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  • Adenosine A(2A) receptor up-regulates retinal wave frequency via starburst amacrine cells in the developing rat retina.

Adenosine A(2A) receptor up-regulates retinal wave frequency via starburst amacrine cells in the developing rat retina.

PloS one (2014-04-30)
Pin-Chien Huang, Yu-Tien Hsiao, Shao-Yen Kao, Ching-Feng Chen, Yu-Chieh Chen, Chung-Wei Chiang, Chien-Fei Lee, Juu-Chin Lu, Yijuang Chern, Chih-Tien Wang
ZUSAMMENFASSUNG

Developing retinas display retinal waves, the patterned spontaneous activity essential for circuit refinement. During the first postnatal week in rodents, retinal waves are mediated by synaptic transmission between starburst amacrine cells (SACs) and retinal ganglion cells (RGCs). The neuromodulator adenosine is essential for the generation of retinal waves. However, the cellular basis underlying adenosine's regulation of retinal waves remains elusive. Here, we investigated whether and how the adenosine A(2A) receptor (A(2A)R) regulates retinal waves and whether A(2A)R regulation of retinal waves acts via presynaptic SACs. We showed that A(2A)R was expressed in the inner plexiform layer and ganglion cell layer of the developing rat retina. Knockdown of A(2A)R decreased the frequency of spontaneous Ca²⁺ transients, suggesting that endogenous A(2A)R may up-regulate wave frequency. To investigate whether A(2A)R acts via presynaptic SACs, we targeted gene expression to SACs by the metabotropic glutamate receptor type II promoter. Ca²⁺ transient frequency was increased by expressing wild-type A(2A)R (A2AR-WT) in SACs, suggesting that A(2A)R may up-regulate retinal waves via presynaptic SACs. Subsequent patch-clamp recordings on RGCs revealed that presynaptic A(2A)R-WT increased the frequency of wave-associated postsynaptic currents (PSCs) or depolarizations compared to the control, without changing the RGC's excitability, membrane potentials, or PSC charge. These findings suggest that presynaptic A(2A)R may not affect the membrane properties of postsynaptic RGCs. In contrast, by expressing the C-terminal truncated A(2A)R mutant (A(2A)R-ΔC) in SACs, the wave frequency was reduced compared to the A(2A)R-WT, but was similar to the control, suggesting that the full-length A(2A)R in SACs is required for A(2A)R up-regulation of retinal waves. A(2A)R up-regulates the frequency of retinal waves via presynaptic SACs, requiring its full-length protein structure. Thus, by coupling with the downstream intracellular signaling, A(2A)R may have a great capacity to modulate patterned spontaneous activity during neural circuit refinement.

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Sigma-Aldrich
Anti-Cholin-Acetyltransferase-Antikörper, Chemicon®, from goat
Sigma-Aldrich
Monoklonaler Anti-α-Tubulin-Antikörper in Maus hergestellte Antikörper, ascites fluid, clone B-5-1-2
Sigma-Aldrich
Anti-Adenosine Receptor A2a Antibody, clone 7F6-G5-A2, clone 7F6-G5-A2, Upstate®, from mouse