Transience of the Retinal Output Is Determined by a Great Variety of Circuit Elements

Author:

Ganczer Alma,Szarka Gergely,Balogh Márton,Hoffmann Gyula,Tengölics Ádám Jonatán,Kenyon Garrett,Kovács-Öller TamásORCID,Völgyi BélaORCID

Abstract

Retinal ganglion cells (RGCs) encrypt stimulus features of the visual scene in action potentials and convey them toward higher visual centers in the brain. Although there are many visual features to encode, our recent understanding is that the ~46 different functional subtypes of RGCs in the retina share this task. In this scheme, each RGC subtype establishes a separate, parallel signaling route for a specific visual feature (e.g., contrast, the direction of motion, luminosity), through which information is conveyed. The efficiency of encoding depends on several factors, including signal strength, adaptational levels, and the actual efficacy of the underlying retinal microcircuits. Upon collecting inputs across their respective receptive field, RGCs perform further analysis (e.g., summation, subtraction, weighting) before they generate the final output spike train, which itself is characterized by multiple different features, such as the number of spikes, the inter-spike intervals, response delay, and the rundown time (transience) of the response. These specific kinetic features are essential for target postsynaptic neurons in the brain in order to effectively decode and interpret signals, thereby forming visual perception. We review recent knowledge regarding circuit elements of the mammalian retina that participate in shaping RGC response transience for optimal visual signaling.

Funder

ERA-NET COFUND

National Research, Development and Innovation Office

Ministry of Human Capacities

Publisher

MDPI AG

Subject

General Medicine

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