Neuronal migration defects (NMDs) are among the most common and severe brain abnormalities in humans. Lack of disease models in mice or in human cells has hampered the identification of underlying mechanisms. From patients with severe NMDs we generated iPSCs then differentiated neural progenitor cells (NPCs). On artificial extracellular matrix, patient-derived neuronal cells showed defective migration and impaired neurite outgrowth. From a cohort of 107 families with NMDs, sequencing identified two homozygous C-terminal truncating mutations in CTNNA2, encoding aN-catenin, one of three paralogues of the a-catenin family, involved in epithelial integrity and cell polarity. Patient-derived or CRISPR-targeted CTNNA2- mutant neuronal cells showed defective migration and neurite stability. Recombinant aN-catenin was sufficient to bundle purified actin and to suppress the actin-branching activity of ARP2/3. Small molecule inhibitors of ARP2/3 rescued the CTNNA2 neurite defect. Thus, disease modeling in human cells could be used to understand NMD pathogenesis and develop treatments for associated disorders. Overall design: 2 biological replicates per individual (2 iPSC clone differentiations), excluding 1263A, which has one sample
Biallelic loss of human CTNNA2, encoding αN-catenin, leads to ARP2/3 complex overactivity and disordered cortical neuronal migration.
No sample metadata fields
View SamplesH69M cells derive from H69 small cell lung cancer cells subjected to prolonged treatment with HGF. Among the whole population of cells, a subset of more fibroblastic cells was isolated (H69M-mesenchymal). In this experiment we compared expression profiles of both cell lines
Targeting epithelial-to-mesenchymal transition with Met inhibitors reverts chemoresistance in small cell lung cancer.
Specimen part, Cell line
View SamplesProvides a set of enriched normal colon epithelial cells to use as a baseline for disease of the colon
Normal colon epithelium: a dataset for the analysis of gene expression and alternative splicing events in colon disease.
Sex
View SamplesSeveral bacterial human pathogens regulate the production of virulence factors by temperature, expressing them only at 37 C. Accordingly we show that the production of all P. aeruginosa virulence factors that are dependent on the QS transcriptional regulator RhlR, but only a fraction that are activated by LasR, are induced at 37 C compared to 30 C or 25 C. The RhlR-dependent induction at 37 C is a posttranscriptional effect due to an RNA thermometer of the ROSE family that thermoregulates the expression of rhlAB operon involved in rhamnolipids production, a virulence associated trait. This RNA structure also affects the expression of the downstream rhlR gene. A second thermometer is present upstream lasI and causes a reduced expression of this gene at lower temperatures without causing a significant decrease of the autoinducer 3-oxo-dodecanoyl homoserine lactone.
Regulation of Pseudomonas aeruginosa virulence factors by two novel RNA thermometers.
No sample metadata fields
View SamplesWith advances in supportive therapy in the last two decades, mortality rates from ALI/ARDS have improved somewhat, but remain around 30 to 40% with significant morbidity in survivors. Several promising treatments are in various stages of evaluation, but many have failed to prove beneficial in large randomized clinical trials (RCT). The first definitive step forward in ALI therapeutics occurred recently as a result of a large RCT demonstrating a mortality decrease from 40 to 31% with the use of low-volume ventilation strategies. From this, it is clear that the opportunity for successful intervention in ALI exists. However, therapeutic advances remain frustrated by the lack of complete understanding of ALI pathophysiology. This stresses the importance of integrating basic and clinical research of the molecular pathogenesis of this disease. The conclusions of a recent National Heart, Lung, and Blood Institute (NHLBI) Working Group on ALI support this type of research as a priority for future investigations of ALI. One of the areas of research given priority by this ALI Working Group is the issue of ALI severity progression and the role of cells of innate immunity in this process. Currently, the processes that determine which ALI patients progress to ARDS and which do not are unclear. As with many phenotype differences, there is most likely a genetic component involved. The basis for this has been demonstrated. For example, a surfactant protein B (SP-B) polymorphism appears to increase a patients risk of developing ALI from pneumonia. Additionally, a polymorphism in the promoter region of the gene for interleukin-6 (IL-6) has been associated with a poor prognosis in patients with ARDS. Understanding the intracellular processes of these genes and the cells expressing them in ALI progression could lead to the identification of molecular markers of ALI severity and eventually to the development of targeted therapies. An examination of genetically uniform animals will provide a clearer insight into the interaction between immune cells in ALI progression as well as guide future human experiments.
Sepsis alters the megakaryocyte-platelet transcriptional axis resulting in granzyme B-mediated lymphotoxicity.
Specimen part
View SamplesWe define the effects of reduced insulin production in beta-cells from tamoxifen-treated Ins1-/-:Ins2f/f:Pdx1CreERT:mTmG mice studied at a time point when insulin production was reduced by ~50%. Overall design: Examination of the transcriptome of adult pancreatic islets from mice with acute Ins2 gene knockout out on an Ins1 null background
Reduced Insulin Production Relieves Endoplasmic Reticulum Stress and Induces β Cell Proliferation.
Specimen part, Treatment, Subject
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