Abstract
BackgroundThe pathological hallmark of multiple sclerosis (MS) is myelin phagocytosis. It remains unclear why microglia and macrophages demyelinate axons in MS, but previously found or yet-unknown changes in the myelin of MS patients could contribute to this process. We therefore studied whether myelin from normal-appearing white matter (NAWM) of MS donors is phagocytosed more efficiently than myelin from control donors.MethodsMyelin was isolated from 11 MS and 12 control brain donors and labeled with the pH-sensitive fluorescent dye pHrodo to quantify uptake in lysosomes. Phagocytosis by differentiated THP-1 macrophages and by primary human microglia was quantified with flow cytometry. Whereas myelin uptake by THP-1 macrophages reached a plateau after approximately 24 hours, uptake by primary human microglia showed an almost linear increase over a 72–hour period. Data were statistically analyzed with the Mann–Whitney U test.ResultsMS-derived myelin was phagocytosed more efficiently by THP-1 macrophages after 6-hour incubation (P = 0.001 for the percentage of myelin-phagocytosing cells and P = 0.0005 for total myelin uptake) and after 24-hour incubation (P = 0.0006 and P = 0.0001, respectively), and by microglia after 24-hour incubation (P = 0.0106 for total myelin uptake). This enhanced uptake was not due to differences in the oxidation status of the myelin. Interestingly, myelin phagocytosis correlated negatively with the age of myelin donors, whereas the age of microglia donors showed a positive trend with myelin phagocytosis.ConclusionsMyelin isolated from normal-appearing white matter of MS donors was phagocytosed more efficiently than was myelin isolated from control brain donors by both THP-1 macrophages and primary human microglia. These data indicate that changes in MS myelin might precede phagocyte activation and subsequent demyelination in MS. Identifying these myelin changes responsible for enhancing phagocytic ability could be an interesting therapeutic target to prevent or inhibit formation or expansion of MS lesions. Moreover, during aging, microglia enhance their phagocytic capacity for myelin phagocytosis, but myelin reduces its susceptibility for uptake.
Highlights
Demyelination is the pathologic hallmark of multiple sclerosis (MS) [1], but the initial cause that triggers resident microglia and infiltrating macrophages to start phagocytosing myelin remains to be elucidated
Lipid peroxidation-derived malondialdehyde (MDA) was increased in and around active MS lesions [3], and rat MDA-modified myelin oligodendrocyte glycoprotein (MOG) was phagocytosed more efficiently than was naïve MOG via scavenger receptor (SR) class A on mouse macrophages [4]. 4Hydroxynonenal, another product of lipid peroxidation, was increased in myelin isolated from normal-appearing white matter (NAWM) of MS donors compared with myelin isolated from control donors [5]
We showed that MS myelin is phagocytosed more efficiently by macrophages derived from the human monocytic cell line THP-1 and by primary human microglia, indicating that aforementioned or yet-unknown changes within MS myelin can trigger phagocytosis
Summary
Demyelination is the pathologic hallmark of multiple sclerosis (MS) [1], but the initial cause that triggers resident microglia and infiltrating macrophages to start phagocytosing myelin remains to be elucidated. The pathological hallmark of multiple sclerosis (MS) is myelin phagocytosis It remains unclear why microglia and macrophages demyelinate axons in MS, but previously found or yet-unknown changes in the myelin of MS patients could contribute to this process. We studied whether myelin from normal-appearing white matter (NAWM) of MS donors is phagocytosed more efficiently than myelin from control donors
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