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  1. Article: Quantitative characterisation of ipRGCs in retinal degeneration using a computation platform for extracting and reconstructing single neurons in 3D from a multi-colour labeled population.

    Procyk, Christopher A / Rodgers, Jessica / Zindy, Egor / Lucas, Robert J / Milosavljevic, Nina

    Frontiers in cellular neuroscience

    2022  Volume 16, Page(s) 1009321

    Abstract: Light has a profound impact on mammalian physiology and behavior. Intrinsically photosensitive retinal ganglion cells (ipRGCs) express the photopigment melanopsin, rendering them sensitive to light, and are involved in both image-forming vision and non- ... ...

    Abstract Light has a profound impact on mammalian physiology and behavior. Intrinsically photosensitive retinal ganglion cells (ipRGCs) express the photopigment melanopsin, rendering them sensitive to light, and are involved in both image-forming vision and non-image forming responses to light such as circadian photo-entrainment and the pupillary light reflex. Following outer photoreceptor degeneration, the death of rod and cone photoreceptors results in global re-modeling of the remnant neural retina. Although ipRGCs can continue signaling light information to the brain even in advanced stages of degeneration, it is unknown if all six morphologically distinct subtypes survive, or how their dendritic architecture may be affected. To answer these questions, we generated a computational platform-BRIAN (Brainbow Analysis of individual Neurons) to analyze Brainbow labeled tissues by allowing objective identification of voxels clusters in Principal Component Space, and their subsequent extraction to produce 3D images of single neurons suitable for analysis with existing tracing technology. We show that BRIAN can efficiently recreate single neurons or individual axonal projections from densely labeled tissue with sufficient anatomical resolution for subtype quantitative classification. We apply this tool to generate quantitative morphological information about ipRGCs in the degenerate retina including soma size, dendritic field size, dendritic complexity, and stratification. Using this information, we were able to identify cells whose characteristics match those reported for all six defined subtypes of ipRGC in the wildtype mouse retina (M1-M6), including the rare and complex M3 and M6 subtypes. This indicates that ipRGCs survive outer retinal degeneration with broadly normal morphology. We additionally describe one cell in the degenerate retina which matches the description of the Gigantic M1 cell in Humans which has not been previously identified in rodent.
    Language English
    Publishing date 2022-11-01
    Publishing country Switzerland
    Document type Journal Article
    ZDB-ID 2452963-1
    ISSN 1662-5102
    ISSN 1662-5102
    DOI 10.3389/fncel.2022.1009321
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  2. Article ; Online: Visual responses in the dorsal lateral geniculate nucleus at early stages of retinal degeneration in

    Procyk, Christopher A / Allen, Annette E / Martial, Franck P / Lucas, Robert J

    Journal of neurophysiology

    2019  Volume 122, Issue 4, Page(s) 1753–1764

    Abstract: Inherited retinal degenerations encompass a wide range of diseases that result in the death of rod and cone photoreceptors, eventually leading to irreversible blindness. Low vision survives at early stages of degeneration, at which point it could rely on ...

    Abstract Inherited retinal degenerations encompass a wide range of diseases that result in the death of rod and cone photoreceptors, eventually leading to irreversible blindness. Low vision survives at early stages of degeneration, at which point it could rely on residual populations of rod/cone photoreceptors as well as the inner retinal photoreceptor, melanopsin. To date, the impact of partial retinal degeneration on visual responses in the primary visual thalamus (dorsal lateral geniculate nucleus, dLGN) remains unknown, as does their relative reliance on surviving rod and cone photoreceptors vs. melanopsin. To answer these questions, we recorded visually evoked responses in the dLGN of anesthetized
    MeSH term(s) Animals ; Contrast Sensitivity ; Cyclic Nucleotide Phosphodiesterases, Type 6/genetics ; Evoked Potentials, Visual ; Gamma Rhythm ; Geniculate Bodies/physiopathology ; Mice ; Mice, Inbred C57BL ; Reaction Time ; Retinal Cone Photoreceptor Cells/pathology ; Retinal Cone Photoreceptor Cells/physiology ; Retinal Degeneration/genetics ; Retinal Degeneration/physiopathology ; Retinal Rod Photoreceptor Cells/pathology ; Retinal Rod Photoreceptor Cells/physiology ; Vision, Ocular
    Chemical Substances Cyclic Nucleotide Phosphodiesterases, Type 6 (EC 3.1.4.35)
    Language English
    Publishing date 2019-08-28
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 80161-6
    ISSN 1522-1598 ; 0022-3077
    ISSN (online) 1522-1598
    ISSN 0022-3077
    DOI 10.1152/jn.00231.2019
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  3. Article ; Online: Convergence of visual and whisker responses in the primary somatosensory thalamus (ventral posterior medial region) of the mouse.

    Allen, Annette E / Procyk, Christopher A / Brown, Timothy M / Lucas, Robert J

    The Journal of physiology

    2016  Volume 595, Issue 3, Page(s) 865–881

    Abstract: Key points: Using in vivo electrophysiology, we find that a subset of whisker-responsive neurons in the ventral posterior medial region (VPM) respond to visual stimuli. These light-responsive neurons in the VPM are particularly sensitive to optic flow. ... ...

    Abstract Key points: Using in vivo electrophysiology, we find that a subset of whisker-responsive neurons in the ventral posterior medial region (VPM) respond to visual stimuli. These light-responsive neurons in the VPM are particularly sensitive to optic flow. Presentation of optic flow stimuli modulates the amplitude of concurrent whisker responses. Visual information reaches the VPM via a circuit encompassing the visual cortex. These data represent a new example of cross-modal integration in the primary sensory thalamus.
    Abstract: Sensory signals reach the cortex via sense-specific thalamic nuclei. Here we report that neurons in the primary sensory thalamus of the mouse vibrissal system (the ventral posterior medial region; VPM) can be excited by visual as well as whisker stimuli. Using extracellular electrophysiological recordings from anaesthetized mice we first show that simple light steps can excite a subset of VPM neurons. We then test the ability of the VPM to respond to spatial patterns and show that many units are excited by visual motion in a direction-selective manner. Coherent movement of multiple objects (an artificial recreation of 'optic flow' that would usually occur during head rotations or body movements) best engages this visual motion response. We next show that, when co-applied with visual stimuli, the magnitude of responses to whisker deflections is highest in the presence of optic flow going in the opposite direction. Importantly, whisker response amplitude is also modulated by presentation of a movie recreating the mouse's visual experience during natural exploratory behaviour. We finally present functional and anatomical data indicating a functional connection (probably multisynaptic) from the primary visual cortex to VPM. These data provide a rare example of multisensory integration occurring at the level of the sensory thalamus, and provide evidence for dynamic regulation of whisker responses according to visual experience.
    MeSH term(s) Animals ; Male ; Mice, Inbred C57BL ; Physical Stimulation ; Reaction Time ; Thalamic Nuclei/physiology ; Vibrissae/physiology
    Language English
    Publishing date 2016-09-15
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 3115-x
    ISSN 1469-7793 ; 0022-3751
    ISSN (online) 1469-7793
    ISSN 0022-3751
    DOI 10.1113/JP272791
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  4. Article ; Online: Chemogenetic Activation of Melanopsin Retinal Ganglion Cells Induces Signatures of Arousal and/or Anxiety in Mice.

    Milosavljevic, Nina / Cehajic-Kapetanovic, Jasmina / Procyk, Christopher A / Lucas, Robert J

    Current biology : CB

    2016  Volume 26, Issue 17, Page(s) 2358–2363

    Abstract: Functional imaging and psychometric assessments indicate that bright light can enhance mood, attention, and cognitive performance in humans. Indirect evidence links these events to light detection by intrinsically photosensitive melanopsin-expressing ... ...

    Abstract Functional imaging and psychometric assessments indicate that bright light can enhance mood, attention, and cognitive performance in humans. Indirect evidence links these events to light detection by intrinsically photosensitive melanopsin-expressing retinal ganglion cells (mRGCs) [1-9]. However, there is currently no direct demonstration that mRGCs can have such an immediate effect on mood or behavioral state in any species. We addressed this deficit by using chemogenetics to selectively activate mRGCs, simulating the excitatory effects of bright light on this cell type in dark-housed mice. This specific manipulation evoked circadian phase resetting and pupil constriction (known consequences of mRGC activation). It also induced c-Fos (a marker of neuronal activation) in multiple nuclei in the hypothalamus (paraventricular, dorsomedial, and lateral hypothalamus), thalamus (paraventricular and centromedian thalamus), and limbic system (amygdala and nucleus accumbens). These regions influence numerous aspects of autonomic and neuroendocrine activity and are typically active during periods of wakefulness or arousal. By contrast, c-Fos was absent from the ventrolateral preoptic area (active during sleep). In standard behavioral tests (open field and elevated plus maze), mRGC activation induced behaviors commonly interpreted as anxiety like or as signs of increased alertness. Similar changes in behavior could be induced by bright light in wild-type and rodless and coneless mice, but not melanopsin knockout mice. These data demonstrate that mRGCs drive a light-dependent switch in behavioral motivation toward a more alert, risk-averse state. They also highlight the ability of this small fraction of retinal ganglion cells to realign activity in brain regions defining widespread aspects of physiology and behavior.
    MeSH term(s) Animals ; Anxiety ; Arousal ; Light ; Mice ; Mice, Knockout ; Retinal Ganglion Cells/physiology ; Rod Opsins/metabolism
    Chemical Substances Rod Opsins ; melanopsin
    Language English
    Publishing date 2016-07-14
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1071731-6
    ISSN 1879-0445 ; 0960-9822
    ISSN (online) 1879-0445
    ISSN 0960-9822
    DOI 10.1016/j.cub.2016.06.057
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  5. Article ; Online: Visual input to the mouse lateral posterior and posterior thalamic nuclei: photoreceptive origins and retinotopic order.

    Allen, Annette E / Procyk, Christopher A / Howarth, Michael / Walmsley, Lauren / Brown, Timothy M

    The Journal of physiology

    2016  Volume 594, Issue 7, Page(s) 1911–1929

    Abstract: Key points: The lateral posterior and posterior thalamic nuclei have been implicated in aspects of visually guided behaviour and reflex responses to light, including those dependent on melanopsin photoreception. Here we investigated the extent and basic ...

    Abstract Key points: The lateral posterior and posterior thalamic nuclei have been implicated in aspects of visually guided behaviour and reflex responses to light, including those dependent on melanopsin photoreception. Here we investigated the extent and basic properties of visually evoked activity across the mouse lateral posterior and posterior thalamus. We show that a subset of retinal projections to these regions derive from melanopsin-expressing retinal ganglion cells and find many cells that exhibit melanopsin-dependent changes in firing. We also show that subsets of cells across these regions integrate signals from both eyes in various ways and that, within the lateral posterior thalamus, visual responses are retinotopically ordered.
    Abstract: In addition to the primary thalamocortical visual relay in the lateral geniculate nuclei, a number of other thalamic regions contribute to aspects of visual processing. Thus, the lateral posterior thalamic nuclei (LP/pulvinar) appear important for various functions including determining visual saliency, visually guided behaviours and, alongside dorsal portions of the posterior thalamic nuclei (Po), multisensory processing of information related to aversive stimuli. However, despite the growing importance of mice as a model for understanding visual system organisation, at present we know very little about the basic visual response properties of cells in the mouse LP or Po. Prompted by earlier suggestions that melanopsin photoreception might be important for certain functions of these nuclei, we first employ specific viral tracing to show that a subset of retinal projections to the LP derive from melanopsin-expressing retinal ganglion cells. We next use multielectrode electrophysiology to demonstrate that LP and dorsal Po cells exhibit a variety of responses to simple visual stimuli including two distinct classes that express melanopsin-dependent changes in firing (together comprising ∼25% of neurons we recorded). We also show that subgroups of LP/Po cells integrate signals from both eyes in various ways and that, within the LP, visual responses are retinotopically ordered. Together our data reveal a diverse population of visually responsive neurons across the LP and dorsal Po whose properties align with some of the established functions of these nuclei and suggest new possible routes through which melanopsin photoreception could contribute to reflex light responses and/or higher order visual processing.
    MeSH term(s) Animals ; Evoked Potentials, Visual ; Lateral Thalamic Nuclei/cytology ; Lateral Thalamic Nuclei/physiology ; Mice ; Mice, Inbred C57BL ; Posterior Thalamic Nuclei/cytology ; Posterior Thalamic Nuclei/physiology ; Retinal Ganglion Cells/metabolism ; Retinal Ganglion Cells/physiology ; Rod Opsins/genetics ; Rod Opsins/metabolism ; Visual Pathways/cytology ; Visual Pathways/physiology
    Chemical Substances Rod Opsins ; melanopsin
    Language English
    Publishing date 2016-02-04
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 3115-x
    ISSN 1469-7793 ; 0022-3751
    ISSN (online) 1469-7793
    ISSN 0022-3751
    DOI 10.1113/JP271707
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  6. Article ; Online: Melanopsin-derived visual responses under light adapted conditions in the mouse dLGN.

    Davis, Katherine E / Eleftheriou, Cyril G / Allen, Annette E / Procyk, Christopher A / Lucas, Robert J

    PloS one

    2015  Volume 10, Issue 3, Page(s) e0123424

    Abstract: A direct projection from melanopsin-expressing intrinsically photosensitive retinal ganglion cells (ipRGCs) reaches the primary visual thalamus (dorsal lateral geniculate nucleus; dLGN). The significance of this melanopsin input to the visual system is ... ...

    Abstract A direct projection from melanopsin-expressing intrinsically photosensitive retinal ganglion cells (ipRGCs) reaches the primary visual thalamus (dorsal lateral geniculate nucleus; dLGN). The significance of this melanopsin input to the visual system is only recently being investigated. One unresolved question is the degree to which neurons in the dLGN could use melanopsin to track dynamic changes in light intensity under light adapted conditions. Here we set out to address this question. We were able to present full field steps visible only to melanopsin by switching between rod-isoluminant 'yellow' and 'blue' lights in a mouse lacking cone function (Cnga3-/-). In the retina these stimuli elicited melanopsin-like responses from a subset of ganglion cells. When presented to anaesthetised mice, we found that ~25-30% of visually responsive neurones in the contralateral dLGN responded to these melanopsin-isolating steps with small increases in firing rate. Such responses could be elicited even with fairly modest increases in effective irradiance (32% Michelson contrast for melanopsin). These melanopsin-driven responses were apparent at bright backgrounds (corresponding to twilight-daylight conditions), but their threshold irradiance was strongly dependent upon prior light exposure when stimuli were superimposed on a spectrally neutral ramping background light. While both onset and offset latencies were long for melanopsin-derived responses compared to those evoked by rods, there was great variability in these parameters with some cells responding to melanopsin steps in <1 s. These data indicate that a subset of dLGN units can employ melanopsin signals to detect modest changes in irradiance under photopic conditions.
    MeSH term(s) Animals ; Geniculate Bodies/metabolism ; Geniculate Bodies/physiology ; Light ; Light Signal Transduction/physiology ; Mice ; Photic Stimulation/methods ; Retina/metabolism ; Retina/physiology ; Retinal Cone Photoreceptor Cells/metabolism ; Retinal Cone Photoreceptor Cells/physiology ; Retinal Ganglion Cells/metabolism ; Retinal Ganglion Cells/physiology ; Rod Opsins/metabolism ; Thalamus/metabolism ; Thalamus/physiology
    Chemical Substances Rod Opsins ; melanopsin
    Language English
    Publishing date 2015
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ISSN 1932-6203
    ISSN (online) 1932-6203
    DOI 10.1371/journal.pone.0123424
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  7. Article ; Online: Restoration of visual function in advanced disease after transplantation of purified human pluripotent stem cell-derived cone photoreceptors.

    Ribeiro, Joana / Procyk, Christopher A / West, Emma L / O'Hara-Wright, Michelle / Martins, Monica F / Khorasani, Majid Moshtagh / Hare, Aura / Basche, Mark / Fernando, Milan / Goh, Debbie / Jumbo, Neeraj / Rizzi, Matteo / Powell, Kate / Tariq, Menahil / Michaelides, Michel / Bainbridge, James W B / Smith, Alexander J / Pearson, Rachael A / Gonzalez-Cordero, Anai /
    Ali, Robin R

    Cell reports

    2021  Volume 35, Issue 3, Page(s) 109022

    Abstract: Age-related macular degeneration and other macular diseases result in the loss of light-sensing cone photoreceptors, causing irreversible sight impairment. Photoreceptor replacement may restore vision by transplanting healthy cells, which must form new ... ...

    Abstract Age-related macular degeneration and other macular diseases result in the loss of light-sensing cone photoreceptors, causing irreversible sight impairment. Photoreceptor replacement may restore vision by transplanting healthy cells, which must form new synaptic connections with the recipient retina. Despite recent advances, convincing evidence of functional connectivity arising from transplanted human cone photoreceptors in advanced retinal degeneration is lacking. Here, we show restoration of visual function after transplantation of purified human pluripotent stem cell-derived cones into a mouse model of advanced degeneration. Transplanted human cones elaborate nascent outer segments and make putative synapses with recipient murine bipolar cells (BCs), which themselves undergo significant remodeling. Electrophysiological and behavioral assessments demonstrate restoration of surprisingly complex light-evoked retinal ganglion cell responses and improved light-evoked behaviors in treated animals. Stringent controls exclude alternative explanations, including material transfer and neuroprotection. These data provide crucial validation for photoreceptor replacement therapy and for the potential to rescue cone-mediated vision.
    MeSH term(s) Animals ; Biomarkers/metabolism ; Cell Differentiation ; Dependovirus/genetics ; Dependovirus/metabolism ; Disease Models, Animal ; Gene Expression ; Genetic Vectors/chemistry ; Genetic Vectors/metabolism ; Humans ; Induced Pluripotent Stem Cells/cytology ; Induced Pluripotent Stem Cells/metabolism ; Macular Degeneration/genetics ; Macular Degeneration/metabolism ; Macular Degeneration/pathology ; Macular Degeneration/therapy ; Male ; Mice ; Mice, Transgenic ; Mycotoxins/genetics ; Mycotoxins/metabolism ; Organoids/cytology ; Organoids/metabolism ; Organoids/transplantation ; Peripherins/genetics ; Peripherins/metabolism ; Photic Stimulation ; Primary Cell Culture ; Protein Kinase C-alpha/genetics ; Protein Kinase C-alpha/metabolism ; Receptors, Glutamate/genetics ; Receptors, Glutamate/metabolism ; Recovery of Function/physiology ; Retinal Bipolar Cells/cytology ; Retinal Bipolar Cells/metabolism ; Retinal Cone Photoreceptor Cells/cytology ; Retinal Cone Photoreceptor Cells/metabolism ; Retinal Ganglion Cells/cytology ; Retinal Ganglion Cells/metabolism ; Synapses/metabolism ; Transplantation, Heterologous ; Vision, Ocular/physiology
    Chemical Substances Biomarkers ; Mycotoxins ; Peripherins ; Prph2 protein, mouse ; Receptors, Glutamate ; phomopsin (64925-80-0) ; Prkca protein, mouse (EC 2.7.11.13) ; Protein Kinase C-alpha (EC 2.7.11.13)
    Language English
    Publishing date 2021-03-23
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 2649101-1
    ISSN 2211-1247 ; 2211-1247
    ISSN (online) 2211-1247
    ISSN 2211-1247
    DOI 10.1016/j.celrep.2021.109022
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  8. Article ; Online: Spatial receptive fields in the retina and dorsal lateral geniculate nucleus of mice lacking rods and cones.

    Procyk, Christopher A / Eleftheriou, Cyril G / Storchi, Riccardo / Allen, Annette E / Milosavljevic, Nina / Brown, Timothy M / Lucas, Robert J

    Journal of neurophysiology

    2015  Volume 114, Issue 2, Page(s) 1321–1330

    Abstract: In advanced retinal degeneration loss of rods and cones leaves melanopsin-expressing intrinsically photosensitive retinal ganglion cells (ipRGCs) as the only source of visual information. ipRGCs drive non-image-forming responses (e.g., circadian ... ...

    Abstract In advanced retinal degeneration loss of rods and cones leaves melanopsin-expressing intrinsically photosensitive retinal ganglion cells (ipRGCs) as the only source of visual information. ipRGCs drive non-image-forming responses (e.g., circadian photoentrainment) under such conditions but, despite projecting to the primary visual thalamus [dorsal lateral geniculate nucleus (dLGN)], do not support form vision. We wished to determine what precludes ipRGCs supporting spatial discrimination after photoreceptor loss, using a mouse model (rd/rd cl) lacking rods and cones. Using multielectrode arrays, we found that both RGCs and neurons in the dLGN of this animal have clearly delineated spatial receptive fields. In the retina, they are typically symmetrical, lack inhibitory surrounds, and have diameters in the range of 10-30° of visual space. Receptive fields in the dLGN were larger (diameters typically 30-70°) but matched the retinotopic map of the mouse dLGN. Injections of a neuroanatomical tracer (cholera toxin β-subunit) into the dLGN confirmed that retinotopic order of ganglion cell projections to the dLGN and thalamic projections to the cortex is at least superficially intact in rd/rd cl mice. However, as previously reported for deafferented ipRGCs, onset and offset of light responses have long latencies in the rd/rd cl retina and dLGN. Accordingly, dLGN neurons failed to track dynamic changes in light intensity in this animal. Our data reveal that ipRGCs can convey spatial information in advanced retinal degeneration and identify their poor temporal fidelity as the major limitation in their ability to provide information about spatial patterns under natural viewing conditions.
    MeSH term(s) Action Potentials ; Animals ; Cholera Toxin ; Female ; Geniculate Bodies/pathology ; Geniculate Bodies/physiology ; Male ; Mice, Inbred C3H ; Neuroanatomical Tract-Tracing Techniques ; Neuronal Tract-Tracers ; Photic Stimulation ; Retina/physiology ; Retinal Cone Photoreceptor Cells/pathology ; Retinal Cone Photoreceptor Cells/physiology ; Retinal Degeneration/physiopathology ; Retinal Ganglion Cells/pathology ; Retinal Ganglion Cells/physiology ; Retinal Rod Photoreceptor Cells/pathology ; Retinal Rod Photoreceptor Cells/physiology ; Rod Opsins/metabolism ; Vision Tests ; Vision, Ocular/physiology
    Chemical Substances Neuronal Tract-Tracers ; Rod Opsins ; melanopsin ; Cholera Toxin (9012-63-9)
    Language English
    Publishing date 2015-08
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 80161-6
    ISSN 1522-1598 ; 0022-3077
    ISSN (online) 1522-1598
    ISSN 0022-3077
    DOI 10.1152/jn.00368.2015
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  9. Article ; Online: Retinal output changes qualitatively with every change in ambient illuminance.

    Tikidji-Hamburyan, Alexandra / Reinhard, Katja / Seitter, Hartwig / Hovhannisyan, Anahit / Procyk, Christopher A / Allen, Annette E / Schenk, Martin / Lucas, Robert J / Münch, Thomas A

    Nature neuroscience

    2014  Volume 18, Issue 1, Page(s) 66–74

    Abstract: The collective activity pattern of retinal ganglion cells, the retinal code, underlies higher visual processing. How does the ambient illuminance of the visual scene influence this retinal output? We recorded from isolated mouse and pig retina and from ... ...

    Abstract The collective activity pattern of retinal ganglion cells, the retinal code, underlies higher visual processing. How does the ambient illuminance of the visual scene influence this retinal output? We recorded from isolated mouse and pig retina and from mouse dorsal lateral geniculate nucleus in vivo at up to seven ambient light levels covering the scotopic to photopic regimes. Across each luminance transition, most ganglion cells exhibited qualitative response changes, whereas they maintained stable responses within each luminance. We commonly observed the appearance and disappearance of ON responses in OFF cells and vice versa. Such qualitative response changes occurred for a variety of stimuli, including full-field and localized contrast steps and naturalistic movies. Our results suggest that the retinal code is not fixed but varies with every change of ambient luminance. This finding raises questions about signal processing within the retina and has implications for visual processing in higher brain areas.
    MeSH term(s) Animals ; Cyclic Nucleotide-Gated Cation Channels/genetics ; Cyclic Nucleotide-Gated Cation Channels/physiology ; Electrophysiological Phenomena/drug effects ; Electrophysiological Phenomena/physiology ; Environment ; GABA Antagonists/pharmacology ; Lighting ; Mice ; Mice, Inbred C57BL ; Mice, Knockout ; Photoreceptor Cells, Vertebrate/physiology ; Retina/drug effects ; Retina/physiology ; Retinal Ganglion Cells/physiology ; Swine ; gamma-Aminobutyric Acid/physiology
    Chemical Substances Cnga3 protein, mouse ; Cyclic Nucleotide-Gated Cation Channels ; GABA Antagonists ; gamma-Aminobutyric Acid (56-12-2)
    Language English
    Publishing date 2014-12-08
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1420596-8
    ISSN 1546-1726 ; 1097-6256
    ISSN (online) 1546-1726
    ISSN 1097-6256
    DOI 10.1038/nn.3891
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