Identification of Naturally Occurring Fatty Acids of the Myelin Sheath That Resolve Neuroinflammation

Peggy P. Ho; Jennifer L. Kanter; Amanda Johnson; Hrishikesh K. Srinagesh; Eun‐Ju Chang; Timothy M. Purdy; Keith Van Haren; William R. Wikoff; Tobias Kind; Mohsen Khademi; Laura Y. Matloff; Sirisha Narayana; Eun Mi Hur; Tamsin M. Lindström; Zhigang He; Oliver Fiehn; Tomas Olsson; Xianlin Han; May Han; Lawrence Steinman; William H. Robinson

doi:10.1126/scitranslmed.3003831

Identification of Naturally Occurring Fatty Acids of the Myelin Sheath That Resolve Neuroinflammation

Peggy P. Ho(Stanford University), Jennifer L. Kanter(Stanford University), Amanda Johnson(Stanford University), Hrishikesh K. Srinagesh(Stanford University), Eun‐Ju Chang(Geriatric Research Education and Clinical Center), Timothy M. Purdy(Geriatric Research Education and Clinical Center), Keith Van Haren(Geriatric Research Education and Clinical Center), William R. Wikoff(University of California, Davis), Tobias Kind(University of California, Davis), Mohsen Khademi(Karolinska Institutet), Laura Y. Matloff(Stanford University), Sirisha Narayana(Stanford University), Eun Mi Hur(Stanford University), Tamsin M. Lindström(Geriatric Research Education and Clinical Center), Zhigang He(Harvard University), Oliver Fiehn(University of California, Davis), Tomas Olsson(Karolinska Institutet), Xianlin Han(Sanford Burnham Prebys Medical Discovery Institute), May Han(Stanford University), Lawrence Steinman(Stanford University), William H. Robinson(Geriatric Research Education and Clinical Center)

Science Translational Medicine

June 6, 2012

10.1126/scitranslmed.3003831

Cited by 65Open Access

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Abstract

Lipids constitute 70% of the myelin sheath, and autoantibodies against lipids may contribute to the demyelination that characterizes multiple sclerosis (MS). We used lipid antigen microarrays and lipid mass spectrometry to identify bona fide lipid targets of the autoimmune response in MS brain, and an animal model of MS to explore the role of the identified lipids in autoimmune demyelination. We found that autoantibodies in MS target a phosphate group in phosphatidylserine and oxidized phosphatidylcholine derivatives. Administration of these lipids ameliorated experimental autoimmune encephalomyelitis by suppressing activation and inducing apoptosis of autoreactive T cells, effects mediated by the lipids' saturated fatty acid side chains. Thus, phospholipids represent a natural anti-inflammatory class of compounds that have potential as therapeutics for MS.

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