Project description:We report the transcriptome changes in purified mouse activated muscle stem cells in response to deletion of the Mfn2 gene.

Project description:We report the transcriptome changes in tibialis anterior muscle in response to deletion of the Mfn1 and Mfn2 genes.

Project description:RNA-seq of wild-type and mfn1-/-,mfn2-/- tibialis anterior muscle (mouse).

Project description:We report here the genome-wide deposition of NFAT1 (NFATc2) in wild-type and Mfn2-/- regenerating myofibers.

Project description:Analysis of Wild Type and MFN2-/- Macrophage Transcriptomes

Project description:We report here the genome-wide deposition of H3K9me3 and H3K27me3 in wild-type, Mfn2-/-, Vhl-/- and HIF1dPA regenerating myofibers.

Project description:Macrophage mRNA profiles of WT and MFN2 -/- macrophage upon Mtb treatment

Project description:We injected LLC1 cells into the tibia of DMP1-Cre Mfn2-/- mice, DMP1-Cre Rhot1-/- mice, and wild-type mice to study the changes in the cellular composition of the cancer microenvironment after knockout of Mfn2 or Rhot1 in osteocytes.

Project description:Mitofusin-2 (MFN2) is an outer mitochondrial membrane protein essential for mitochondrial networking in most cells. Autosomal dominant mutations in the MFN2 gene cause Charcot-Marie-Tooth type 2A disease (CMT2A), a severe and disabling sensory-motor neuropathy with impact on the entire nervous system. To date, no curative treatment is available. In the paper we propose a novel therapeutic strategy tailored to correct the root genetic defect of CMT2A. In our approach, while mutant and wild-type MFN2 mRNA are inhibited by RNA interference (RNAi), the wild-type protein is restored by overexpressing a cDNA encoding a functional MFN2, modified to be resistant to RNAi. This strategy allows proper MFN2 molecular correction in vivo in the MitoCharc1 CMT2A transgenic mouse model after cerebrospinal fluid (CSF) delivery of the constructs via adenoassociated virus 9 (AAV9) in newborn mice. To identify the therapeutic molecular mechanisms and the pathway that are modulated, we have compared the bulk RNA expression profile of spinal cord from one month old wild type (WT) mice and MitoCharc1 transgenic mice (B6;D2-Tg(Eno2-MFN2*R94Q)L51Ugfm/J) which encode the mutant human MFN2*R94Q under the neuron specific rat enolase (Eno2) promoter, as potential mouse model to test the therapeutic approach. We performed gene expression profiling analysis using data (RNA-seq) obtained from 4 wild type mice and 8 MitoCharch1 transgenic mice at one time point.

Project description:An assessment of brain transcriptome differences between zebrafish siblings homozygous, heterozygous, and wild type for a loss-of-function mutation in mfn2.