1. Receptive field properties of bipolar cell axon terminals in direction-selective sublaminas of the mouse retina
- Author
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Loren L. Looger, Seunghoon Lee, Silvia J. H. Park, Minggang Chen, and Z. Jimmy Zhou
- Subjects
Male ,Retinal Bipolar Cells ,Physiology ,Nerve net ,Models, Neurological ,Sensory Processing ,Optogenetics ,Axon hillock ,Mice ,Glutamatergic ,medicine ,Animals ,Telodendron ,Calcium Signaling ,GABAergic Neurons ,Axon ,Physics ,Retina ,General Neuroscience ,Axons ,Amacrine Cells ,medicine.anatomical_structure ,Receptive field ,Synapses ,Female ,Nerve Net ,Visual Fields ,Neuroscience ,Photic Stimulation - Abstract
Retinal bipolar cells (BCs) transmit visual signals in parallel channels from the outer to the inner retina, where they provide glutamatergic inputs to specific networks of amacrine and ganglion cells. Intricate network computation at BC axon terminals has been proposed as a mechanism for complex network computation, such as direction selectivity, but direct knowledge of the receptive field property and the synaptic connectivity of the axon terminals of various BC types is required in order to understand the role of axonal computation by BCs. The present study tested the essential assumptions of the presynaptic model of direction selectivity at axon terminals of three functionally distinct BC types that ramify in the direction-selective strata of the mouse retina. Results from two-photon Ca2+ imaging, optogenetic stimulation, and dual patch-clamp recording demonstrated that 1) CB5 cells do not receive fast GABAergic synaptic feedback from starburst amacrine cells (SACs); 2) light-evoked and spontaneous Ca2+ responses are well coordinated among various local regions of CB5 axon terminals; 3) CB5 axon terminals are not directionally selective; 4) CB5 cells consist of two novel functional subtypes with distinct receptive field structures; 5) CB7 cells provide direct excitatory synaptic inputs to, but receive no direct GABAergic synaptic feedback from, SACs; and 6) CB7 axon terminals are not directionally selective, either. These findings help to simplify models of direction selectivity by ruling out complex computation at BC terminals. They also show that CB5 comprises two functional subclasses of BCs.
- Published
- 2014
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