Project description:We prepared spinal cords from SOD1-G93A and WT mice treated with vehicle or the RIPK1 inhibitor Nec-1s, which were single cell RNA sequenced using the DropSeq protocol.

Project description:scRNAseq from spinal cords of SOD1-G93A and WT mice

Project description:mRNA expression in the spinal cords of the G93A-SOD1 familial ALS transgenic mouse model was compared to that in nontransgenic (Normal mouse) and transgenic mice expressing wild-type (WT)SOD1. Gene Ontology (GO)analysis was used to characterize differences in expression between G93A-SOD1 mouse and nontransgenic mouse spinal cord. Changes in multiple GO categories were found. Many of these were associated with subsystems involving cell-cell communication and intracellular signal transduction. Expression profiles of mice expressing WT-SOD1 did not differ from nontransgenic mice. In contrast, protein profiling using proteomics technology indicated changes in mitochondrial protein expression in the G93A-SOD1 mouse spinal cord that were not found in the mRNA expression analysis. Keywords: Disease state analysis, time course, transgenic mice

Project description:scRNAseq from spinal cords

Project description:The tails of stage NF50 Xenopus tropicalis tadpoles were amputated and samples were collected at 0 and 3 days post amputation. 10 spinal cords were isolated for each time point. After cell dissociation, single cell RNAseq was performed using 10X Genomics platform

Project description:We report the transcriptome of cervical and lumbar spinal cords from SOD1 G37R ALS model mice in untreated animals and after shRNA treatment.

Project description:Amyotrophic lateral sclerosis (ALS) spares the ocular motor system. In this study, we tested the hypothesis that the oculomotor neurons are intrinsically protected in ALS. Using high-density cDNA microarrays, we examined the transcriptome of oculomotor nuclei and spinal cords in mice expressing a human mutant SOD1, the SOD1(G93A) ALS model, at 6 and 10 weeks of age. Comparison of gene expression profiles of these pre-symptomatic SOD1(G93A) mice showed a shift to a proapoptotic state in spinal cords, while the opposite was true in oculomotor nuclei. Seventeen members of the A, B, C and D Hox clusters increased in oculomotor nuclei from 6 to 10 weeks of age; 15 were downregulated in spinal cord. Although only the first 4 classes of a given Hox cluster (e.g., Hoxa1-4) are normally expressed in the developing hindbrain, we found differential expression of mostly the latter classes in both oculomotor nuclei and spinal cords. Also, semaphorin 3B was expressed at 28-fold greater levels in oculomotor nuclei and 61-fold less in spinal cords in 10-week old SOD1(G93A) mice compared to 6-week old mice. Semaphorins 3A and 3E were also differentially regulated. Comparison of gene expression profiles of control SOD1 mice of 6 and 10 weeks of age did not show these changes. Based on these results, we rejected our hypothesis and conclude that the oculomotor nuclei actively adapt to the ALS-inducing mutation.,Supported by NEI and ALSA. <br>Overall design<br>Oligonucleotide microarray studies using the Affymetrix system were conducted as described earlier (McMullen et al., 2004). Biotinylated cRNA was hybridized to Affymetrix Mouse Expression Set 430A GeneChips. Then, the microarrays were washed and stained with a streptavidin-bound marker, and scanned with a laser scanner. Resulting microarray data were analyzed with Affymetrix Microarray Suite 5.0 software. Only those genes with consistent absent/present calls in the three independent replicates per group were considered for further analyses. Comparisons were crossed such that each oculomotor nuclei sample was compared with each spinal cord sample at the corresponding age. The Affymetrix software uses the one-sided Wilcoxon’s signed rank test to estimate “increase/no change/decrease” difference calls and fold-changes for each pair-wise comparison. Only difference calls consistent in all pair-wise comparisons and with average changes greater than 2-fold were considered significant, resulting in a conservative list of genes with changed expression levels.

Project description:Sequencing was performed to better understand the role of neuroinflammation and glial RIPK1 signaling in ALS pathogenesis in the SOD1G93A transgenic mouse model.

Project description:Spinal cord single-nuclei RNA sequencing of human ALS spinal cords [ALS human snRNAseq]

Project description:T cells are considered to be an important cell type for pathogenesis of multiple screlosis. We used single cell RNA sequencing (scRNA-seq) to analyze popluation of inflitrating CD45+ cells in spinal cords of WT and STAP-1 KO mice to figure out whehter STAP-1 is required for infiltration of T cells in the spinal cords after EAE induction.