Project description:To evaluate the potential of EphB3 as a therapeutic target during CNS inflammation, we induced EAE in B6 WT mice and starting at the peak of the disease we initiated treatment with A38 administered. A38 administration ameliorated EAE, and the transcriptional analysis of the astrocytes and microglia revealed the decreased expression of genes associated to inflammation and neurodegeneration.

Project description:Pharmacologic or genetic inhibition of EphB3 receptor kinase impacts CNS pathology during progressive EAE

Project description:We evaluated the role of EphB3 on the regulation of astrocyte and microglial responses and its potential as a therapeutic target during progressive EAE. We induced EAE in NOD mice that will develop a progressive form of the disease. Starting at the beginning of the progressive phase, A38 was administered and alternatively EphB3 was KD in astrocytes. Both treatments ameliorated the EAE. The transcriptional analysis of astrocytes and microglia revealed the decreased expression of genes associated to inflammation and neurodegeneration in both conditions.

Project description:To determine the role of RIPK1 kinase signaling in microglia and astrocytes during EAE (mouse model of MS), we extracted spinal cords of naive, EAE-vehicle and EAE mice treated with RIPK1 kinase inhibitor (GSK’547) for transcript profiling using RNAseq. We identify various genes that are differentially expressed in EAE disease compared to naive mice, and a subset of these are modulated in a RIPK1 kinase-dependent manner in both astrocytes and microglia. The top RIPK1 kinase-dependent gene pathways include oxidative phosphorylation and mitochondrial dysfunction in microglia and EIF2 signaling and cholesterol biosynthesis in astrocytes. This study demonstractes critical and distinct roles for RIPK1 kinase signaling in both microglia and astrocytes during EAE

Project description:Treatment with nanoliposomes loaded with ITE and MOG(35-55) ameliorates EAE

Project description:To evaluate the therapeutic potential of NLP(ITE+MOG) in a mouse model of secondary progressive multiple sclerosis, we induced EAE in NOD mice and initiated weekly treatment with nanoliposomes beginning at 35 days post immunization during the chronic phase of disease. NLP(ITE+MOG) administration ameliorated EAE, and the transcriptional analysis of CNS-resident astrocytes, microglia and monocytes revealed decreased expression of genes associated with pro-inflammatory responses and neurodegeneration.

Project description:Genetic opticospinal EAE (OSE) and MOG-induced EAE (MOG-EAE) are two experimental autoimmune encephalomyelitis (EAE) mouse models of human multiple sclerosis. For the OSE model, double-transgenic 2D2 (TCRMOG) x IgHMOG mice were used. For MOG-EAE, wildtype C57BL/6 mice were immunized with a MOG peptide consisting of the amino acids 35-55, administered in complete Freund’s adjuvant containing 5mg / ml Mycobacterium tuberculosi. The severity of EAE was rated on the scale 0: healthy animal; 1: animal with a flaccid tail; [...]; 4: animal with both hind legs paralyzed. The case groups in the experiment were: OSE1: OSE with disease score 1; OSE4: OSE with disease score 4; MOG4: MOG-EAE injected with both MOG and adjuvant, with disease score 4. The control groups in the experiment were: OSE0: OSE with disease score 0; CFA: C57BL/6 mice injected only with adjuvant (no MOG); WT: Wildtype C57BL/6 mice. The aim of the experiment was to assess gene expression differences 1) between OSE4 and OSE0, 2) between OSE1 and OSE0, and 3) between MOG4 and CFA. For control, WT was compared to OSE0 and CFA. Subsequently, differentially expressed transcripts were compared, first, between the OSE4 vs. OSE0 and the MOG4 vs. CFA contrasts (different EAE models) and, second, between the OSE4 vs. OSE0 and the OSE1 vs. OSE0 contrasts (different EAE severity).

Project description: Not available

Project description:RIPK1 kinase-dependent gene expression in mouse microglia and astrocytes in vivo during EAE

Project description:Gene expression in the CNS, comparing wild-type and TRPV1-/- mice with active EAE.