Literature DB >> 12684450

Different circuits for ON and OFF retinal ganglion cells cause different contrast sensitivities.

Kareem A Zaghloul1, Kwabena Boahen, Jonathan B Demb.   

Abstract

The theory of "parallel pathways" predicts that, except for a sign reversal, ON and OFF ganglion cells are driven by a similar presynaptic circuit. To test this hypothesis, we measured synaptic inputs to ON and OFF cells as reflected in the subthreshold membrane potential. We made intracellular recordings from brisk-transient (Y) cells in the in vitro guinea pig retina and show that ON and OFF cells in fact express significant asymmetries in their synaptic inputs. An ON cell receives relatively linear input that modulates a single excitatory conductance; whereas an OFF cell receives rectified input that modulates both inhibitory and excitatory conductances. The ON pathway, blocked by L-AP-4, tonically inhibits an OFF cell at mean luminance and phasically inhibits an OFF cell during a light increment. Our results suggest that basal glutamate release is high at ON but not OFF bipolar terminals, and inhibition between pathways is unidirectional: ON --> OFF. These circuit asymmetries explain asymmetric contrast sensitivity observed in spiking behavior.

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Year:  2003        PMID: 12684450      PMCID: PMC6742092     

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  68 in total

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9.  Functional circuitry of the retinal ganglion cell's nonlinear receptive field.

Authors:  J B Demb; L Haarsma; M A Freed; P Sterling
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10.  Intensity-dependent, rapid activation of presynaptic metabotropic glutamate receptors at a central synapse.

Authors:  G B Awatramani; M M Slaughter
Journal:  J Neurosci       Date:  2001-01-15       Impact factor: 6.167
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  116 in total

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6.  Contrast adaptation in subthreshold and spiking responses of mammalian Y-type retinal ganglion cells.

Authors:  Kareem A Zaghloul; Kwabena Boahen; Jonathan B Demb
Journal:  J Neurosci       Date:  2005-01-26       Impact factor: 6.167

7.  Dopamine receptor activation can reduce voltage-gated Na+ current by modulating both entry into and recovery from inactivation.

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10.  Differential responses to high-frequency electrical stimulation in ON and OFF retinal ganglion cells.

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