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The Journal of Neuroscience, January 11, 2006, 26(2):696-707; doi:10.1523/JNEUROSCI.3653-05.2006

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Cellular/Molecular
Modulation by Brain Natriuretic Peptide of GABA Receptors on Rat Retinal ON-Type Bipolar Cells

Yong-Chun Yu, ^* Li-Hui Cao, ^* and Xiong-Li Yang

Institutes of Neurobiology and Brain Science, Fudan University, Shanghai 200433, China

Natriuretic peptides (NPs) may work as neuromodulators through their associated receptors [NP receptors (NPRs)]. By immunocytochemistry, we showed that NPR-A and NPR-B were expressed abundantly on both ON-type and OFF-type bipolar cells (BCs) in rat retina, including the dendrites, somata, and axon terminals. Whole-cell recordings made from isolated ON-type BCs further showed that brain natriuretic peptide (BNP) suppressed GABA_A receptor-, but not GABA_C receptor-, mediated currents of the BCs, which was blocked by the NPR-A antagonist anantin. The NPR-C agonist c-ANF [des(Gln¹⁸, Ser¹⁹, Gln²⁰, Leu²¹, Gly²²)ANF_4-23-NH₂] did not suppress GABA_A currents. The BNP effect on GABA_A currents was abolished with preincubation with the pGC-A/B antagonist HS-142-1 but mimicked by application of 8-bromoguanosine-3',5'-cyclomonophosphate. These results suggest that elevated levels of intracellular cGMP caused by activation of NPR-A may mediate the BNP effect. Internal infusion of the cGMP-dependent protein kinase G (PKG) inhibitor KT5823 essentially blocked the BNP-induced reduction of GABA_A currents. Moreover, calcium imaging showed that BNP caused a significant elevation of intracellular calcium that could be caused by increased calcium release from intracellular stores by PKG. The BNP effect was blocked by the ryanodine receptor modulators caffeine, ryanodine, and ruthenium red but not by the IP₃ receptor antagonists heparin and xestospongin-C. Furthermore, the BNP effect was abolished after application of the blocker of endoplasmic reticulum Ca²⁺-ATPase thapsigargin and greatly reduced by the calmodulin inhibitors W-7 and calmidazolium. We therefore conclude that the increased calcium release from ryanodine-sensitive calcium stores by BNP may be responsible for the BNP-caused GABA_A response suppression in ON-type BCs through stimulating calmodulin.

Key words: brain natriuretic peptide; GABA receptor; intracellular calcium; neuromodulation; bipolar cells; retina

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Received Aug 29, 2005; revised November 5, 2005; accepted November 13, 2005.

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