GABAA receptor plasticity in Jurkat T cells

GABAA receptors (GABAAR) mediate inhibitory neurotransmission in the human brain. Neurons modify subunit expression, cellular distribution and function of GABAAR in response to different stimuli, a process named plasticity. Human lymphocytes have a functional neuronal-like GABAergic system with GABA...

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Published in:Biochimie 2013-12, Vol.95 (12), p.2376-2384
Main Authors: Dionisio, Leonardo, Arias, Verónica, Bouzat, Cecilia, Esandi, María del Carmen
Format: Article
Language:English
Subjects:
GABA
GABAA receptors
gamma-Aminobutyric Acid - pharmacology
Humans
Insulin - pharmacology
Jurkat Cells
Lymphocytes
Neuronal Plasticity - drug effects
Neuronal Plasticity - physiology
Phosphorylation
Plasticity
Progesterone - pharmacology
Protein Subunits - biosynthesis
Proto-Oncogene Proteins c-akt - metabolism
Receptors, GABA-A - biosynthesis
Receptors, GABA-A - drug effects
Receptors, GABA-A - physiology
RNA, Messenger - metabolism
T-Lymphocytes - drug effects
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cites cdi_FETCH-LOGICAL-c441t-72bf7b71bba8c44961f92fca8c4e078c90eea64e6e3038989cd31c3fd91a53833
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container_issue 12
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creator Dionisio, Leonardo
Arias, Verónica
Bouzat, Cecilia
Esandi, María del Carmen
description GABAA receptors (GABAAR) mediate inhibitory neurotransmission in the human brain. Neurons modify subunit expression, cellular distribution and function of GABAAR in response to different stimuli, a process named plasticity. Human lymphocytes have a functional neuronal-like GABAergic system with GABAAR acting as inhibitors of proliferation. We here explore if receptor plasticity occurs in lymphocytes. To this end, we analyzed human T lymphocyte Jurkat cells exposed to different physiological stimuli shown to mediate plasticity in neurons: GABA, progesterone and insulin. The exposure to 100 μM GABA differently affected the expression of GABAAR subunits measured at both the mRNA and protein level, showing an increase of α1, β3, and γ2 subunits but no changes in δ subunit. Exposure of Jurkat cells to different stimuli produced different changes in subunit expression: 0.1 μM progesterone decreased δ and 0.5 μM insulin increased β3 subunits. To identify the mechanisms underlying plasticity, we evaluated the Akt pathway, which is involved in the phosphorylation of β subunits and receptor translocation to the membrane. A significant increase of phosphorylated Akt and on the expression of β3 subunit in membrane occurred in cells exposed 15 h to GABA. To determine if plastic changes are translated into functional changes, we performed whole cell recordings. After 15 h GABA-exposure, a significantly higher percentage of cells responded to GABA application when compared to 0 and 40 h exposure, thus indicating that the detected plastic changes may have a role in GABA-modulated lymphocyte function. Our results reveal that lymphocyte GABAAR are modified by different stimuli similarly and by similar mechanisms to those in neurons. This property is of significance for the development of future therapies involving pharmacological modulation of the immune response. •Different stimuli induce changes in GABAA receptor subunits in Jurkat cells.•GABA exposure activates Akt pathway and increases surface GABAA receptors.•Two different time-scale mechanisms mediate the increase in surface GABAA receptor.•GABA exposure increases the percentage of cells showing GABA-elicited currents.•Lymphocyte GABAAR exhibit plasticity similar to neuronal receptors.
doi_str_mv 10.1016/j.biochi.2013.08.023
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subjects GABA
GABAA receptors
gamma-Aminobutyric Acid - pharmacology
Humans
Insulin - pharmacology
Jurkat Cells
Lymphocytes
Neuronal Plasticity - drug effects
Neuronal Plasticity - physiology
Phosphorylation
Plasticity
Progesterone - pharmacology
Protein Subunits - biosynthesis
Proto-Oncogene Proteins c-akt - metabolism
Receptors, GABA-A - biosynthesis
Receptors, GABA-A - drug effects
Receptors, GABA-A - physiology
RNA, Messenger - metabolism
T-Lymphocytes - drug effects
title GABAA receptor plasticity in Jurkat T cells
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