1. Acid ceramidase of macrophages traps herpes simplex virus in multivesicular bodies and protects from severe disease.
- Author
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Lang J, Bohn P, Bhat H, Jastrow H, Walkenfort B, Cansiz F, Fink J, Bauer M, Olszewski D, Ramos-Nascimento A, Duhan V, Friedrich SK, Becker KA, Krawczyk A, Edwards MJ, Burchert A, Huber M, Friebus-Kardash J, Göthert JR, Hardt C, Probst HC, Schumacher F, Köhrer K, Kleuser B, Babiychuk EB, Sodeik B, Seibel J, Greber UF, Lang PA, Gulbins E, and Lang KS
- Subjects
- Acid Ceramidase genetics, Animals, Female, Herpes Simplex virology, Humans, Macrophages virology, Mice, Mice, Inbred C57BL, Mice, Knockout, Virus Replication, Acid Ceramidase metabolism, Herpes Simplex enzymology, Herpes Simplex prevention & control, Herpesvirus 1, Human physiology, Macrophages enzymology, Multivesicular Bodies virology
- Abstract
Macrophages have important protective functions during infection with herpes simplex virus type 1 (HSV-1). However, molecular mechanisms that restrict viral propagation and protect from severe disease are unclear. Here we show that macrophages take up HSV-1 via endocytosis and transport the virions into multivesicular bodies (MVBs). In MVBs, acid ceramidase (aCDase) converts ceramide into sphingosine and increases the formation of sphingosine-rich intraluminal vesicles (ILVs). Once HSV-1 particles reach MVBs, sphingosine-rich ILVs bind to HSV-1 particles, which restricts fusion with the limiting endosomal membrane and prevents cellular infection. Lack of aCDase in macrophage cultures or in Asah1
-/- mice results in replication of HSV-1 and Asah1-/- mice die soon after systemic or intravaginal inoculation. The treatment of macrophages with sphingosine enhancing compounds blocks HSV-1 propagation, suggesting a therapeutic potential of this pathway. In conclusion, aCDase loads ILVs with sphingosine, which prevents HSV-1 capsids from penetrating into the cytosol.- Published
- 2020
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