Defective cholesterol clearance limits remyelination in the aged central nervous system

Ludovico Cantuti-Castelvetri; Dirk Fitzner; Mar Bosch-Queralt; Marie Theres Weil; Minhui Su; Paromita Sen; Torben Ruhwedel; Miso Mitkovski; George Trendelenburg; Dieter Lütjohann; Wiebke Möbius; Mikael Simons

doi:10.1126/science.aan4183

Defective cholesterol clearance limits remyelination in the aged central nervous system

Ludovico Cantuti-Castelvetri, Dirk Fitzner, Mar Bosch-Queralt, Marie Theres Weil, Minhui Su, Paromita Sen, Torben Ruhwedel, Miso Mitkovski, George Trendelenburg, Dieter Lütjohann, Wiebke Möbius, Mikael Simons

Medicine and Health

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393 Scopus citations

Abstract

Age-associated decline in regeneration capacity limits the restoration of nervous system functionality after injury. In a model for demyelination, we found that old mice fail to resolve the inflammatory response initiated after myelin damage. Aged phagocytes accumulated excessive amounts of myelin debris, which triggered cholesterol crystal formation and phagolysosomal membrane rupture and stimulated inflammasomes. Myelin debris clearance required cholesterol transporters, including apolipoprotein E. Stimulation of reverse cholesterol transport was sufficient to restore the capacity of old mice to remyelinate lesioned tissue. Thus, cholesterol-rich myelin debris can overwhelm the efflux capacity of phagocytes, resulting in a phase transition of cholesterol into crystals and thereby inducing a maladaptive immune response that impedes tissue regeneration.

Original language	English
Pages (from-to)	684-688
Number of pages	5
Journal	Science
Volume	359
Issue number	6376
DOIs	https://doi.org/10.1126/science.aan4183
State	Published - 9 Feb 2018

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title = "Defective cholesterol clearance limits remyelination in the aged central nervous system",

abstract = "Age-associated decline in regeneration capacity limits the restoration of nervous system functionality after injury. In a model for demyelination, we found that old mice fail to resolve the inflammatory response initiated after myelin damage. Aged phagocytes accumulated excessive amounts of myelin debris, which triggered cholesterol crystal formation and phagolysosomal membrane rupture and stimulated inflammasomes. Myelin debris clearance required cholesterol transporters, including apolipoprotein E. Stimulation of reverse cholesterol transport was sufficient to restore the capacity of old mice to remyelinate lesioned tissue. Thus, cholesterol-rich myelin debris can overwhelm the efflux capacity of phagocytes, resulting in a phase transition of cholesterol into crystals and thereby inducing a maladaptive immune response that impedes tissue regeneration.",

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AU - Cantuti-Castelvetri, Ludovico

AU - Fitzner, Dirk

AU - Bosch-Queralt, Mar

AU - Weil, Marie Theres

AU - Su, Minhui

AU - Sen, Paromita

AU - Ruhwedel, Torben

AU - Mitkovski, Miso

AU - Trendelenburg, George

AU - Lütjohann, Dieter

AU - Möbius, Wiebke

AU - Simons, Mikael

PY - 2018/2/9

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N2 - Age-associated decline in regeneration capacity limits the restoration of nervous system functionality after injury. In a model for demyelination, we found that old mice fail to resolve the inflammatory response initiated after myelin damage. Aged phagocytes accumulated excessive amounts of myelin debris, which triggered cholesterol crystal formation and phagolysosomal membrane rupture and stimulated inflammasomes. Myelin debris clearance required cholesterol transporters, including apolipoprotein E. Stimulation of reverse cholesterol transport was sufficient to restore the capacity of old mice to remyelinate lesioned tissue. Thus, cholesterol-rich myelin debris can overwhelm the efflux capacity of phagocytes, resulting in a phase transition of cholesterol into crystals and thereby inducing a maladaptive immune response that impedes tissue regeneration.

AB - Age-associated decline in regeneration capacity limits the restoration of nervous system functionality after injury. In a model for demyelination, we found that old mice fail to resolve the inflammatory response initiated after myelin damage. Aged phagocytes accumulated excessive amounts of myelin debris, which triggered cholesterol crystal formation and phagolysosomal membrane rupture and stimulated inflammasomes. Myelin debris clearance required cholesterol transporters, including apolipoprotein E. Stimulation of reverse cholesterol transport was sufficient to restore the capacity of old mice to remyelinate lesioned tissue. Thus, cholesterol-rich myelin debris can overwhelm the efflux capacity of phagocytes, resulting in a phase transition of cholesterol into crystals and thereby inducing a maladaptive immune response that impedes tissue regeneration.

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Defective cholesterol clearance limits remyelination in the aged central nervous system

Abstract

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