Lymphocytes with Cytotoxic Activity Induce Rapid Microtubule Axonal Destabilization Independently and before Signs of Neuronal Death

Lymphocytes with Cytotoxic Activity Induce Rapid Microtubule Axonal Destabilization Independently and before Signs of Neuronal Death

MS (multiple sclerosis) is the most prevalent autoimmune disease of the CNS (central nervous system) historically characterized as an inflammatory and demyelinating disease. More recently, extensive neuronal pathology has lead to its classification as a neurodegenerative disease as well. While the i...

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Main Authors: Nichole M. Miller, Leah P. Shriver, Vijaya L. Bodiga, Avijit Ray, Sreemanti Basu, Rajiv Ahuja, Arundhati Jana, Kalipada Pahan, Bonnie N. Dittel
Format: Article
Language:English
Published: SAGE Publishing 2013-01-01
Series:ASN Neuro
Online Access:https://doi.org/10.1042/AN20120087
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spelling doaj-958cf89618d0460ead83830f4ea5992b2020-11-25T01:23:55ZengSAGE PublishingASN Neuro1759-09141759-90912013-01-01510.1042/AN2012008710.1042_AN20120087Lymphocytes with Cytotoxic Activity Induce Rapid Microtubule Axonal Destabilization Independently and before Signs of Neuronal DeathNichole M. Miller0Leah P. Shriver1Vijaya L. Bodiga2Avijit Ray3Sreemanti Basu4Rajiv Ahuja5Arundhati Jana6Kalipada Pahan7Bonnie N. Dittel8 BloodCenter of Wisconsin, Blood Research Institute, Milwaukee, WI 53226, U.S.A. BloodCenter of Wisconsin, Blood Research Institute, Milwaukee, WI 53226, U.S.A. BloodCenter of Wisconsin, Blood Research Institute, Milwaukee, WI 53226, U.S.A. BloodCenter of Wisconsin, Blood Research Institute, Milwaukee, WI 53226, U.S.A. BloodCenter of Wisconsin, Blood Research Institute, Milwaukee, WI 53226, U.S.A. BloodCenter of Wisconsin, Blood Research Institute, Milwaukee, WI 53226, U.S.A. Department of Neurological Science, Rush University Medical Center, Chicago, IL 60612, U.S.A. Department of Neurological Science, Rush University Medical Center, Chicago, IL 60612, U.S.A. BloodCenter of Wisconsin, Blood Research Institute, Milwaukee, WI 53226, U.S.A.MS (multiple sclerosis) is the most prevalent autoimmune disease of the CNS (central nervous system) historically characterized as an inflammatory and demyelinating disease. More recently, extensive neuronal pathology has lead to its classification as a neurodegenerative disease as well. While the immune system initiates the autoimmune response it remains unclear how it orchestrates neuronal damage. In our previous studies, using in vitro cultured embryonic neurons, we demonstrated that MBP (myelin basic protein)-specific encephalitogenic CD4 T-cells induce early neuronal damage. In an extension of those studies, here we show that polarized CD4 Th1 and Th17 cells as wells as CD8 T-cells and NK (natural killer) cells induce microtubule destabilization within neurites in a contact-independent manner. Owing to the cytotoxic potential of these immune cells, we isolated the luminal components of lytic granules and determined that they were sufficient to drive microtubule destabilization. Since lytic granules contain cytolytic proteins, we determined that the induction of microtubule destabilization occurred prior to signs of apoptosis. Furthermore, we determined that microtubule destabilization was largely restricted to axons, sparing dendrites. This study demonstrated that lymphocytes with cytolytic activity have the capacity to directly drive MAD (microtubule axonal destabilization) in a bystander manner that is independent of neuronal death.https://doi.org/10.1042/AN20120087
collection DOAJ
language English
format Article
sources DOAJ
author Nichole M. Miller
Leah P. Shriver
Vijaya L. Bodiga
Avijit Ray
Sreemanti Basu
Rajiv Ahuja
Arundhati Jana
Kalipada Pahan
Bonnie N. Dittel
spellingShingle Nichole M. Miller
Leah P. Shriver
Vijaya L. Bodiga
Avijit Ray
Sreemanti Basu
Rajiv Ahuja
Arundhati Jana
Kalipada Pahan
Bonnie N. Dittel
Lymphocytes with Cytotoxic Activity Induce Rapid Microtubule Axonal Destabilization Independently and before Signs of Neuronal Death
ASN Neuro
author_facet Nichole M. Miller
Leah P. Shriver
Vijaya L. Bodiga
Avijit Ray
Sreemanti Basu
Rajiv Ahuja
Arundhati Jana
Kalipada Pahan
Bonnie N. Dittel
author_sort Nichole M. Miller
title Lymphocytes with Cytotoxic Activity Induce Rapid Microtubule Axonal Destabilization Independently and before Signs of Neuronal Death
title_short Lymphocytes with Cytotoxic Activity Induce Rapid Microtubule Axonal Destabilization Independently and before Signs of Neuronal Death
title_full Lymphocytes with Cytotoxic Activity Induce Rapid Microtubule Axonal Destabilization Independently and before Signs of Neuronal Death
title_fullStr Lymphocytes with Cytotoxic Activity Induce Rapid Microtubule Axonal Destabilization Independently and before Signs of Neuronal Death
title_full_unstemmed Lymphocytes with Cytotoxic Activity Induce Rapid Microtubule Axonal Destabilization Independently and before Signs of Neuronal Death
title_sort lymphocytes with cytotoxic activity induce rapid microtubule axonal destabilization independently and before signs of neuronal death
publisher SAGE Publishing
series ASN Neuro
issn 1759-0914
1759-9091
publishDate 2013-01-01
description MS (multiple sclerosis) is the most prevalent autoimmune disease of the CNS (central nervous system) historically characterized as an inflammatory and demyelinating disease. More recently, extensive neuronal pathology has lead to its classification as a neurodegenerative disease as well. While the immune system initiates the autoimmune response it remains unclear how it orchestrates neuronal damage. In our previous studies, using in vitro cultured embryonic neurons, we demonstrated that MBP (myelin basic protein)-specific encephalitogenic CD4 T-cells induce early neuronal damage. In an extension of those studies, here we show that polarized CD4 Th1 and Th17 cells as wells as CD8 T-cells and NK (natural killer) cells induce microtubule destabilization within neurites in a contact-independent manner. Owing to the cytotoxic potential of these immune cells, we isolated the luminal components of lytic granules and determined that they were sufficient to drive microtubule destabilization. Since lytic granules contain cytolytic proteins, we determined that the induction of microtubule destabilization occurred prior to signs of apoptosis. Furthermore, we determined that microtubule destabilization was largely restricted to axons, sparing dendrites. This study demonstrated that lymphocytes with cytolytic activity have the capacity to directly drive MAD (microtubule axonal destabilization) in a bystander manner that is independent of neuronal death.
url https://doi.org/10.1042/AN20120087
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