Linda J. deJong scite author profile

Linda J. deJong

2Publications

22Citation Statements Received

19Citation Statements Given

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Affiliations

Stanford University, United States Department of Veterans Affairs

Publications

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Opsonization with Antimyelin Antibody Increases the Uptake and Intracellular Metabolism of Myelin in Inflammatory Macrophages

Trotter

deJong

Smith

1986

Journal of Neurochemistry

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In most demyelinating diseases, macrophages are believed to be active agents of myelin destruction. In experimental encephalomyelitis, these cells appear to strip off and ingest the myelin lamellae, and myelin debris has been observed within the cell body. We show here in vitro conditions in which rat peritoneal macrophages phagocytose and metabolize CNS myelin lipids. Purified rat myelin, prelabeled in vivo with [14C]acetate, was incubated with preimmune serum or rabbit antiserum to rat CNS myelin and added to macrophage monolayers. Myelin opsonized with antimyelin antibodies was more readily phagocytosed and metabolized by cultured macrophages than untreated myelin or that preincubated with preimmune serum. In the presence of macrophages, levels of myelin polar lipids and cholesterol decreased, whereas radioactive cholesterol ester and triglyceride accumulated. Up to five times as much radioactive cholesterol ester and about twice as much triglyceride accumulated in macrophage cultures containing antibody‐treated myelin as in cultures fed preimmune serum‐treated myelin or in those incubated with untreated myelin. Both the fatty acid and the cholesterol from cholesterol ester contained radioactive label: therefore, both were derived at least partly from the radioactive myelin lipid. Antiserum to myelin purified from peripheral nerve was almost as effective as that to CNS myelin in stimulating cholesterol metabolism, whereas antiserum to galactocerebroside was about 70% as active. Antiserum to basic protein had less effect, whereas antiserum to the myelin‐associated glycoprotein and proteolipid protein was inactive. Of the polar lipids, ethanolamine phosphatide was most degraded in both the antiserum‐ and preimmune serum‐treated myelin, with the diacyl form and plasmalogen form degraded about equally. These experiments indicate that myelin‐specific antibodies in inflammatory CNS lesions may participate in and stimulate macrophage‐mediated demyelination.

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Antibody to myelin constituents: A possible factor in induction of cell-mediated demyelination

Smith

deJong

1987

Neurochem Res

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Results from this laboratory have demonstrated that 14C-labeled myelin opsonized with antibodies raised to purified CNS myelin in rabbit is phagocytized by cultured macrophages in larger amounts than untreated myelin or myelin opsonized with preimmune serum. The cultured macrophages produced high amounts of radioactive cholesterol ester and triglyceride from the antibody-treated myelin while much less was formed from preimmune serum-treated or untreated myelin. Antiserum to galactocerebroside also greatly enhanced the formation of radioactive cholesterol ester, while that to myelin basic protein as well as to other myelin constituents had little or no effect. Serum from Lewis rats with acute EAE 13-14 days after immunization with whole CNS myelin also stimulated radioactive cholesterol ester formation compared to serum from Freund's adjuvant-injected controls (FAC). Serum from EAE rats as a result of myelin basic protein injection was as active as that from rats with whole myelin injection. No galactocerebroside antibody could be demonstrated in the EAE sera, although a strong immunostaining to myelin basic protein and proteolipid protein was demonstrated. IgG prepared from EAE serum also showed stimulatory effects compared to IgG from FAC serum, but much of the activity was lost, and the possibility that other factors may be involved is discussed. These experiments provide evidence that myelin phagocytosis and digestion by macrophages is enhanced by the presence of antibody to myelin. In EAE this antibody may leak into CNS with the breakdown of the blood-brain barrier.(ABSTRACT TRUNCATED AT 250 WORDS)

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Linda J. deJong

Opsonization with Antimyelin Antibody Increases the Uptake and Intracellular Metabolism of Myelin in Inflammatory Macrophages

Antibody to myelin constituents: A possible factor in induction of cell-mediated demyelination

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