5 results on '"Lambrichts, Ivo"'
Search Results
2. Fatty acid elongation by ELOVL6 hampers remyelination by promoting inflammatory foam cell formation during demyelination.
- Author
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Corrales, Aida V. Garcia, Verberk, Sanne G. S., Haidar, Mansour, Grajchen, Elien, Dehairs, Jonas, Vanherle, Sam, Loix, Melanie, Weytjens, Tine, Gervois, Pascal, Takashi Matsuzaka, Lambrichts, Ivo, Swinnen, Johannes V., Bogie, Jeroen F. J., and Hendriks, Jerome J. A.
- Subjects
FOAM cells ,FATTY acids ,MONOUNSATURATED fatty acids ,UNSATURATED fatty acids ,REMANUFACTURING ,DEMYELINATION - Abstract
A hallmark of multiple sclerosis (MS) is the formation of multiple focal demyelinating lesions within the central nervous system (CNS). These lesions mainly consist of phagocytes that play a key role in lesion progression and remyelination, and therefore represent a promising therapeutic target in MS. We recently showed that unsaturated fatty acids produced by stearoyl-CoA desaturase-1 induce inflammatory foam cell formation during demyelination. These fatty acids are elongated by the "elongation of very long chain fatty acids" proteins (ELOVLs), generating a series of functionally distinct lipids. Here, we show that the expression and activity of ELOVLs are altered in myelin-induced foam cells. Especially ELOVL6, an enzyme responsible for converting saturated and monounsaturated C16 fatty acids into C18 species, was found to be up-regulated in myelin phagocytosing phagocytes in vitro and in MS lesions. Depletion of Elovl6 induced a repair-promoting phagocyte phenotype through activation of the S1P/PPAR? pathway. Elovl6-deficient foamy macrophages showed enhanced ABCA1-mediated lipid efflux, increased production of neurotrophic factors, and reduced expression of inflammatory mediators. Moreover, our data show that ELOVL6 hampers CNS repair, as Elovl6 deficiency prevented demyelination and boosted remyelination in organotypic brain slice cultures and the mouse cuprizone model. These findings indicate that targeting ELOVL6 activity may be an effective strategy to stimulate CNS repair in MS and other neurodegenerative diseases. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
3. Quorum Signal Molecules as Biosurfactants Affecting Swarming in Rhizobium etli
- Author
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Daniels, Ruth, Reynaert, Sven, Hoekstra, Hans, Verreth, Christel, Janssens, Joost, Braeken, Kristien, Fauvart, Maarten, Beullens, Serge, Heusdens, Christophe, Lambrichts, Ivo, De Vos, Dirk E., Vanderleyden, Jos, Vermant, Jan, and Michiels, Jan
- Published
- 2006
- Full Text
- View/download PDF
4. Oncostatin M-induced astrocytic tissue inhibitor of metalloproteinases-1 drives remyelination
- Author
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Jennifer Vandooren, Jack van Horssen, Ivo Lambrichts, Melissa Schepers, Chris Van den Haute, Ghislain Opdenakker, Helena Slaets, Wia Baron, Veerle Baekelandt, Niels Hellings, Tim Vanmierlo, Evelien Houben, Doryssa Hermans, Bieke Broux, Kris Janssens, Molecular cell biology and Immunology, Amsterdam Neuroscience - Neuroinfection & -inflammation, Molecular Neuroscience and Ageing Research (MOLAR), Vandooren, Jennifer/0000-0002-7157-3370, Lambrichts, Ivo/0000-0001-7520-0021, Opdenakker, Ghislain/0000-0003-1714-2294, HOUBEN, Evelien, JANSSENS, Kris, HERMANS, Doryssa, Vandooren, Jennifer, Van den Haute, Chris, SCHEPERS, Melissa, VANMIERLO, Tim, LAMBRICHTS, Ivo, VAN HORSSEN, Jack, Baekelandt, Veerle, OPDENAKKER, Ghislain, Baron, Wia, BROUX, Bieke, Slaets, Helena, HELLINGS, Niels, Psychiatrie & Neuropsychologie, and RS: MHeNs - R3 - Neuroscience
- Subjects
Central Nervous System ,EXPRESSION ,Multiple Sclerosis ,Central nervous system ,oligodendrocyte precursor cells ,Matrix metalloproteinase ,UP-REGULATION ,PROTECTS ,Myelin ,Mice ,Downregulation and upregulation ,OLIGODENDROCYTE PROGENITOR CELLS ,medicine ,Animals ,Humans ,Remyelination ,Demyelinating Disorder ,Myelin Sheath ,Mice, Knockout ,Multidisciplinary ,Tissue Inhibitor of Metalloproteinase-1 ,biology ,RECEPTOR ,business.industry ,Interleukin-6 ,LIF ,Multiple sclerosis ,CENTRAL-NERVOUS-SYSTEM ,Oncostatin M ,astrocytes ,MULTIPLE-SCLEROSIS ,MEDIATED DEMYELINATION ,Biological Sciences ,medicine.disease ,Axons ,Cell biology ,medicine.anatomical_structure ,remyelination ,biology.protein ,CNS ,business ,tissue inhibitor of metalloproteinases-1 ,Demyelinating Diseases ,oncostatin M - Abstract
The brain's endogenous capacity to restore damaged myelin deteriorates during the course of demyelinating disorders. Currently, no treatment options are available to establish remyelination. Chronic demyelination leads to damaged axons and irreversible destruction of the central nervous system (CNS). We identified two promising therapeutic candidates which enhance remyelination: oncostatin M (OSM), a member of the interleukin-6 family, and downstream mediator tissue inhibitor of metalloproteinases-1 (TIMP-1). While remyelination was completely abrogated in OSMR beta knockout (KO) mice, OSM overexpression in the chronically demyelinated CNS established remyelination. Astrocytic TIMP-1 was demonstrated to play a pivotal role in OSM-mediated remyelination. Astrocyte-derived TIMP-1 drove differentiation of oligodendrocyte precursor cells into mature oligodendrocytes in vitro. In vivo, TIMP-1 deficiency completely abolished spontaneous remyelination, phenocopying OSMR beta KO mice. Finally, TIMP-1 was expressed by human astrocytes in demyelinated multiple sclerosis lesions, confirming the human value of our findings. Taken together, OSM and its downstream mediator TIMP-1 have the therapeutic potential to boost remyelination in demyelinating disorders. We thank Dr. Tom Struys, Katrien Wauterickx, and Joke Vanhoof for excellent technical assistance. This work was financially supported by grants from the Research Foundation of Flanders (FWO Vlaanderen, G04441N, G050617N, G0A5716N, and 1106817N), the Interuniversity Attraction Poles (IUAP-P7-39), the Belgian MS-Liga and the Charcot Foundation of Belgium, Methusalem NEURONET, the European FP7 project, HEALTH-F2-2011-278850 (INMiND), and Bijzonder Onderzoeksfonds (BOF)-UHasselt. Hellings, N (reprint author), Hasselt Univ, Biomed Res Inst, Dept Immunol, B-3590 Diepenbeek, Belgium. niels.hellings@uhasselt.be
- Published
- 2020
5. Fatty acid elongation by ELOVL6 hampers remyelination by promoting inflammatory foam cell formation during demyelination.
- Author
-
Garcia Corrales AV, Verberk SGS, Haidar M, Grajchen E, Dehairs J, Vanherle S, Loix M, Weytjens T, Gervois P, Matsuzaka T, Lambrichts I, Swinnen JV, Bogie JFJ, and Hendriks JJA
- Subjects
- Animals, Mice, Adipogenesis, Disease Models, Animal, Fatty Acids, Fatty Acids, Monounsaturated, Foam Cells, Multiple Sclerosis, Remyelination
- Abstract
A hallmark of multiple sclerosis (MS) is the formation of multiple focal demyelinating lesions within the central nervous system (CNS). These lesions mainly consist of phagocytes that play a key role in lesion progression and remyelination, and therefore represent a promising therapeutic target in MS. We recently showed that unsaturated fatty acids produced by stearoyl-CoA desaturase-1 induce inflammatory foam cell formation during demyelination. These fatty acids are elongated by the "elongation of very long chain fatty acids" proteins (ELOVLs), generating a series of functionally distinct lipids. Here, we show that the expression and activity of ELOVLs are altered in myelin-induced foam cells. Especially ELOVL6, an enzyme responsible for converting saturated and monounsaturated C16 fatty acids into C18 species, was found to be up-regulated in myelin phagocytosing phagocytes in vitro and in MS lesions. Depletion of Elovl6 induced a repair-promoting phagocyte phenotype through activation of the S1P/PPARγ pathway. Elovl6 -deficient foamy macrophages showed enhanced ABCA1-mediated lipid efflux, increased production of neurotrophic factors, and reduced expression of inflammatory mediators. Moreover, our data show that ELOVL6 hampers CNS repair, as Elovl6 deficiency prevented demyelination and boosted remyelination in organotypic brain slice cultures and the mouse cuprizone model. These findings indicate that targeting ELOVL6 activity may be an effective strategy to stimulate CNS repair in MS and other neurodegenerative diseases.
- Published
- 2023
- Full Text
- View/download PDF
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