FTY720 Rescue Therapy in the Dark Agouti Rat Model of Experimental Autoimmune Encephalomyelitis: Expression of Central Nervous System Genes and Reversal of Blood-Brain-Barrier Damage

FTY720 (fingolimod) is an oral sphingosine‐1 phosphate (S1P) receptor modulator in phase III development for the treatment of multiple sclerosis. To further investigate its mode of action, we analyzed gene expression in the central nervous system (CNS) during experimental autoimmune encephalomyeliti...

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Veröffentlicht in:	Brain pathology (Zurich, Switzerland) Switzerland), 2009-04, Vol.19 (2), p.254-266
Hauptverfasser:	Foster, Carolyn A., Mechtcheriakova, Diana, Storch, Maria K., Balatoni, Balázs, Howard, Laurence M., Bornancin, Frédéric, Wlachos, Alexander, Sobanov, Jury, Kinnunen, Anu, Baumruker, Thomas
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Schlagworte:	Animals Antigens - administration & dosage Blood-Brain Barrier - drug effects Blood-Brain Barrier - pathology Blood-Brain Barrier - physiopathology Blotting, Western Brain - metabolism Brain - pathology Capillary Permeability - drug effects Demyelinating Diseases - drug therapy Disease Models, Animal EAE Encephalomyelitis, Autoimmune, Experimental - drug therapy Encephalomyelitis, Autoimmune, Experimental - genetics Encephalomyelitis, Autoimmune, Experimental - pathology Encephalomyelitis, Autoimmune, Experimental - physiopathology experimental autoimmune encephalomyelitis Female fingolimod Fingolimod Hydrochloride FTY720 gene expression Gene Expression Regulation - drug effects Immunization Immunosuppressive Agents - therapeutic use multiple sclerosis Myelin Proteins - metabolism Phospholipases A2, Cytosolic - metabolism Polymerase Chain Reaction Propylene Glycols - therapeutic use Random Allocation Rats Sphingosine - analogs & derivatives Sphingosine - therapeutic use sphingosine-1 phosphate Spinal Cord - metabolism Spinal Cord - pathology
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creator	Foster, Carolyn A. Mechtcheriakova, Diana Storch, Maria K. Balatoni, Balázs Howard, Laurence M. Bornancin, Frédéric Wlachos, Alexander Sobanov, Jury Kinnunen, Anu Baumruker, Thomas
description	FTY720 (fingolimod) is an oral sphingosine‐1 phosphate (S1P) receptor modulator in phase III development for the treatment of multiple sclerosis. To further investigate its mode of action, we analyzed gene expression in the central nervous system (CNS) during experimental autoimmune encephalomyelitis (EAE). FTY720 downregulated inflammatory genes in addition to vascular adhesion molecules. It decreased the matrix metalloproteinase gene MMP‐9 and increased its counterregulator—tissue inhibitor of metalloproteinase, TIMP‐1—resulting in a proteolytic balance that favors preservation of blood‐brain‐barrier (BBB) integrity. Furthermore, FTY720 reduced S1P lyase that increases the S1P concentration in the brain, in line with a marked reversal of neurological deficits and raising the possibility for enhanced triggering of S1P receptors on resident brain cells. This is accompanied by an increase in S1P1 and S1P5 in contrast with the attenuation of S1P3 and S1P4. Late‐stage rescue therapy with FTY720, even up to 1 month after EAE onset, reversed BBB leakiness and reduced demyelination, along with normalization of neurologic function. Our results indicate rapid blockade of ongoing disease processes by FTY720, and structural restoration of the CNS parenchyma, which is likely caused by the inhibition of autoimmune T cell infiltration and direct modulation of microvascular and/or glial cells.
doi_str_mv	10.1111/j.1750-3639.2008.00182.x
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To further investigate its mode of action, we analyzed gene expression in the central nervous system (CNS) during experimental autoimmune encephalomyelitis (EAE). FTY720 downregulated inflammatory genes in addition to vascular adhesion molecules. It decreased the matrix metalloproteinase gene MMP‐9 and increased its counterregulator—tissue inhibitor of metalloproteinase, TIMP‐1—resulting in a proteolytic balance that favors preservation of blood‐brain‐barrier (BBB) integrity. Furthermore, FTY720 reduced S1P lyase that increases the S1P concentration in the brain, in line with a marked reversal of neurological deficits and raising the possibility for enhanced triggering of S1P receptors on resident brain cells. This is accompanied by an increase in S1P1 and S1P5 in contrast with the attenuation of S1P3 and S1P4. Late‐stage rescue therapy with FTY720, even up to 1 month after EAE onset, reversed BBB leakiness and reduced demyelination, along with normalization of neurologic function. Our results indicate rapid blockade of ongoing disease processes by FTY720, and structural restoration of the CNS parenchyma, which is likely caused by the inhibition of autoimmune T cell infiltration and direct modulation of microvascular and/or glial cells.</abstract><cop>Oxford, UK</cop><pub>Blackwell Publishing Ltd</pub><pmid>18540945</pmid><doi>10.1111/j.1750-3639.2008.00182.x</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Antigens - administration & dosage Blood-Brain Barrier - drug effects Blood-Brain Barrier - pathology Blood-Brain Barrier - physiopathology Blotting, Western Brain - metabolism Brain - pathology Capillary Permeability - drug effects Demyelinating Diseases - drug therapy Disease Models, Animal EAE Encephalomyelitis, Autoimmune, Experimental - drug therapy Encephalomyelitis, Autoimmune, Experimental - genetics Encephalomyelitis, Autoimmune, Experimental - pathology Encephalomyelitis, Autoimmune, Experimental - physiopathology experimental autoimmune encephalomyelitis Female fingolimod Fingolimod Hydrochloride FTY720 gene expression Gene Expression Regulation - drug effects Immunization Immunosuppressive Agents - therapeutic use multiple sclerosis Myelin Proteins - metabolism Phospholipases A2, Cytosolic - metabolism Polymerase Chain Reaction Propylene Glycols - therapeutic use Random Allocation Rats Sphingosine - analogs & derivatives Sphingosine - therapeutic use sphingosine-1 phosphate Spinal Cord - metabolism Spinal Cord - pathology
title	FTY720 Rescue Therapy in the Dark Agouti Rat Model of Experimental Autoimmune Encephalomyelitis: Expression of Central Nervous System Genes and Reversal of Blood-Brain-Barrier Damage
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