Your search keyword '"Jean-Bernard Denault"' showing total 2 results

1. NLRX1 inhibits the early stages of CNS inflammation and prevents the onset of spontaneous autoimmunity.

Author

Marjan Gharagozloo, Shaimaa Mahmoud, Camille Simard, Kenzo Yamamoto, Diwakar Bobbala, Subburaj Ilangumaran, Matthew D Smith, Albert Lamontagne, Samir Jarjoura, Jean-Bernard Denault, Véronique Blais, Louis Gendron, Carles Vilariño-Güell, A Dessa Sadovnick, Jenny P Ting, Peter A Calabresi, Abdelaziz Amrani, and Denis Gris

Subjects

Biology (General), QH301-705.5

Abstract

Nucleotide-binding, leucine-rich repeat containing X1 (NLRX1) is a mitochondria-located innate immune sensor that inhibits major pro-inflammatory pathways such as type I interferon and nuclear factor-κB signaling. We generated a novel, spontaneous, and rapidly progressing mouse model of multiple sclerosis (MS) by crossing myelin-specific T-cell receptor (TCR) transgenic mice with Nlrx1-/- mice. About half of the resulting progeny developed spontaneous experimental autoimmune encephalomyelitis (spEAE), which was associated with severe demyelination and inflammation in the central nervous system (CNS). Using lymphocyte-deficient mice and a series of adoptive transfer experiments, we demonstrate that genetic susceptibility to EAE lies within the innate immune compartment. We show that NLRX1 inhibits the subclinical stages of microglial activation and prevents the generation of neurotoxic astrocytes that induce neuronal and oligodendrocyte death in vitro. Moreover, we discovered several mutations within NLRX1 that run in MS-affected families. In summary, our findings highlight the importance of NLRX1 in controlling the early stages of CNS inflammation and preventing the onset of spontaneous autoimmunity.

Published

2019

2. NLRX1 inhibits the early stages of CNS inflammation and prevents the onset of spontaneous autoimmunity

Author

Carles Vilariño-Güell, Jenny P.-Y. Ting, Peter A. Calabresi, Albert Lamontagne, Véronique Blais, Denis Gris, Kenzo Yamamoto, A. Dessa Sadovnick, Subburaj Ilangumaran, Louis Gendron, Samir Jarjoura, Shaimaa Mahmoud, Abdelaziz Amrani, Diwakar Bobbala, Marjan Gharagozloo, Camille Simard, Matthew D. Smith, and Jean-Bernard Denault

Subjects

Central Nervous System, Male, 0301 basic medicine, Macroglial Cells, Encephalomyelitis, Pathology and Laboratory Medicine, medicine.disease_cause, Nervous System, Autoimmunity, White Blood Cells, Spectrum Analysis Techniques, 0302 clinical medicine, Animal Cells, Medicine and Health Sciences, Biology (General), NLRX1, Immune Response, T Cells, General Neuroscience, Experimental autoimmune encephalomyelitis, Neurodegenerative Diseases, Animal Models, Middle Aged, Flow Cytometry, 3. Good health, medicine.anatomical_structure, Neurology, Spinal Cord, Experimental Organism Systems, Spectrophotometry, Codon, Nonsense, Female, Cytophotometry, Cellular Types, Anatomy, medicine.symptom, General Agricultural and Biological Sciences, Research Article, Adult, Multiple Sclerosis, Encephalomyelitis, Autoimmune, Experimental, QH301-705.5, Immune Cells, Immunology, Mutation, Missense, Mouse Models, Glial Cells, Mice, Transgenic, Inflammation, Biology, Research and Analysis Methods, General Biochemistry, Genetics and Molecular Biology, Autoimmune Diseases, Mitochondrial Proteins, Young Adult, 03 medical and health sciences, Signs and Symptoms, Model Organisms, Diagnostic Medicine, medicine, Animals, Humans, Blood Cells, Innate immune system, General Immunology and Microbiology, Multiple sclerosis, Biology and Life Sciences, Cell Biology, medicine.disease, Demyelinating Disorders, Immunity, Innate, Oligodendrocyte, Neuroanatomy, 030104 developmental biology, Astrocytes, Case-Control Studies, Animal Studies, Clinical Immunology, Clinical Medicine, 030217 neurology & neurosurgery, Neuroscience, Demyelinating Diseases

Abstract

Nucleotide-binding, leucine-rich repeat containing X1 (NLRX1) is a mitochondria-located innate immune sensor that inhibits major pro-inflammatory pathways such as type I interferon and nuclear factor-κB signaling. We generated a novel, spontaneous, and rapidly progressing mouse model of multiple sclerosis (MS) by crossing myelin-specific T-cell receptor (TCR) transgenic mice with Nlrx1−/− mice. About half of the resulting progeny developed spontaneous experimental autoimmune encephalomyelitis (spEAE), which was associated with severe demyelination and inflammation in the central nervous system (CNS). Using lymphocyte-deficient mice and a series of adoptive transfer experiments, we demonstrate that genetic susceptibility to EAE lies within the innate immune compartment. We show that NLRX1 inhibits the subclinical stages of microglial activation and prevents the generation of neurotoxic astrocytes that induce neuronal and oligodendrocyte death in vitro. Moreover, we discovered several mutations within NLRX1 that run in MS-affected families. In summary, our findings highlight the importance of NLRX1 in controlling the early stages of CNS inflammation and preventing the onset of spontaneous autoimmunity., NLRX1 is a guardian protein that inhibits the inflammatory response of glial cells within the central nervous system and prevents the onset of a spontaneous multiple sclerosis–like disease in mice. This study uses a novel mouse model to provide mechanistic insights into the neurodegenerative origin of multiple sclerosis.

Published

2019