Gap junctions fine-tune ganglion cell signals to equalize response kinetics within a given electrically coupled array

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Abstract

Retinal ganglion cells (RGCs) summate inputs and forward a spike train code to the brain in the form of either maintained spiking (sustained) or a quickly decaying brief spike burst (transient). We report diverse response transience values across the RGC population and, contrary to the conventional transient/sustained scheme, responses with intermediary characteristics are the most abundant. Pharmacological tests showed that besides GABAergic inhibition, gap junction (GJ)–mediated excitation also plays a pivotal role in shaping response transience and thus visual coding. More precisely GJs connecting RGCs to nearby amacrine and RGCs play a defining role in the process. These GJs equalize kinetic features, including the response transience of transient OFF alpha (tOFFα) RGCs across a coupled array. We propose that GJs in other coupled neuron ensembles in the brain are also critical in the harmonization of response kinetics to enhance the population code and suit a corresponding task.

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APA

Szarka, G., Ganczer, A., Balogh, M., Tengölics, Á. J., Futácsi, A., Kenyon, G., … Völgyi, B. (2024). Gap junctions fine-tune ganglion cell signals to equalize response kinetics within a given electrically coupled array. IScience, 27(6). https://doi.org/10.1016/j.isci.2024.110099

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