reduce NEC-related intestinal inflammation.ResultsWe found a reciprocal relationship between the developmental expression of PXR and TLR4 in wild-type murine intestine,with PXR acting to reduce TLR4 expression by decreasing TLR4 mRNA stability. In addition,PXR-/- mice exhibited a remarkably heightened severity of disease in experimental NEC. Moreover,LCA attenuated intestinal proinflammatory responses in the early stages of experimental NEC.ConclusionThese findings provide proactive insights into the regulation of TLR4 in the developing intestine. Targeting PXR may be a novel approach for NEC prevention.
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