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Crosstalk Between GABAergic Neurotransmission and Inflammatory Cascades in the Post-ischemic Brain : Relevance for Stroke Recovery

Michalettos, Georgios LU and Ruscher, Karsten LU (2022) In Frontiers in Cellular Neuroscience 16.
Abstract

Adaptive plasticity processes are required involving neurons as well as non-neuronal cells to recover lost brain functions after an ischemic stroke. Recent studies show that gamma-Aminobutyric acid (GABA) has profound effects on glial and immune cell functions in addition to its inhibitory actions on neuronal circuits in the post-ischemic brain. Here, we provide an overview of how GABAergic neurotransmission changes during the first weeks after stroke and how GABA affects functions of astroglial and microglial cells as well as peripheral immune cell populations accumulating in the ischemic territory and brain regions remote to the lesion. Moreover, we will summarize recent studies providing data on the immunomodulatory actions of GABA... (More)

Adaptive plasticity processes are required involving neurons as well as non-neuronal cells to recover lost brain functions after an ischemic stroke. Recent studies show that gamma-Aminobutyric acid (GABA) has profound effects on glial and immune cell functions in addition to its inhibitory actions on neuronal circuits in the post-ischemic brain. Here, we provide an overview of how GABAergic neurotransmission changes during the first weeks after stroke and how GABA affects functions of astroglial and microglial cells as well as peripheral immune cell populations accumulating in the ischemic territory and brain regions remote to the lesion. Moreover, we will summarize recent studies providing data on the immunomodulatory actions of GABA of relevance for stroke recovery. Interestingly, the activation of GABA receptors on immune cells exerts a downregulation of detrimental anti-inflammatory cascades. Conversely, we will discuss studies addressing how specific inflammatory cascades affect GABAergic neurotransmission on the level of GABA receptor composition, GABA synthesis, and release. In particular, the chemokines CXCR4 and CX3CR1 pathways have been demonstrated to modulate receptor composition and synthesis. Together, the actual view on the interactions between GABAergic neurotransmission and inflammatory cascades points towards a specific crosstalk in the post-ischemic brain. Similar to what has been shown in experimental models, specific therapeutic modulation of GABAergic neurotransmission and inflammatory pathways may synergistically promote neuronal plasticity to enhance stroke recovery.

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publication status
published
subject
keywords
chemokine, GABA, glutamate decarboxylate, immune cell, inflammation, neurotransmission, stroke recovery
in
Frontiers in Cellular Neuroscience
volume
16
article number
807911
publisher
Frontiers Media S. A.
external identifiers
  • pmid:35401118
  • scopus:85128190640
ISSN
1662-5102
DOI
10.3389/fncel.2022.807911
language
English
LU publication?
yes
id
6ceee41e-f224-4b33-8cca-2e4868376467
date added to LUP
2022-07-01 11:50:25
date last changed
2024-06-14 20:34:42
@article{6ceee41e-f224-4b33-8cca-2e4868376467,
  abstract     = {{<p>Adaptive plasticity processes are required involving neurons as well as non-neuronal cells to recover lost brain functions after an ischemic stroke. Recent studies show that gamma-Aminobutyric acid (GABA) has profound effects on glial and immune cell functions in addition to its inhibitory actions on neuronal circuits in the post-ischemic brain. Here, we provide an overview of how GABAergic neurotransmission changes during the first weeks after stroke and how GABA affects functions of astroglial and microglial cells as well as peripheral immune cell populations accumulating in the ischemic territory and brain regions remote to the lesion. Moreover, we will summarize recent studies providing data on the immunomodulatory actions of GABA of relevance for stroke recovery. Interestingly, the activation of GABA receptors on immune cells exerts a downregulation of detrimental anti-inflammatory cascades. Conversely, we will discuss studies addressing how specific inflammatory cascades affect GABAergic neurotransmission on the level of GABA receptor composition, GABA synthesis, and release. In particular, the chemokines CXCR4 and CX3CR1 pathways have been demonstrated to modulate receptor composition and synthesis. Together, the actual view on the interactions between GABAergic neurotransmission and inflammatory cascades points towards a specific crosstalk in the post-ischemic brain. Similar to what has been shown in experimental models, specific therapeutic modulation of GABAergic neurotransmission and inflammatory pathways may synergistically promote neuronal plasticity to enhance stroke recovery.</p>}},
  author       = {{Michalettos, Georgios and Ruscher, Karsten}},
  issn         = {{1662-5102}},
  keywords     = {{chemokine; GABA; glutamate decarboxylate; immune cell; inflammation; neurotransmission; stroke recovery}},
  language     = {{eng}},
  month        = {{03}},
  publisher    = {{Frontiers Media S. A.}},
  series       = {{Frontiers in Cellular Neuroscience}},
  title        = {{Crosstalk Between GABAergic Neurotransmission and Inflammatory Cascades in the Post-ischemic Brain : Relevance for Stroke Recovery}},
  url          = {{http://dx.doi.org/10.3389/fncel.2022.807911}},
  doi          = {{10.3389/fncel.2022.807911}},
  volume       = {{16}},
  year         = {{2022}},
}