Project description:We report genome-wide gene expression changes in olfactory bulb cells, in the context of low, wild-type or high levels of local CRH signaling by local interneurons onto adult-born CRHR1+ granule neurons. To test the gene expression changes associated with altered local CRH signaling, we utilize the following animal models: CRHR1-/- mice whose bulbs were infected with a control AAV-flex-EGFP virus = low local CRH signaling, CRHR1-Cre mice whose bulbs were infected with AAV-flex-EGFP = pseudo-wild-type local CRH signaling, and CRHR1-Cre mice whose bulbs were infected with AAV-flex-(CA)CRHR1, which is a constitutively active variant of CRHR1 = high local CRH signaling. We find that, in response to changes in local CRH signaling in the bulb, the largest ontological category of transcription changes in the bulb that occurs reciprocally between low and high levels of CRH signaling are gene regulatory factors. To test the contributions of one of these factors, POU6f1, we perform loss- and gain-of-function analysis. We show that CRHR1 activation results in transcriptional activation of POU6f1 and that POU6f1 in turn influences synaptogenesis and dendritic patterning of adult-born neurons and olfactory circuit behavior.

Project description:Ribosome TRAP (affinity purification) from Glutamaterigc or GABAergic neurons of the Bed Nucleus Stria Terminalis (BNST) expressing Cre, enabling expression of a floxed TRAP reporter delivered by retrofecting AAV injected into the parabrachial nucleus (PBN) of mice.

Project description:Translating ribosome affinity purification technology was used to isolate mRNAs from cerebellar Purkinje neurons from control (Pcp2-BacTrap; Rbm17 f/+) and mutant (Pcp2-BacTRAP; Pcp2-Cre; Rbm17 f/-) mice.

Project description:Goal of the experiment: Analysis of gene expression changes in the cortex, striatum, hippocampus, hypothalamus, Drd2-MSNs and Drd1-MSNs of mice with a postnatal, neuron-specific ablation of GLP or G9a as compared to control mice. For microarray analysis, hippocampus, hypothalamus, cortex and striatum of Camk2a-Cre; GLPfl/fl, Camk2a-Cre; G9afl/fl and age (10-14 week old) and sex matched littermate controls were used for total RNA purification. Four biological replicates were performed for each experiment. Polyribosome associated mRNAs from five, age (10-14 week old) and sex matched Drd1-Cre; Drd1-bacTRAP; G9afl/fl, or Drd2-Cre; Drd2-bacTRAP; G9afl/fl and Drd1-bacTRAP; G9afl/fl or Drd2-bacTRAP; G9afl/fl control mice were used. Three biological replicates were performed for each experiment.

Project description:Leveraging AAV's versatile tropism and labeling capacity, we expanded the scale of in vivo CRISPR screen with single-cell transcriptomic phenotyping across embryonic to adult brains and peripheral nervous systems. Through extensive tests of 86 AAV serotypes, combined with transposon systems, we substantially amplified labeling and accelerated in vivo gene delivery from weeks to days. Our proof-of-principle in utero screen identified the pleiotropic effects of Foxg1, highlighting its tight regulation of distinct networks essential for cell fate specification of Layer 6 corticothalamic neurons. Notably, our platform can label >6% of cerebral cells, surpassing the current state-of-the-art efficacy at <0.1% by lentivirus, to achieve analysis of over 30,000 cells in one experiment and enable massively parallel in vivo Perturb-seq. Compatible with various phenotypic measurements (single-cell or spatial multi-omics), it presents a flexible approach to interrogate gene function across cell types in vivo, translating gene variants to their causal function.

Project description:Timecourse analysis of SRF dependent genes in the nascent mesoderm of mouse embryos. Srf was conditionally deleted by a T::cre driver and the three embryonic stages analyzed represent embryos before onset of the phenotype (E8.5) and progressive appearance of the phenotype (E8.75 and E9.0). Total RNA obtained from dissected caudal ends of SRF(flex/flex); T:cre and control littermate embryos at three different stages.

Project description:We characterize a Cre-activated TRAP allele (Rosa26fsTRAP) to show that endothelium-specific activation of Rosa26fsTRAP identifies endothelial cell enriched transcripts, and that cardiomyocyte-restricted TRAP is a useful means to identify genes that are differentially expressed in cardiomyocytes in a disease model. We also show that TRAP is an effective means to study translational regulation, and we several nuclear-encoded mitochondrial genes are under strong translational control. These RNA-seq data show that the TRAP strategy and the Rosa26fsTRAP allele will be useful tools to probe cell type specific transcriptomes, and to study translational regulation. Study TRAP RNA and total RNA in two cases: heart specific tissues, Banding or Sham, using RNA-seq technology.

Project description:To understand the transcriptional effect of fasting and feeding a ketogenic diet on mouse CNS astrocytes, we performed translating ribosomal affinity purification (TRAP) of mRNAs immunoprecipitated from hippocampus. TRAP mice express a ribosomal epitope tag upon Cre-induced recombination that can be immunoprecipitated following activation. We measured the abundance of actively translating mRNAs from a ribosomal pull-down that came from adult astrocyte (Aldh1l1-Cre)-specific TRAP mice that were subjected to one of three dietary conditions: four weeks of normal chow diet, four weeks of ketogenic diet (high-fat, low-carbohydrate)43, or an 18-hour fast. Immediately following the respective diets, forebrain and hippocampus was harvested from all groups, ribosomes were immunoprecipitated, and actively translating mRNAs in the ribosomes were purified.

Project description:We have shown that intravenous injection of HDAC3 floxed mice with adeno-associated virus (AAV) expressing Cre depletes hepatic HDAC3, upregulates lipogenic gene expression, and causes fatty liver. When AAV-Flag-HDAC3 wild-type (WT) is co-injected along with AAV-Cre, the exogenous HDAC3 is expressed at endogenous levels and can completely rescue fatty liver phenotype. Here we profile transcriptome of the rescued WT livers in comparison with HDAC3-depleted (KO) livers. 4-months old C57BL/6 male mice were co-injected with AAV-Cre or AAV-Cre plus AAV-Flag-HDAC3. Mice were fed ad libitum and harvested at 5 pm (ZT10) at 2-weeks post-injection. Liver total RNA was extracted and hybridized to Affymetrix Mouse Gene 1.0ST array.

Project description:After initial infection at mucosa, herpes simplex virus (HSV) establishes lifelong latency in neurons of the peripheral nervous system, which represents the source of recurrent disease. Current antiviral therapies reduce symptoms and viral shedding, but do not cure the infection. In contrast, gene editing offers the possibility to lethally mutate or even eliminate latent viral genomes. Delivery of gene editing enzymes by Adeno Associated Virus (AAV) vectors represents a promising approach to functionally curing HSV infection. In order to optimize in vivo gene therapy approaches it is necessary to understand which neuronal subtypes within peripheral ganglia are infected by HSV and which subtypes are efficiently targeted by various AAV serotypes. Here we use single cell RNA sequencing (scRNA-seq) to identify neurons expressing HSV genes as well as reporter genes for AAV1, AAV8, AAV-PhP.s, and AAV-Rh10 serotypes.