Granule-derived granzyme B mediates the vulnerability of human neurons to T cell-induced neurotoxicity

Multiple sclerosis (MS) is considered an autoimmune disease of the CNS and is characterized by inflammatory cells infiltrating the CNS and inducing demyelination, axonal loss, and neuronal death. Recent evidence strongly suggests that axonal and neuronal degeneration underlie the progression of perm...

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Published in:The Journal of immunology (1950) 2011-11, Vol.187 (9), p.4861-4872
Main Authors: Haile, Yohannes, Simmen, Katia Carmine, Pasichnyk, Dion, Touret, Nicolas, Simmen, Thomas, Lu, Jian-Qiang, Bleackley, R Chris, Giuliani, Fabrizio
Format: Article
Language:English
Subjects:
Adult
Animals
Brain - embryology
Brain - enzymology
Brain - immunology
Cell Death - immunology
Cells, Cultured
Coculture Techniques
Cytoplasmic Granules - enzymology
Cytoplasmic Granules - immunology
Cytoplasmic Granules - secretion
Cytotoxicity Tests, Immunologic - methods
Granzymes - physiology
Granzymes - secretion
Granzymes - toxicity
Humans
Lymphocyte Activation - immunology
Mice
Mice, 129 Strain
Mice, Inbred C57BL
Neurons - cytology
Neurons - enzymology
Neurons - immunology
T-Lymphocytes, Cytotoxic - enzymology
T-Lymphocytes, Cytotoxic - immunology
T-Lymphocytes, Cytotoxic - secretion
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Summary:Multiple sclerosis (MS) is considered an autoimmune disease of the CNS and is characterized by inflammatory cells infiltrating the CNS and inducing demyelination, axonal loss, and neuronal death. Recent evidence strongly suggests that axonal and neuronal degeneration underlie the progression of permanent disability in MS. In this study, we report that human neurons are selectively susceptible to the serine-protease granzyme B (GrB) isolated from cytotoxic T cell granules. In vitro, purified human GrB induced neuronal death to the same extent as the whole activated T cell population. On the contrary, activated T cells isolated from GrB knockout mice failed to induce neuronal injury. We found that following internalization through various parts of neurons, GrB accumulated in the neuronal soma. Within the cell body, GrB diffused out of endosomes possibly through a perforin-independent mechanism and induced subsequent activation of caspases and cleavage of α-tubulin. Inhibition of caspase-3, a well-known substrate for GrB, significantly reduced GrB-mediated neurotoxicity. We demonstrated that treatment of neurons with mannose-6-phosphate prevented GrB entry and inhibited GrB-mediated neuronal death, suggesting mannose-6-phosphate receptor-dependent endocytosis. Together, our data unveil a novel mechanism by which GrB induces selective neuronal injury and suggest potential new targets for the treatment of inflammatory-mediated neurodegeneration in diseases such as MS.
ISSN:0022-1767
1550-6606
DOI:10.4049/jimmunol.1100943