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Expression of genes involved in brain GABAergic neurotransmission in three-spined stickleback exposed to near-future CO2.


ABSTRACT: Change in the activity of the main inhibitory receptor, GABAA, has been suggested to be a general mechanism behind the behavioural alterations reported in ocean acidification studies on fish. It has been proposed that regulatory acid-base mechanisms in response to high CO2 alter the neuronal Cl- and HCO3- gradients that are important for GABAA receptor function. Here, we report a comprehensive analysis of gene expression of GABAA receptor subunits and of genes involved in GABAergic transmission in the brain of fish exposed to near-future CO2. Altogether, 56 mRNA transcripts were quantified in brains of three-spined stickleback (Gasterosteus aculeatus) kept in control pCO2 (333 ± 30 ?atm CO2) or at high pCO2 levels (991 ± 57 ?atm) for 43 days. The gene expression analysis included GABAA receptor subunits (?1-6, ?1-3, ?1-3, ?, ? and ?1-3), enzymes and transporters involved in GABA metabolism (GAD1-2, GABAT and GAT1-3), GABAA receptor-associated proteins (GABARAP and GABARAPL), ion cotransporters (KCC1-4, NKCC1, ClC21-3, AE3 and NDAE) and carbonic anhydrase (CAII). Exposure to high CO2 had only minor effects on the expression of genes involved in GABAergic neurotransmission. There were significant increases in the mRNA levels of ? family subunits of the GABAA receptor, with a more pronounced expression of ?12, ?3, ?4 and ?6b. No changes were detected in the expression of other GABAA subunits or in genes related to receptor turnover, GABA metabolism or ion transport. Although the minor changes seen for mRNA levels might reflect compensatory mechanisms in the high-CO2 conditions, these were apparently insufficient to restore normal neural function, because the behavioural changes persisted within the time frame studied.

SUBMITTER: Lai F 

PROVIDER: S-EPMC5196030 | biostudies-literature | 2016

REPOSITORIES: biostudies-literature

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Expression of genes involved in brain GABAergic neurotransmission in three-spined stickleback exposed to near-future CO<sub>2</sub>.

Lai Floriana F   Fagernes Cathrine E CE   Jutfelt Fredrik F   Nilsson Göran E GE  

Conservation physiology 20161229 1


Change in the activity of the main inhibitory receptor, GABA<sub>A</sub>, has been suggested to be a general mechanism behind the behavioural alterations reported in ocean acidification studies on fish. It has been proposed that regulatory acid-base mechanisms in response to high CO<sub>2</sub> alter the neuronal Cl<sup>-</sup> and HCO<sub>3</sub><sup>-</sup> gradients that are important for GABA<sub>A</sub> receptor function. Here, we report a comprehensive analysis of gene expression of GABA<s  ...[more]

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