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Horizontal cells span across photoreceptors and summate inputs before synapsing onto photoreceptor cells. [1] [2] Horizontal cells may also synapse onto bipolar cells, but this remains uncertain. [1] [4] There is a greater density of horizontal cells towards the central region of the retina.
Cajal–Retzius cells (CR cells) (also known as horizontal cells of Cajal) are a heterogeneous population of morphologically and molecularly distinct reelin-producing cells. They are found in the marginal zone/layer I of the developing cerebral cortex and in the immature hippocampus of different species and at different times during ...
The horizontal cells lie in the outer part of the inner nuclear layer and possess somewhat flattened cell bodies.. Their dendrites divide into numerous branches in the outer plexiform layer, while their axons run horizontally for some distance and finally ramify in the same layer.
The horizontal cells introduce lateral inhibition to the dendrites and give rise to the center-surround inhibition which is apparent in retinal receptive fields. The amacrine cells also introduce lateral inhibition to the axon terminal, serving various visual functions including efficient signal transduction with high signal-to-noise ratio.
The photoreceptors are also cross-linked by horizontal cells and amacrine cells, which modify the synaptic signal before it reaches the ganglion cells, the neural signals being intermixed and combined. Of the retina's nerve cells, only the retinal ganglion cells and few amacrine cells create action potentials.
The Müller glia cell is the only retinal glial cell that shares a common cell lineage with retinal neurons. A subset of Müller glia has been shown to originate from neural crest cells. [ 3 ] They are shown to be critical to the development of the retina in mice, serving as promoters of retinal growth and histogenesis , via a nonspecific ...
Like horizontal cells, amacrine cells work laterally, but whereas horizontal cells are connected to the output of rod and cone cells, amacrine cells affect the output from bipolar cells, and are often more specialized. Each type of amacrine cell releases one or several neurotransmitters where it connects with other cells. [2]
It then bypasses the ganglion cells, amacrine cells, bipolar cells, and horizontal cells in order to reach the photoreceptors rod cells which absorb light. The rods become stimulated by the energy from the light and release an excitatory neural signal to the horizontal cells.