Assessing Neuronal and Astrocyte Derived Exosomes From Individuals With Mild Traumatic Brain Injury for Markers of Neurodegeneration and Cytotoxic Activity

Assessing Neuronal and Astrocyte Derived Exosomes From Individuals With Mild Traumatic Brain Injury for Markers of Neurodegeneration and Cytotoxic Activity

Mild traumatic brain injury (mTBI) disproportionately affects military service members and is very difficult to diagnose. To-date, there is currently no blood-based, diagnostic biomarker for mTBI cases with persistent post concussive symptoms. To examine the potential of neuronally-derived (NDE) and...

Full description

Bibliographic Details
Main Authors: Charisse N. Winston, Haylie K. Romero, Maya Ellisman, Sophie Nauss, David A. Julovich, Tori Conger, James R. Hall, Wendy Campana, Sid E. O’Bryant, Caroline M. Nievergelt, Dewleen G. Baker, Victoria B. Risbrough, Robert A. Rissman
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-10-01
Series:Frontiers in Neuroscience
Subjects:
traumatic brain injury
neuronal exosomes
astrocytes
amyloid
tau
Online Access:https://www.frontiersin.org/article/10.3389/fnins.2019.01005/full
id doaj-b7d761da37a541618003c1eff7ef0ea5
record_format Article
collection DOAJ
language English
format Article
sources DOAJ
author Charisse N. Winston
Haylie K. Romero
Maya Ellisman
Sophie Nauss
David A. Julovich
Tori Conger
James R. Hall
Wendy Campana
Wendy Campana
Sid E. O’Bryant
Caroline M. Nievergelt
Caroline M. Nievergelt
Dewleen G. Baker
Dewleen G. Baker
Victoria B. Risbrough
Victoria B. Risbrough
Robert A. Rissman
Robert A. Rissman
spellingShingle Charisse N. Winston
Haylie K. Romero
Maya Ellisman
Sophie Nauss
David A. Julovich
Tori Conger
James R. Hall
Wendy Campana
Wendy Campana
Sid E. O’Bryant
Caroline M. Nievergelt
Caroline M. Nievergelt
Dewleen G. Baker
Dewleen G. Baker
Victoria B. Risbrough
Victoria B. Risbrough
Robert A. Rissman
Robert A. Rissman
Assessing Neuronal and Astrocyte Derived Exosomes From Individuals With Mild Traumatic Brain Injury for Markers of Neurodegeneration and Cytotoxic Activity
Frontiers in Neuroscience
traumatic brain injury
neuronal exosomes
astrocytes
amyloid
tau
author_facet Charisse N. Winston
Haylie K. Romero
Maya Ellisman
Sophie Nauss
David A. Julovich
Tori Conger
James R. Hall
Wendy Campana
Wendy Campana
Sid E. O’Bryant
Caroline M. Nievergelt
Caroline M. Nievergelt
Dewleen G. Baker
Dewleen G. Baker
Victoria B. Risbrough
Victoria B. Risbrough
Robert A. Rissman
Robert A. Rissman
author_sort Charisse N. Winston
title Assessing Neuronal and Astrocyte Derived Exosomes From Individuals With Mild Traumatic Brain Injury for Markers of Neurodegeneration and Cytotoxic Activity
title_short Assessing Neuronal and Astrocyte Derived Exosomes From Individuals With Mild Traumatic Brain Injury for Markers of Neurodegeneration and Cytotoxic Activity
title_full Assessing Neuronal and Astrocyte Derived Exosomes From Individuals With Mild Traumatic Brain Injury for Markers of Neurodegeneration and Cytotoxic Activity
title_fullStr Assessing Neuronal and Astrocyte Derived Exosomes From Individuals With Mild Traumatic Brain Injury for Markers of Neurodegeneration and Cytotoxic Activity
title_full_unstemmed Assessing Neuronal and Astrocyte Derived Exosomes From Individuals With Mild Traumatic Brain Injury for Markers of Neurodegeneration and Cytotoxic Activity
title_sort assessing neuronal and astrocyte derived exosomes from individuals with mild traumatic brain injury for markers of neurodegeneration and cytotoxic activity
publisher Frontiers Media S.A.
series Frontiers in Neuroscience
issn 1662-453X
publishDate 2019-10-01
description Mild traumatic brain injury (mTBI) disproportionately affects military service members and is very difficult to diagnose. To-date, there is currently no blood-based, diagnostic biomarker for mTBI cases with persistent post concussive symptoms. To examine the potential of neuronally-derived (NDE) and astrocytic-derived (ADE) exosome cargo proteins as biomarkers of chronic mTBI in younger adults, we examined plasma exosomes from a prospective longitudinal study of combat-related risk and resilience, marine resiliency study II (MRSII). After return from a combat-deployment participants were interviewed to assess TBI exposure while on deployment. Plasma exosomes from military service members with mTBI (mean age, 21.7 years, n = 19, avg. days since injury 151), and age-matched, controls (deployed service members who did not endorse a deployment-related TBI or a pre-deployment history of TBI; mean age, 21.95 years, n = 20) were precipitated and enriched against a neuronal adhesion protein, L1-CAM, and an astrocyte marker, glutamine aspartate transporter (GLAST) using magnetic beads to immunocapture the proteins and subsequently selected by fluorescent activated cell sorting (FACS). Extracted protein cargo from NDE and ADE preparations were quantified for protein levels implicated in TBI neuropathology by standard ELISAs and on the ultra-sensitive single molecule assay (Simoa) platform. Plasma NDE and ADE levels of Aβ42 were significantly higher while plasma NDE and ADE levels of the postsynaptic protein, neurogranin (NRGN) were significantly lower in participants endorsing mTBI exposure compared to controls with no TBI history. Plasma NDE and ADE levels of Aβ40, total tau, and neurofilament light (NFL), P-T181-tau, P-S396-tau were either undetectable or not significantly different between the two groups. In an effort to understand the pathogenetic potential of NDE and ADE cargo proteins, neuron-like cultures were treated with NDE and ADE preparations from TBI and non-TBI groups. Lastly, we determined that plasma NDE but not ADE cargo proteins from mTBI samples were found to be toxic to neuron-like recipient cells in vitro. These data support the presence of markers of neurodegeneration in NDEs of mTBI and suggest that these NDEs can be used as tools to identify pathogenic mechanisms of TBI.
topic traumatic brain injury
neuronal exosomes
astrocytes
amyloid
tau
url https://www.frontiersin.org/article/10.3389/fnins.2019.01005/full
work_keys_str_mv AT charissenwinston assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT hayliekromero assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT mayaellisman assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT sophienauss assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT davidajulovich assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT toriconger assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT jamesrhall assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT wendycampana assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT wendycampana assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT sideobryant assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT carolinemnievergelt assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT carolinemnievergelt assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT dewleengbaker assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT dewleengbaker assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT victoriabrisbrough assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT victoriabrisbrough assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT robertarissman assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
AT robertarissman assessingneuronalandastrocytederivedexosomesfromindividualswithmildtraumaticbraininjuryformarkersofneurodegenerationandcytotoxicactivity
_version_ 1725001192418836480
spelling doaj-b7d761da37a541618003c1eff7ef0ea52020-11-25T01:50:34ZengFrontiers Media S.A.Frontiers in Neuroscience1662-453X2019-10-011310.3389/fnins.2019.01005475306Assessing Neuronal and Astrocyte Derived Exosomes From Individuals With Mild Traumatic Brain Injury for Markers of Neurodegeneration and Cytotoxic ActivityCharisse N. Winston0Haylie K. Romero1Maya Ellisman2Sophie Nauss3David A. Julovich4Tori Conger5James R. Hall6Wendy Campana7Wendy Campana8Sid E. O’Bryant9Caroline M. Nievergelt10Caroline M. Nievergelt11Dewleen G. Baker12Dewleen G. Baker13Victoria B. Risbrough14Victoria B. Risbrough15Robert A. Rissman16Robert A. Rissman17Department of Neurosciences, University of California, San Diego, La Jolla, CA, United StatesDepartment of Anesthesiology, University of California, San Diego, La Jolla, CA, United StatesDepartment of Neurosciences, University of California, San Diego, La Jolla, CA, United StatesDepartment of Neurosciences, University of California, San Diego, La Jolla, CA, United StatesDepartment of Pharmacology and Neuroscience, Institute for Translational Research, University of North Texas Health Science Center, Fort Worth, TX, United StatesDepartment of Pharmacology and Neuroscience, Institute for Translational Research, University of North Texas Health Science Center, Fort Worth, TX, United StatesDepartment of Pharmacology and Neuroscience, Institute for Translational Research, University of North Texas Health Science Center, Fort Worth, TX, United StatesDepartment of Anesthesiology, University of California, San Diego, La Jolla, CA, United StatesVA San Diego Healthcare System, La Jolla, CA, United StatesDepartment of Pharmacology and Neuroscience, Institute for Translational Research, University of North Texas Health Science Center, Fort Worth, TX, United StatesCenter of Excellence for Stress and Mental Health, La Jolla, CA, United StatesDepartment of Psychiatry, University of California, San Diego, La Jolla, CA, United StatesCenter of Excellence for Stress and Mental Health, La Jolla, CA, United StatesDepartment of Psychiatry, University of California, San Diego, La Jolla, CA, United StatesCenter of Excellence for Stress and Mental Health, La Jolla, CA, United StatesDepartment of Psychiatry, University of California, San Diego, La Jolla, CA, United StatesDepartment of Neurosciences, University of California, San Diego, La Jolla, CA, United StatesVA San Diego Healthcare System, La Jolla, CA, United StatesMild traumatic brain injury (mTBI) disproportionately affects military service members and is very difficult to diagnose. To-date, there is currently no blood-based, diagnostic biomarker for mTBI cases with persistent post concussive symptoms. To examine the potential of neuronally-derived (NDE) and astrocytic-derived (ADE) exosome cargo proteins as biomarkers of chronic mTBI in younger adults, we examined plasma exosomes from a prospective longitudinal study of combat-related risk and resilience, marine resiliency study II (MRSII). After return from a combat-deployment participants were interviewed to assess TBI exposure while on deployment. Plasma exosomes from military service members with mTBI (mean age, 21.7 years, n = 19, avg. days since injury 151), and age-matched, controls (deployed service members who did not endorse a deployment-related TBI or a pre-deployment history of TBI; mean age, 21.95 years, n = 20) were precipitated and enriched against a neuronal adhesion protein, L1-CAM, and an astrocyte marker, glutamine aspartate transporter (GLAST) using magnetic beads to immunocapture the proteins and subsequently selected by fluorescent activated cell sorting (FACS). Extracted protein cargo from NDE and ADE preparations were quantified for protein levels implicated in TBI neuropathology by standard ELISAs and on the ultra-sensitive single molecule assay (Simoa) platform. Plasma NDE and ADE levels of Aβ42 were significantly higher while plasma NDE and ADE levels of the postsynaptic protein, neurogranin (NRGN) were significantly lower in participants endorsing mTBI exposure compared to controls with no TBI history. Plasma NDE and ADE levels of Aβ40, total tau, and neurofilament light (NFL), P-T181-tau, P-S396-tau were either undetectable or not significantly different between the two groups. In an effort to understand the pathogenetic potential of NDE and ADE cargo proteins, neuron-like cultures were treated with NDE and ADE preparations from TBI and non-TBI groups. Lastly, we determined that plasma NDE but not ADE cargo proteins from mTBI samples were found to be toxic to neuron-like recipient cells in vitro. These data support the presence of markers of neurodegeneration in NDEs of mTBI and suggest that these NDEs can be used as tools to identify pathogenic mechanisms of TBI.https://www.frontiersin.org/article/10.3389/fnins.2019.01005/fulltraumatic brain injuryneuronal exosomesastrocytesamyloidtau

Similar Items