Allosteric modulation of retinal GABA receptors by ascorbic acid.

CI CALERO, E VICKERS, G MORAGA CID, LG. AGUAYO, H VON GERSDORFF, DJ CALVO

JOURNAL OF NEUROSCIENCE

SOC NEUROSCIENCE

Año: 2011 vol. 1 p. 1000 - 10000

0270-6474

Ionotropic  gamma-aminobutyric  acid  receptors  (GABAA  and  GABAC)  belong  to  the  cys-loop receptor  family  of  ligand-gated  ion  channels. GABAC  receptors  are  highly  expressed  in  the retina,  mainly  localized  at  the  axon  terminals  of  bipolar  cells.  Ascorbic  acid,  an  endogenous redox agent, modulates the function of diverse proteins, and basal levels of ascorbic acid in the retina  are  very  high.  However,  the  effect  of  ascorbic  acid  on  retinal  GABA  receptors  has  not been studied. Here we show that the function of GABAC and GABAA receptors is regulated by ascorbic  acid.  Patch-clamp  recordings  from  bipolar  cell  terminals  in  goldfish  retinal  slices revealed  that  GABAC  receptor-mediated  currents  activated  by  tonic  background  levels  of extracellular  GABA,  and  GABAC  currents  elicited  by  local  GABA  puffs,  are  both  significantly enhanced  by  ascorbic  acid.  In  addition,  a  significant  rundown  of  GABA-puff  evoked  currents was  observed  in  the  absence  of  ascorbic  acid.  GABA-evoked  Cl-  currents  mediated  by homomeric ñ1 GABAC receptors expressed in Xenopus laevis oocytes were also potentiated by ascorbic acid in a concentration-dependent, stereospecific, reversible, and voltage-independent manner. Studies involving the chemical modification of sulfhydryl groups showed that the two cys-loop cysteines and histidine 141, all located in the ñ1 subunit extracellular domain, each play a key role in the modulation of GABAC receptors by ascorbic acid. Additionally, we show that retinal  GABAA  IPSCs  and  heterologously  expressed  GABAA  receptor  currents  are  similarly augmented by ascorbic acid. Our results suggest that ascorbic acid may act as an endogenous agent capable of potentiating GABAergic neurotransmission in the CNS