The viral protein gp120 decreases the acetylation of neuronal tubulin: potential mechanism of neurotoxicity

The human immunodeficiency virus (HIV) envelope protein gp120 promotes axonal damage and neurite pruning, similar to that observed in HIV‐positive subjects with neurocognitive disorders. Thus, gp120 has been used to examine molecular and cellular pathways underlying HIV‐mediated neuronal dysfunction...

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Published inJournal of neurochemistry Vol. 141; no. 4; pp. 606 - 613
Main Authors Avdoshina, Valeria, Caragher, Seamus P., Wenzel, Erin D., Taraballi, Francesca, Mocchetti, Italo, Harry, Gaylia Jean
Format Journal Article
LanguageEnglish
Published England Blackwell Publishing Ltd 01.05.2017
Subjects
Acetylation
AIDS Dementia Complex - pathology
Animals
Cells, Cultured
Cerebral cortex
Cognition
Disorders
Dynamic stability
Glycoprotein gp120
HAND
Helix‐A peptide
HIV
HIV Envelope Protein gp120 - pharmacology
HIV Envelope Protein gp120 - toxicity
HIV transgenic rats
Homeostasis
Human immunodeficiency virus
Humans
In vitro methods and tests
In vivo methods and tests
Interleukin 1
Interleukin-1beta - biosynthesis
Interleukin-1beta - genetics
Male
Microglia
Microtubules
Microtubules - drug effects
mRNA
Neurons - metabolism
Neurotoxicity
Polymerization
Post-translation
Protein Processing, Post-Translational
Pruning
Rats
Rats, Sprague-Dawley
Rats, Transgenic
Rodents
Translation
Tubulin
Tubulin - metabolism
Tumor Necrosis Factor-alpha - biosynthesis
Tumor Necrosis Factor-alpha - genetics
Viral envelope proteins
Viruses
HIV transgenic rats
Helix-A peptide
microtubules
microglia
HAND
Online AccessGet full text
ISSN0022-3042
1471-4159
DOI10.1111/jnc.14015

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Abstract The human immunodeficiency virus (HIV) envelope protein gp120 promotes axonal damage and neurite pruning, similar to that observed in HIV‐positive subjects with neurocognitive disorders. Thus, gp120 has been used to examine molecular and cellular pathways underlying HIV‐mediated neuronal dysfunction. Gp120 binds to tubulin beta III, a component of neuronal microtubules. Microtubule function, which modulates the homeostasis of neurons, is regulated by polymerization and post‐translational modifications. Based on these considerations, we tested the hypothesis that gp120 induces dynamic instability of neuronal microtubules. We first observed that gp120 prevents the normal polymerization of tubulin in vitro. We then tested whether gp120 alters the post‐translational modifications in tubulin by examining the ability of gp120 to change the levels of acetylated tubulin in primary rat neuronal cultures. Gp120 elicited a time‐dependent decrease in tubulin acetylation that was reversed by Helix‐A peptide, a compound that competitively displaces the binding of gp120 to neuronal microtubules. To determine whether post‐translational modifications in tubulin also occur in vivo, we measured acetylated tubulin in the cerebral cortex of HIV transgenic rats (HIV‐tg). We observed a decrease in tubulin acetylation in 5‐ and 9‐month‐old HIV‐tg rats when compared to age‐matched wild type. Neither changes in microglia morphology nor alterations in mRNA levels for interleukin‐1β and tumor necrosis factor α were detected in 5‐month‐old animals. Our findings propose neuronal microtubule instability as a novel mechanism of HIV neurotoxicity, without evidence of enhanced inflammation. In this study we show that HIV viral protein gp120 prevents the normal polymerization of tubulin. We demonstrated that gp120 decreases the levels of acetylated tubulin in primary rat neuronal cultures in a time‐dependent manner and that was reversed by a small peptide that displaces the binding of gp120 to neuronal microtubules. We also observed a decrease in tubulin acetylation in HIV‐tg rats. We propose neuronal microtubule instability as a novel mechanism of HIV neurotoxicity, without evidence of inflammation.
AbstractList The human immunodeficiency virus (HIV) envelope protein gp120 promotes axonal damage and neurite pruning, similar to that observed in HIV-positive subjects with neurocognitive disorders. Thus, gp120 has been used to examine molecular and cellular pathways underlying HIV-mediated neuronal dysfunction. Gp120 binds to tubulin beta III, a component of neuronal microtubules. Microtubule function, which modulates the homeostasis of neurons, is regulated by polymerization and post-translational modifications. Based on these considerations, we tested the hypothesis that gp120 induces dynamic instability of neuronal microtubules. We first observed that gp120 prevents the normal polymerization of tubulin in vitro . We then tested whether gp120 alters the post-translational modifications in tubulin by examining the ability of gp120 to change the levels of acetylated tubulin in primary rat neuronal cultures. Gp120 elicited a time-dependent decrease in tubulin acetylation that was reversed by Helix-A peptide, a compound that competitively displaces the binding of gp120 to neuronal microtubules. To determine whether post-translational modifications in tubulin also occur in vivo , we measured acetylated tubulin in the cerebral cortex of HIV transgenic rats (HIV-tg). We observed a decrease in tubulin acetylation in 5- and 9-month-old HIV-tg rats when compared to age-matched wild type. Neither changes in microglia morphology nor alterations in mRNA levels for interleukin-1β and tumor necrosis factor α were detected in 5-month-old animals. Our findings propose neuronal microtubule instability as a novel mechanism of HIV neurotoxicity, without evidence of enhanced inflammation.
The human immunodeficiency virus (HIV) envelope protein gp120 promotes axonal damage and neurite pruning, similar to that observed in HIV-positive subjects with neurocognitive disorders. Thus, gp120 has been used to examine molecular and cellular pathways underlying HIV-mediated neuronal dysfunction. Gp120 binds to tubulin beta III, a component of neuronal microtubules. Microtubule function, which modulates the homeostasis of neurons, is regulated by polymerization and post-translational modifications. Based on these considerations, we tested the hypothesis that gp120 induces dynamic instability of neuronal microtubules. We first observed that gp120 prevents the normal polymerization of tubulin in vitro. We then tested whether gp120 alters the post-translational modifications in tubulin by examining the ability of gp120 to change the levels of acetylated tubulin in primary rat neuronal cultures. Gp120 elicited a time-dependent decrease in tubulin acetylation that was reversed by Helix-A peptide, a compound that competitively displaces the binding of gp120 to neuronal microtubules. To determine whether post-translational modifications in tubulin also occur in vivo, we measured acetylated tubulin in the cerebral cortex of HIV transgenic rats (HIV-tg). We observed a decrease in tubulin acetylation in 5- and 9-month-old HIV-tg rats when compared to age-matched wild type. Neither changes in microglia morphology nor alterations in mRNA levels for interleukin-1β and tumor necrosis factor α were detected in 5-month-old animals. Our findings propose neuronal microtubule instability as a novel mechanism of HIV neurotoxicity, without evidence of enhanced inflammation.
The human immunodeficiency virus (HIV) envelope protein gp120 promotes axonal damage and neurite pruning, similar to that observed in HIV-positive subjects with neurocognitive disorders. Thus, gp120 has been used to examine molecular and cellular pathways underlying HIV-mediated neuronal dysfunction. Gp120 binds to tubulin beta III, a component of neuronal microtubules. Microtubule function, which modulates the homeostasis of neurons, is regulated by polymerization and post-translational modifications. Based on these considerations, we tested the hypothesis that gp120 induces dynamic instability of neuronal microtubules. We first observed that gp120 prevents the normal polymerization of tubulin in vitro. We then tested whether gp120 alters the post-translational modifications in tubulin by examining the ability of gp120 to change the levels of acetylated tubulin in primary rat neuronal cultures. Gp120 elicited a time-dependent decrease in tubulin acetylation that was reversed by Helix-A peptide, a compound that competitively displaces the binding of gp120 to neuronal microtubules. To determine whether post-translational modifications in tubulin also occur in vivo, we measured acetylated tubulin in the cerebral cortex of HIV transgenic rats (HIV-tg). We observed a decrease in tubulin acetylation in 5- and 9-month-old HIV-tg rats when compared to age-matched wild type. Neither changes in microglia morphology nor alterations in mRNA levels for interleukin-1[beta] and tumor necrosis factor [alpha] were detected in 5-month-old animals. Our findings propose neuronal microtubule instability as a novel mechanism of HIV neurotoxicity, without evidence of enhanced inflammation.
The human immunodeficiency virus (HIV) envelope protein gp120 promotes axonal damage and neurite pruning, similar to that observed in HIV‐positive subjects with neurocognitive disorders. Thus, gp120 has been used to examine molecular and cellular pathways underlying HIV‐mediated neuronal dysfunction. Gp120 binds to tubulin beta III, a component of neuronal microtubules. Microtubule function, which modulates the homeostasis of neurons, is regulated by polymerization and post‐translational modifications. Based on these considerations, we tested the hypothesis that gp120 induces dynamic instability of neuronal microtubules. We first observed that gp120 prevents the normal polymerization of tubulin in vitro. We then tested whether gp120 alters the post‐translational modifications in tubulin by examining the ability of gp120 to change the levels of acetylated tubulin in primary rat neuronal cultures. Gp120 elicited a time‐dependent decrease in tubulin acetylation that was reversed by Helix‐A peptide, a compound that competitively displaces the binding of gp120 to neuronal microtubules. To determine whether post‐translational modifications in tubulin also occur in vivo, we measured acetylated tubulin in the cerebral cortex of HIV transgenic rats (HIV‐tg). We observed a decrease in tubulin acetylation in 5‐ and 9‐month‐old HIV‐tg rats when compared to age‐matched wild type. Neither changes in microglia morphology nor alterations in mRNA levels for interleukin‐1β and tumor necrosis factor α were detected in 5‐month‐old animals. Our findings propose neuronal microtubule instability as a novel mechanism of HIV neurotoxicity, without evidence of enhanced inflammation. In this study we show that HIV viral protein gp120 prevents the normal polymerization of tubulin. We demonstrated that gp120 decreases the levels of acetylated tubulin in primary rat neuronal cultures in a time‐dependent manner and that was reversed by a small peptide that displaces the binding of gp120 to neuronal microtubules. We also observed a decrease in tubulin acetylation in HIV‐tg rats. We propose neuronal microtubule instability as a novel mechanism of HIV neurotoxicity, without evidence of inflammation.
Author Avdoshina, Valeria
Wenzel, Erin D.
Taraballi, Francesca
Mocchetti, Italo
Caragher, Seamus P.
Harry, Gaylia Jean
AuthorAffiliation Department of Regenerative Medicine, Houston Methodist Research Institute, Houston, Texas, USA
Laboratory of Preclinical Neurobiology, Department of Neuroscience, Georgetown University Washington, Washington, District of Columbia, USA
National Toxicology Program Laboratory, National Institute of Environmental Health Science, Research Triangle Park, North Carolina, USA
Department of Pharmacology and Physiology, Georgetown University Washington, Washington, District of Columbia, USA
AuthorAffiliation_xml – name: Department of Pharmacology and Physiology, Georgetown University Washington, Washington, District of Columbia, USA
– name: Department of Regenerative Medicine, Houston Methodist Research Institute, Houston, Texas, USA
– name: National Toxicology Program Laboratory, National Institute of Environmental Health Science, Research Triangle Park, North Carolina, USA
– name: Laboratory of Preclinical Neurobiology, Department of Neuroscience, Georgetown University Washington, Washington, District of Columbia, USA
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  fullname: Avdoshina, Valeria
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  organization: Georgetown University Washington
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  surname: Caragher
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  organization: Georgetown University Washington
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  surname: Harry
  fullname: Harry, Gaylia Jean
  organization: National Institute of Environmental Health Science
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Keywords HIV transgenic rats
Helix-A peptide
microtubules
microglia
HAND
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2017 International Society for Neurochemistry.
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SSID ssj0016461
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Snippet The human immunodeficiency virus (HIV) envelope protein gp120 promotes axonal damage and neurite pruning, similar to that observed in HIV‐positive subjects...
The human immunodeficiency virus (HIV) envelope protein gp120 promotes axonal damage and neurite pruning, similar to that observed in HIV-positive subjects...
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SubjectTerms Acetylation
AIDS Dementia Complex - pathology
Animals
Cells, Cultured
Cerebral cortex
Cognition
Disorders
Dynamic stability
Glycoprotein gp120
HAND
Helix‐A peptide
HIV
HIV Envelope Protein gp120 - pharmacology
HIV Envelope Protein gp120 - toxicity
HIV transgenic rats
Homeostasis
Human immunodeficiency virus
Humans
In vitro methods and tests
In vivo methods and tests
Interleukin 1
Interleukin-1beta - biosynthesis
Interleukin-1beta - genetics
Male
Microglia
Microtubules
Microtubules - drug effects
mRNA
Neurons - metabolism
Neurotoxicity
Polymerization
Post-translation
Protein Processing, Post-Translational
Pruning
Rats
Rats, Sprague-Dawley
Rats, Transgenic
Rodents
Translation
Tubulin
Tubulin - metabolism
Tumor Necrosis Factor-alpha - biosynthesis
Tumor Necrosis Factor-alpha - genetics
Viral envelope proteins
Viruses
Title The viral protein gp120 decreases the acetylation of neuronal tubulin: potential mechanism of neurotoxicity
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fjnc.14015
https://www.ncbi.nlm.nih.gov/pubmed/28295345
https://www.proquest.com/docview/1895118714
https://pubmed.ncbi.nlm.nih.gov/PMC5815513
Volume 141
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