Project description:Many addictive drugs such as nicotine mediate reward and reinforcing mechanisms within the mesolimbic pathway involving midbrain dopaminergic (mDA) neurons via nicotinic acetylcholine receptors (nAChRs). Previously, genome-wide association analyses (GWAs) identified several nucleotide polymorphism (SNP) associated with increased risk of addictive phenotypes including the nonsynonymous rs16969968 SNP encoding D398->N398 variation in the CHRNA5 gene (Bierut et al., 2008; Saccone et al., 2007) . However, the etiology and the pathophysiology associated with the N398 allele is unknown. Previous animal studies using a knock-in of human CHRNA5 N398 revealed increased nicotine consumption. However, given the evolutionary distance between mice and humans, identifying intrinsic factors that affect addiction may correlate poorly, limiting the conclusiveness of these studies. In this study, induced pluripotent stem cell (iPSC) lines were derived from cryopreserved lymphocytes drawn from patients with homozygous minor alleles (N398) of rs16969968 and demonstrated nicotine addiction as well as age- and gender-matched unaffected controls carrying the major allele (D398). Cultures of primarily mDA neurons were prepared from these iPSC lines. Gene expression analysis using RT-PCR and RNAseq revealed similar expression of mRNAs encoding subunits of nAChR in mDA neurons derived from both D398 and N398 iPSC lines, however, gene ontology (GO) analysis revealed an increased enrichment of genes associated with neuroactive ligand-receptor interactions and Ca2+ signaling pathways in N398 neurons. Moreover, the N398 neuronal population responded more actively to application of nicotine in both electrophysiological analysis and Ca2+-imaging analysis. Together, these results suggest that the N398 variation affects Ca2+-signaling in neurons, which may explain the predisposition of subjects carrying this mutation for addictive behavior in subjects carrying the nonsynonymous rs16969968 SNP (Sherva et al., 2008).

Project description:We previously reported a pathogenic de novo W342 mutation in the transcriptional corepressor CtBP1 in four independent patients with neurodevelopmental disabilities. Here, we report the clinical phenotypes of seven additional individuals with the same recurrent de novo CtBP1 mutation. Within this cohort we identified consistent CtBP1-related phenotypes of intellectual disability, ataxia, hypotonia and tooth enamel defects present in all patients. The W342 mutation in CtBP1 is located within a region implicated in a high affinity-binding cleft for CtBP-interacting proteins. Unbiased proteomic analysis demonstrated reduced interaction of several chromatin modifying factors with the CtBP1 W342 mutant. Genome-wide transcriptome analysis in human glioblastoma cells lines expressing -CtBP1 R342 (wt) or W342 mutation revealed changes in the expression profiles of genes controlling multiple cellular processes. Patient-derived dermal fibroblasts were found to be more sensitive to apoptosis during acute glucose deprivation compared to controls. Glucose deprivation strongly activated the BH3-only pro-apoptotic gene NOXA, suggesting a link between enhanced cell death and NOXA expression in patient fibroblasts. Our results suggest that context-dependent relief of transcriptional repression of the CtBP1 mutant W342 allele may contribute to deregulation of apoptosis in target tissues of patients leading to neurodevelopmental phenotypes.

Project description:Gabriela Novak et al. utilize scRNA-seq to investigate expression profiles in iPSC-derived midbrain dopaminergic neurons from Parkinson's disease patients or healthy controls. Their results suggest a core molecular network associated with Parkinson's disease pathology, and provide a future resource for investigation of this critical disorder.

Project description:These files represent single cell RNA-Seq data generated on a 10x Chromium genomics platform from four biological replicates of iPSC-derived human kidney organoids, in two batches, differentiated according to our published protocol (Takasato et al., Nature Protocols 2016). The aggregated human organoid data contains populations representing endothelial cells, podocytes, stroma, nephron, and off-target populations with similarity to neurons.

Project description:We previously reported a pathogenic de novo W342 mutation in the transcriptional corepressor CtBP1 in four independent patients with neurodevelopmental disabilities. Here, we report the clinical phenotypes of seven additional individuals with the same recurrent de novo CtBP1 mutation. Within this cohort we identified consistent CtBP1-related phenotypes of intellectual disability, ataxia, hypotonia and tooth enamel defects present in all patients. The W342 mutation in CtBP1 is located within a region implicated in a high affinity-binding cleft for CtBP-interacting proteins. Unbiased proteomic analysis demonstrated reduced interaction of several chromatin modifying factors with the CtBP1 W342 mutant. Genome-wide transcriptome analysis in human glioblastoma cells lines expressing -CtBP1 R342 (wt) or W342 mutation revealed changes in the expression profiles of genes controlling multiple cellular processes. Patient-derived dermal fibroblasts were found to be more sensitive to apoptosis during acute glucose deprivation compared to controls. Glucose deprivation strongly activated the BH3-only pro-apoptotic gene NOXA, suggesting a link between enhanced cell death and NOXA expression in patient fibroblasts. Our results suggest that context-dependent relief of transcriptional repression of the CtBP1 mutant W342 allele may contribute to deregulation of apoptosis in target tissues of patients leading to neurodevelopmental phenotypes.

Project description:To explore the mechanistic basis of ApoE Ɛ4 vs ApoE Ɛ3 protein expression on endocytic pathways responsible for tau uptake in neurons and astrocytes and the maturation of neuronal networks, we have developed genotype matched co-cultures of iPSC derived astrocytes and neurons derived from isogenic triads of iPSC lines generated by the ADAPTED consortium (Schmid et al., 2019, 2020) . We show that isogenic iPSC derived APOE-E4 expressing astrocytes take up less extracellular tau than APOE-E3 or APOE null astrocytes, while isogenic neurons in monoculture take up equivalent amounts of tau primarily through macropinocytosis. Co-culture of neurons with genotype matched astrocytes increases the general uptake capacity of neurons by increasing the dependence of neuronal endocytosis on dynamin mediated pathways. Co-culture also enhances the emergence of spontaneous neuronal activity; however, the emergence of synchronous network activity is impaired by the expression of APOE-E4 genotype. We performed RNA-Seq on the astrocytes, neurons and co-cultures to understand the molecular pathway changes associated with different ApoE genotypes.

Project description:Το investigate the role of Rac1 and Rac3 GTPases in the development of MGE-derived cortical interneurons we generated a transgenic mice where both Rac1 and 3 were depleted from the medial ganglionic eminence. First we generated a conditional knockout for Rac1 (Vidaki et al. 2012) by crossing animals carrying a floxed allele of Rac1 (Rac1fl/fl) (the fourth and fifth exon of the Rac1 gene are flanked with loxP sites, Walmsley et al. 2003) to the Nkx2.1Tg(Cre) mice (Nkx2.1 transgenic Cre, Fogarty et al. 2007). The ROSA26fl-STOP-fl-YFP allele was also inserted as an independent marker (Srinivas et al. 2001). Next, we crossed the Rac1 conditional knockout with the Rac3 KO line (Corbetta et al. 2005) and obtained a mouse line where Rac1 and Rac3 were both depleted from the MGE-derived interneurons.

Project description:Reprogramming of somatic cells into induced pluripotent stem cells (iPSC) is an epigenetic phenomenon. We have reprogrammed mesenchymal stromal cells (MSC) from human bone marrow by retrovirus-mediated overexpression of OCT-3/4, SOX2, c-MYC, and KLF4. This series summarizes gene expression profiles of eight iP-MSC clones derived from three different donors. These datasets were subsequently used for PluriTest analysis (Muller FJ, Schuldt B et al., Nat. Methods 2011; 8: 315-317) demonstrating that all iP-MSC clones were clearly associated with pluripotent cells. Eight iP-MSC clones derived from three different donors.

Project description:454 dataset for Hosia, et al. Torstensson et al. Dinasquet et al.

Project description:Huntington's disease is caused by an expanded CAG repeat in the huntingtin gene, yeilding a Huntingtin protein with an expanded polyglutamine tract. Patient-derived induced pluripotent stem cells (iPSCs) can help understand disease; however, defining pathological biomarkers in challanging. Here we used LC-MS/MS to determine differences in mitochondrial proteome between iPSC-derived neurons from healthy donors and Huntington's disease patients.