This is a geographically simple rule. Functionally, however, this arrangement allows something
more sophisticated. By tuning the characteristics of the cone-to-bipolar synapses, each type of bipolar cell can transmit a different parsing of the cone’s output. Bipolar cells express distinctive sets of receptors, ion channels, and intracellular signaling systems. This right away suggests that each of the cells has a unique physiology, and so far that has consistently turned out to be the case. see more As a consequence, it is believed that each of the ∼12 anatomical types of bipolar cell that contacts a given cone transmits to the inner retina a different component extracted from the output of that cone. What types of information are segregated into the dozen parallel channels? A simple case is the blue cone bipolar. In the inner retina, this type of bipolar cell contacts
a ganglion cell that compares short and long wavelengths; the ganglion cell then becomes a blue-ON, green-OFF ganglion cell. In the ground squirrel (a favorite because it contains a large number of cones), the bipolar cells that contact both classes of cones have been shown to have the expected broad spectral sensitivity, and presumably transmit the simple brightness of a stimulus, independent Palbociclib of its color (Breuninger et al., 2011; Li and DeVries, 2006). Among the non-chromatic bipolar cells, a classic example is the segregation of responses into ON and OFF channels, only the ON channels having their axon terminals
in the inner half of the inner plexiform layer (IPL) and the OFF bipolars having their terminals in the outer half (Famiglietti et al., 1977; Nelson et al., 1978). The difference between ON and OFF responses is due to the expression of two classes of glutamate receptor. OFF bipolar cells express AMPA and kainate type receptors, which are cation channels opened by glutamate; since photoreceptor cells hyperpolarize in response to light, these bipolar cells hyperpolarize in response to light as well, because less glutamate arrives from the cone synapse. ON bipolar cells express mGluR6, a metabotropic receptor, which, when glutamate binds to the receptor, leads to closing of the cation channel TRPM1. The receptor is thus sign inverting. When light causes less glutamate to be received from the photoreceptor terminal, cation channels open and the cell depolarizes (Morgans et al., 2009; Shen et al., 2009). Similarly, the distinction between sustained and transient bipolar cells is caused by the expression of rapidly or slowly inactivating glutamate receptors (Awatramani and Slaughter, 2000; DeVries, 2000). This creates four classes of bipolar cells: ON-sustained, ON-transient, OFF-sustained, and OFF-transient.
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