Project description:ATAC-Seq was carried out on isolated nuclei obtained from induced Pluripotnent Stem Cells (iPSC) cell lines. These lines were derived from ALS, SMA and Control (unaffected) individuals (three of each).

Project description:RNA-Seq was carried out on isolated mRNA obtained from induced Pluripotnent Stem Cells (iPSC) cell lines. These lines were derived from ALS, SMA and Control (unaffected) individuals (three of each).

Project description:ATAC-Seq was carried out on isolated nuclei obtained from induced Pluripotnent Stem Cells (iPSC) cell lines. These lines were derived from ALS, SMA and Control (unaffected) individuals (three of each).

Project description:Total RNA-Seq was carried out on rRNA depleted RNA obtained from motor neuron lines generated from subject induced pluripotent stem cell (iPSC) lines. The iPSC lines were derived from 4 ALS, 3 SMA and 3 Control (unaffected) individuals, in duplicate.

Project description:Spinal Muscular Atrophy (SMA) is an autosomal recessive motor neuron disease and is the second most common genetic disorder leading to death in childhood. No effective therapy is currently available. It has been suggested that M-NM-2-lactam antibiotics such as ceftriaxone may offer neuroprotection in motoneuron disease. We investigated the therapeutic effect of ceftriaxone in a murine model of SMA. Microarray technology was used to assess the global gene expression profile of spinal cord obtained by ceftriaxone-treated and vehicle treated SMA mice. Comparative Gene Expression Analysis. The microarray data derived from three different groups: wildtype controls, transgenic SMA (vehicle treated) and ceftriaxone-treated SMA mice. Each population consists of four RNA profiling samples.

Project description:Spinal Muscular Atrophy (SMA) is an autosomal recessive motor neuron disease and is the second most common genetic disorder leading to death in childhood. Stem cell transplantation could represent a therapeutic approach for motor neuron diseases such as SMA. We examined the theraputics effects of a spinal cord neural stem cell population and their ability to modify SMA phenotype. Microarray technology was used to assess the global gene expression profile of laser-microdissected motoneurons obtained by transplanted and veichle treated SMA, and wildtype mice. Experiment Overall Design: The microarray data derived from three different groups: wildtype controls (vehicle treated), transgenic SMA (vehicle treated) and transplanted SMA mice. Each population consists of three RNA profiling samples.

Project description:Spinal Muscular Atrophy (SMA) is an autosomal recessive motor neuron disease and is the second most common genetic disorder leading to death in childhood. Motoneurons derived from induced pluripotent stem cells (iPSC) obtained by reprogramming SMA patient and his healthy father fibroblasts, and genetically corrected SMA-iPSC obtained converting SMN2 into SMN1 with target gene correction (TGC), were used to study gene expression and splicing events linked to pathogenetic mechanisms. Microarray technology was used to assess the global gene expression profile as well as splicing events of iPS-derived motorneurons from SMA patient, unaffected father and TGC-treated cells. The microarray data derived from three different groups: SMA patient, healty father and treated SMA patient's cells. Each population consists of three RNA profiling cell samples.

Project description:Carcinoma-associated fibroblasts (CAFs) that express ?-smooth-muscle-actin (?SMA+) contribute to cancer progression, but their precise origin and role in tumorigenesis is not established. Using mouse models of inflammation-induced gastric cancer, we show that at least 20% of CAFs originate from bone marrow and derive from mesenchymal stem cells (MSCs). Surprisingly, we find that ?SMA+ myofibroblasts (MF) are niche cells normally present in bone marrow and increase markedly in the bone marrow and blood during progression to dysplasia. MSC-derived CAFs that are recruited to the dysplastic stomach express IL-6, Wnt5? and BMP4 and show DNA hypomethylation. Bone marrow (BM)-derived CAFs strongly promote tumor growth in organotypic and xenograft models. In addition, CAFs are generated from MSCs and are recruited to distant tumor sites in a TGF-?- and SDF-1?-dependent manner. Carcinogenesis therefore involves the expansion and relocation of normal bone marrow niche cells to the tumor site where they create a new niche to sustain cancer progression. Since resident (non-BM-derived) CAFs could not be cultured and directly compared to BM-derived CAFs, we additionally isolated total RFP(+) gastric CAFs from aSMA-RFP mice with Helicobacter felis-induced dysplasia, and compared them to GFP(+) BM-derived gastric CAFs from mice with H. felis-induced dysplasia mice that had been transplanted with UBC-EGFP bone marrow. The RFP+ CAFs (HF CAF) represent total CAFs (of which only 20% were BM-derived), while the latter represented only BM-derived CAFs (BM CAF). We compared their gene expression using the Illumina array (MouseWG-6v2) directly after FACS sorting. Interestingly, the GFP+ BM-derived CAFs expressed higher levels of inflammatory genes (IL-6, IL-1?, IL-33) and a number of tumor and stem cell associated factors (CCL5, SPP1, Notch3, MMP9, CD47, CXCR4, PARP10,) compared to the total (RFP+) population of gastric CAFs. Comparison of bone marrow-derived GFP-labeled gastric CAFs versus all gastric CAFs.

Project description:Pre-symptomatic development of lower motor neuron connectivity in a mouse model of severe spinal muscular atrophy

Project description:Study of gene expression profiles of muscular and neuronal mouse mutant of spinal muscular atrophy(SMA). Pre and post symptomatic stage disease have been analyzed.