Literature DB >> 19734895

Approach sensitivity in the retina processed by a multifunctional neural circuit.

Thomas A Münch1, Rava Azeredo da Silveira, Sandra Siegert, Tim James Viney, Gautam B Awatramani, Botond Roska.   

Abstract

The detection of approaching objects, such as looming predators, is necessary for survival. Which neurons and circuits mediate this function? We combined genetic labeling of cell types, two-photon microscopy, electrophysiology and theoretical modeling to address this question. We identify an approach-sensitive ganglion cell type in the mouse retina, resolve elements of its afferent neural circuit, and describe how these confer approach sensitivity on the ganglion cell. The circuit's essential building block is a rapid inhibitory pathway: it selectively suppresses responses to non-approaching objects. This rapid inhibitory pathway, which includes AII amacrine cells connected to bipolar cells through electrical synapses, was previously described in the context of night-time vision. In the daytime conditions of our experiments, the same pathway conveys signals in the reverse direction. The dual use of a neural pathway in different physiological conditions illustrates the efficiency with which several functions can be accommodated in a single circuit.

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Year:  2009        PMID: 19734895     DOI: 10.1038/nn.2389

Source DB:  PubMed          Journal:  Nat Neurosci        ISSN: 1097-6256            Impact factor:   24.884


  46 in total

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Authors:  S A Bloomfield; R F Dacheux
Journal:  Prog Retin Eye Res       Date:  2001-05       Impact factor: 21.198

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Authors:  D Xin; S A Bloomfield
Journal:  Vis Neurosci       Date:  1999 Jul-Aug       Impact factor: 3.241

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Journal:  Nat Neurosci       Date:  1998-08       Impact factor: 24.884

Review 4.  Multiple neuronal connexins in the mammalian retina.

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Journal:  Cell Commun Adhes       Date:  2003 Jul-Dec

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Journal:  Science       Date:  1995-11-10       Impact factor: 47.728

6.  Relative contributions of rod and cone bipolar cell inputs to AII amacrine cell light responses in the mouse retina.

Authors:  Ji-Jie Pang; Muhammad M Abd-El-Barr; Fan Gao; Debra E Bramblett; David L Paul; Samuel M Wu
Journal:  J Physiol       Date:  2007-01-25       Impact factor: 5.182

7.  Feedback inhibition in the inner plexiform layer underlies the surround-mediated responses of AII amacrine cells in the mammalian retina.

Authors:  Béla Völgyi; Daiyan Xin; Stewart A Bloomfield
Journal:  J Physiol       Date:  2002-03-01       Impact factor: 5.182

8.  Studies on the optic chiasm of the leopard frog. I. Selective loss of visually elicited avoidance behavior after optic chiasm hemisection.

Authors:  R F Waldeck; E R Gruberg
Journal:  Brain Behav Evol       Date:  1995       Impact factor: 1.808

9.  The network-selective actions of quinoxalines on the neurocircuitry operations of the rabbit retina.

Authors:  E D Cohen; R F Miller
Journal:  Brain Res       Date:  1999-06-12       Impact factor: 3.252

10.  Use of a distracting task to obtain defensive head movements to looming visual stimuli by human adults in a laboratory setting.

Authors:  S M King; C Dykeman; P Redgrave; P Dean
Journal:  Perception       Date:  1992       Impact factor: 1.490
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  136 in total

1.  Spatially asymmetric reorganization of inhibition establishes a motion-sensitive circuit.

Authors:  Keisuke Yonehara; Kamill Balint; Masaharu Noda; Georg Nagel; Ernst Bamberg; Botond Roska
Journal:  Nature       Date:  2010-12-19       Impact factor: 49.962

2.  Optogenetic spatial and temporal control of cortical circuits on a columnar scale.

Authors:  Arani Roy; Jason J Osik; Neil J Ritter; Shen Wang; James T Shaw; József Fiser; Stephen D Van Hooser
Journal:  J Neurophysiol       Date:  2015-12-02       Impact factor: 2.714

3.  Morphology and function of three VIP-expressing amacrine cell types in the mouse retina.

Authors:  Alejandro Akrouh; Daniel Kerschensteiner
Journal:  J Neurophysiol       Date:  2015-08-26       Impact factor: 2.714

4.  Visual stimulation switches the polarity of excitatory input to starburst amacrine cells.

Authors:  Anna L Vlasits; Rémi Bos; Ryan D Morrie; Cécile Fortuny; John G Flannery; Marla B Feller; Michal Rivlin-Etzion
Journal:  Neuron       Date:  2014-08-21       Impact factor: 17.173

Review 5.  Intrinsic properties and functional circuitry of the AII amacrine cell.

Authors:  Jonathan B Demb; Joshua H Singer
Journal:  Vis Neurosci       Date:  2012-01       Impact factor: 3.241

6.  Unusual Physiological Properties of Smooth Monostratified Ganglion Cell Types in Primate Retina.

Authors:  Colleen E Rhoades; Nishal P Shah; Michael B Manookin; Nora Brackbill; Alexandra Kling; Georges Goetz; Alexander Sher; Alan M Litke; E J Chichilnisky
Journal:  Neuron       Date:  2019-06-18       Impact factor: 17.173

7.  Two-photon imaging of nonlinear glutamate release dynamics at bipolar cell synapses in the mouse retina.

Authors:  Bart G Borghuis; Jonathan S Marvin; Loren L Looger; Jonathan B Demb
Journal:  J Neurosci       Date:  2013-07-03       Impact factor: 6.167

8.  Light adaptation alters the source of inhibition to the mouse retinal OFF pathway.

Authors:  Reece E Mazade; Erika D Eggers
Journal:  J Neurophysiol       Date:  2013-08-07       Impact factor: 2.714

9.  The most numerous ganglion cell type of the mouse retina is a selective feature detector.

Authors:  Yifeng Zhang; In-Jung Kim; Joshua R Sanes; Markus Meister
Journal:  Proc Natl Acad Sci U S A       Date:  2012-08-13       Impact factor: 11.205

10.  Fear paradigms: The times they are a-changin'.

Authors:  Jeansok J Kim; Min Whan Jung
Journal:  Curr Opin Behav Sci       Date:  2018-03-04
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