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1.
J Neurosci ; 2022 Jul 29.
Artigo em Inglês | MEDLINE | ID: mdl-35906066

RESUMO

Genetic disorders which present during development make treatment strategies particularly challenging because there is a need to disentangle primary pathophysiology from downstream dysfunction caused at key developmental stages. To provide a deeper insight into this question, we studied a mouse model of X-linked juvenile retinoschisis (XLRS), an early-onset inherited condition caused by mutations in the Rs1 gene encoding retinoschisin (RS1) and characterized by cystic retinal lesions and early visual deficits. Using an unbiased approach in expressing the fast intracellular calcium indicator GCaMP6f in neuronal, glial, and vascular cells of the retina of RS1-deficient male mice, we found that initial cyst formation is paralleled by the appearance of aberrant spontaneous neuro-glial signals as early as postnatal day 15, when eyes normally open. These presented as glutamate-driven wavelets of neuronal activity and sporadic radial bursts of activity by Müller glia, spanning all retinal layers and disrupting light-induced signaling. This study confers a role to RS1 beyond its function as an adhesion molecule, identifies an early onset for dysfunction in the course of disease, establishing a potential window for disease diagnosis and therapeutic intervention.Significance StatementDevelopmental disorders make it difficult to distinguish pathophysiology due to ongoing disease from pathophysiology due to disrupted development. Here, we investigated a mouse model for X-linked retinoschisis (XLRS), a well-defined monogenic degenerative disease caused by mutations in the Rs1 gene, which codes for the protein retinoschisin. We evaluated the spontaneous activity of explanted retinas lacking retinoschisin at key stages of development using the unbiased approach of ubiquitously expressing GCaMP6f in all retinal neurons, vasculature and glia. In mice lacking RS1, we found an array of novel phenotypes which present around eye-opening, are linked to glutamatergic neurotransmission, and affect visual processing. These data identify novel pathophysiology linked to RS1, and define a window where treatments might be best targeted.

2.
Proc Natl Acad Sci U S A ; 115(50): E11817-E11826, 2018 12 11.
Artigo em Inglês | MEDLINE | ID: mdl-30487225

RESUMO

Information transfer in the brain relies upon energetically expensive spiking activity of neurons. Rates of information flow should therefore be carefully optimized, but mechanisms to control this parameter are poorly understood. We address this deficit in the visual system, where ambient light (irradiance) is predictive of the amount of information reaching the eye and ask whether a neural measure of irradiance can therefore be used to proactively control information flow along the optic nerve. We first show that firing rates for the retina's output neurons [retinal ganglion cells (RGCs)] scale with irradiance and are positively correlated with rates of information and the gain of visual responses. Irradiance modulates firing in the absence of any other visual signal confirming that this is a genuine response to changing ambient light. Irradiance-driven changes in firing are observed across the population of RGCs (including in both ON and OFF units) but are disrupted in mice lacking melanopsin [the photopigment of irradiance-coding intrinsically photosensitive RGCs (ipRGCs)] and can be induced under steady light exposure by chemogenetic activation of ipRGCs. Artificially elevating firing by chemogenetic excitation of ipRGCs is sufficient to increase information flow by increasing the gain of visual responses, indicating that enhanced firing is a cause of increased information transfer at higher irradiance. Our results establish a retinal circuitry driving changes in RGC firing as an active response to alterations in ambient light to adjust the amount of visual information transmitted to the brain.


Assuntos
Nervo Óptico/fisiologia , Células Ganglionares da Retina/fisiologia , Animais , Potenciais Evocados Visuais/fisiologia , Luz , Camundongos , Camundongos Knockout , Modelos Neurológicos , Estimulação Luminosa , Células Fotorreceptoras de Vertebrados/fisiologia , Opsinas de Bastonetes/deficiência , Opsinas de Bastonetes/genética , Opsinas de Bastonetes/fisiologia , Razão Sinal-Ruído
3.
Vis Neurosci ; 37: E005, 2020 08 11.
Artigo em Inglês | MEDLINE | ID: mdl-32778188

RESUMO

Diabetic retinopathy (DR) is a frequent complication of diabetes mellitus and an increasingly common cause of visual impairment. Blood vessel damage occurs as the disease progresses, leading to ischemia, neovascularization, blood-retina barrier (BRB) failure and eventual blindness. Although detection and treatment strategies have improved considerably over the past years, there is room for a better understanding of the pathophysiology of the diabetic retina. Indeed, it has been increasingly realized that DR is in fact a disease of the retina's neurovascular unit (NVU), the multi-cellular framework underlying functional hyperemia, coupling neuronal computations to blood flow. The accumulating evidence reveals that both neurochemical (synapses) and electrical (gap junctions) means of communications between retinal cells are affected at the onset of hyperglycemia, warranting a global assessment of cellular interactions and their role in DR. This is further supported by the recent data showing down-regulation of connexin 43 gap junctions along the vascular relay from capillary to feeding arteriole as one of the earliest indicators of experimental DR, with rippling consequences to the anatomical and physiological integrity of the retina. Here, recent advancements in our knowledge of mechanisms controlling the retinal neurovascular unit will be assessed, along with their implications for future treatment and diagnosis of DR.


Assuntos
Retinopatia Diabética/fisiopatologia , Pericitos/fisiologia , Neurônios Retinianos/fisiologia , Animais , Barreira Hematorretiniana , Retinopatia Diabética/metabolismo , Humanos , Receptores Colinérgicos/fisiologia , Receptores Dopaminérgicos/fisiologia , Receptores de Neurotransmissores/fisiologia , Fluxo Sanguíneo Regional/fisiologia , Vasos Retinianos/fisiopatologia
4.
Proc Natl Acad Sci U S A ; 112(42): E5734-43, 2015 Oct 20.
Artigo em Inglês | MEDLINE | ID: mdl-26438865

RESUMO

Twice a day, at dawn and dusk, we experience gradual but very high amplitude changes in background light intensity (irradiance). Although we perceive the associated change in environmental brightness, the representation of such very slow alterations in irradiance by the early visual system has been little studied. Here, we addressed this deficit by recording electrophysiological activity in the mouse dorsal lateral geniculate nucleus under exposure to a simulated dawn. As irradiance increased we found a widespread enhancement in baseline firing that extended to units with ON as well as OFF responses to fast luminance increments. This change in baseline firing was equally apparent when the slow irradiance ramp appeared alone or when a variety of higher-frequency artificial or natural visual stimuli were superimposed upon it. Using a combination of conventional knockout, chemogenetic, and receptor-silent substitution manipulations, we continued to show that, over higher irradiances, this increase in firing originates with inner-retinal melanopsin photoreception. At the single-unit level, irradiance-dependent increases in baseline firing were strongly correlated with improvements in the amplitude of responses to higher-frequency visual stimuli. This in turn results in an up to threefold increase in single-trial reliability of fast visual responses. In this way, our data indicate that melanopsin drives a generalized increase in dorsal lateral geniculate nucleus excitability as dawn progresses that both conveys information about changing background light intensity and increases the signal:noise for fast visual responses.


Assuntos
Corpos Geniculados/fisiologia , Opsinas de Bastonetes/fisiologia , Visão Ocular , Animais , Camundongos , Camundongos Transgênicos
5.
Mol Vis ; 23: 334-345, 2017.
Artigo em Inglês | MEDLINE | ID: mdl-28659709

RESUMO

PURPOSE: Retinal dystrophy through outer photoreceptor cell death affects 1 in 2,500 people worldwide with severe impairment of vision in advanced stages of the disease. Optogenetic strategies to restore visual function to animal models of retinal degeneration by introducing photopigments to neurons spared degeneration in the inner retina have been explored, with variable degrees of success. It has recently been shown that the non-steroidal anti-inflammatory and non-selective gap-junction blocker meclofenamic acid (MFA) can enhance the visual responses produced by an optogenetic actuator (channelrhodopsin) expressed in retinal ganglion cells (RGCs) in the degenerate retina. Here, we set out to determine whether MFA could also enhance photoreception by another optogenetic strategy in which ectopic human rod opsin is expressed in ON bipolar cells. METHODS: We used in vitro multielectrode array (MEA) recordings to characterize the light responses of RGCs in the rd1 mouse model of advanced retinal degeneration following intravitreal injection of an adenoassociated virus (AAV2) driving the expression of human rod opsin under a minimal grm6 promoter active in ON bipolar cells. RESULTS: We found treated retinas were light responsive over five decades of irradiance (from 1011 to 1015 photons/cm2/s) with individual RGCs covering up to four decades. Application of MFA reduced the spontaneous firing rate of the visually responsive neurons under light- and dark-adapted conditions. The change in the firing rate produced by the 2 s light pulses was increased across all intensities following MFA treatment, and there was a concomitant increase in the signal to noise ratio for the visual response. Restored light responses were abolished by agents inhibiting glutamatergic or gamma-aminobutyric acid (GABA)ergic signaling in the MFA-treated preparation. CONCLUSIONS: These results confirm the potential of MFA to inhibit spontaneous activity and enhance the signal to noise ratio of visual responses in optogenetic therapies to restore sight.


Assuntos
Ácido Meclofenâmico/farmacologia , Opsinas de Bastonetes/metabolismo , Razão Sinal-Ruído , Vias Visuais/efeitos dos fármacos , Vias Visuais/fisiologia , Potenciais de Ação/efeitos dos fármacos , Adaptação Ocular/efeitos dos fármacos , Animais , Humanos , Camundongos , Células Ganglionares da Retina/efeitos dos fármacos , Células Ganglionares da Retina/metabolismo
6.
J Neurophysiol ; 114(2): 1321-30, 2015 Aug.
Artigo em Inglês | MEDLINE | ID: mdl-26084909

RESUMO

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 ß-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.


Assuntos
Corpos Geniculados/fisiologia , Retina/fisiologia , Degeneração Retiniana/fisiopatologia , Células Ganglionares da Retina/fisiologia , Células Fotorreceptoras Retinianas Bastonetes/fisiologia , Visão Ocular/fisiologia , Potenciais de Ação , Animais , Toxina da Cólera , Feminino , Corpos Geniculados/patologia , Masculino , Camundongos Endogâmicos C3H , Técnicas de Rastreamento Neuroanatômico , Marcadores do Trato Nervoso , Estimulação Luminosa , Células Fotorreceptoras Retinianas Cones/patologia , Células Fotorreceptoras Retinianas Cones/fisiologia , Células Ganglionares da Retina/patologia , Células Fotorreceptoras Retinianas Bastonetes/patologia , Opsinas de Bastonetes/metabolismo , Testes Visuais
7.
Nano Lett ; 14(11): 6685-92, 2014 Nov 12.
Artigo em Inglês | MEDLINE | ID: mdl-25350365

RESUMO

We report the development of a semiconductor nanorod-carbon nanotube based platform for wire-free, light induced retina stimulation. A plasma polymerized acrylic acid midlayer was used to achieve covalent conjugation of semiconductor nanorods directly onto neuro-adhesive, three-dimensional carbon nanotube surfaces. Photocurrent, photovoltage, and fluorescence lifetime measurements validate efficient charge transfer between the nanorods and the carbon nanotube films. Successful stimulation of a light-insensitive chick retina suggests the potential use of this novel platform in future artificial retina applications.


Assuntos
Materiais Biomiméticos/química , Nanotubos de Carbono/química , Nanotubos/química , Próteses Neurais , Retina/fisiologia , Semicondutores , Acrilatos/química , Animais , Biomimética , Embrião de Galinha , Luz , Nanotubos/ultraestrutura , Nanotubos de Carbono/ultraestrutura , Polimerização
8.
J Comp Neurol ; 530(8): 1302-1317, 2022 06.
Artigo em Inglês | MEDLINE | ID: mdl-34811744

RESUMO

Endothelial cells (ECs) are key players in the development and maintenance of the vascular tree, the establishment of the blood-brain barrier and control of blood flow. Disruption in ECs is an early and active component of vascular pathogenesis. However, our ability to selectively target ECs in the CNS for identification and manipulation is limited. Here, in the mouse retina, a tractable model of the CNS, we utilized a recently developed AAV-BR1 system to identify distinct classes of ECs along the vascular tree using a GFP reporter. We then developed an inducible EC-specific ectopic Connexin 43 (Cx43) expression system using AAV-BR1-CAG-DIO-Cx43-P2A-DsRed2 in combination with a mouse line carrying inducible CreERT2 in ECs. We targeted Cx43 because its loss has been implicated in microvascular impairment in numerous diseases such as diabetic retinopathy and vascular edema. GFP-labeled ECs were numerous, evenly distributed along the vascular tree and their morphology was polarized with respect to the direction of blood flow. After tamoxifen induction, ectopic Cx43 was specifically expressed in ECs. Similarly to endogenous Cx43, ectopic Cx43 was localized at the membrane contacts of ECs and it did not affect tight junction proteins. The ability to enhance gap junctions in ECs provides a precise and potentially powerful tool to treat microcirculation deficits, an early pathology in numerous diseases.


Assuntos
Conexina 43 , Retinopatia Diabética , Animais , Conexina 43/genética , Conexina 43/metabolismo , Células Endoteliais , Junções Comunicantes/metabolismo , Camundongos , Retina
9.
J Comp Neurol ; 529(6): 1121-1134, 2021 04 15.
Artigo em Inglês | MEDLINE | ID: mdl-32812219

RESUMO

Pericytes are a unique class of mural cells essential for angiogenesis, maintenance of the vasculature and are key players in microvascular pathology. However, their diversity and specific roles are poorly understood, limiting our insight into vascular physiology and the ability to develop effective therapies. Here, in the mouse retina, a tractable model of the CNS, we evaluated distinct classes of mural cells along the vascular tree for both structural characterization and physiological manipulation of blood flow. To accomplish this, we first tested three inducible mural cell-specific mouse lines using a sensitive Ai14 reporter and tamoxifen application either by a systemic injection, or by local administration in the form of eye drops. The specificity and pattern of cre activation varied significantly across the three lines, under either the PDGFRß or NG2 promoter (Pdgfrß-CreRha, Pdgfrß-CreCsln, and Cspg4-Cre). In particular, a mouse line with Cre under the NG2 promoter resulted in sparse TdTomato labeling of mural cells, allowing for an unambiguous characterization of anatomical features of individual sphincter cells and capillary pericytes. Furthermore, in one PDGFRß line, we found that focal eye drop application of tamoxifen led to an exclusive Cre-activation in pericytes, without affecting arterial mural cells. We then used this approach to boost capillary blood flow by selective expression of Halorhodopsin, a highly precise hyperpolarizing optogenetic actuator. The ability to exclusively target capillary pericytes may prove a precise and potentially powerful tool to treat microcirculation deficits, a common pathology in numerous diseases.


Assuntos
Velocidade do Fluxo Sanguíneo/fisiologia , Capilares/fisiologia , Pericitos/fisiologia , Fluxo Sanguíneo Regional/fisiologia , Retina/fisiologia , Administração Oftálmica , Animais , Velocidade do Fluxo Sanguíneo/efeitos dos fármacos , Capilares/química , Capilares/efeitos dos fármacos , Camundongos , Camundongos Transgênicos , Microscopia de Fluorescência por Excitação Multifotônica/métodos , Pericitos/química , Pericitos/efeitos dos fármacos , Fluxo Sanguíneo Regional/efeitos dos fármacos , Retina/química , Retina/citologia , Retina/efeitos dos fármacos , Tamoxifeno/administração & dosagem
10.
Invest Ophthalmol Vis Sci ; 61(10): 44, 2020 08 03.
Artigo em Inglês | MEDLINE | ID: mdl-32841313

RESUMO

Purpose: Disruption in blood supply to active retinal circuits is the earliest hallmark of diabetic retinopathy (DR) and has been primarily attributed to vascular deficiency. However, accumulating evidence supports an early role for a disrupted neuronal function in blood flow impairment. Here, we tested the hypothesis that selectively stimulating cholinergic neurons could restore neurovascular signaling to preserve the capillary circulation in DR. Methods: We used wild type (wt) and choline acetyltransferase promoter (ChAT)-channelrhodopsin-2 (ChR2) mice expressing ChR2 exclusively in cholinergic cells. Mice were made diabetic by streptozotocin (STZ) injections. Two to 3 months after the last STZ injection, the rate of capillary blood flow was measured in vivo within each retinal vascular layer using high speed two-photon imaging. Measurements were done at baseline and following ChR2-driven activation of retinal cholinergic interneurons, the sole source of the vasodilating neurotransmitter acetylcholine. After recordings, retinas were collected and assessed for physiological and structural features. Results: In retinal explants from ChAT-ChR2 mice, we found that channelrhodopsin2 was selectively expressed in all cholinergic amacrine cells. Its direct activation by blue light led to dilation of adjacent retinal capillaries. In living diabetic ChAT-ChR2 animals, basal capillary blood flow was significantly higher than in diabetic mice without channelrhodopsin. However, optogenetic stimulation with blue light did not result in flickering light-induced functional hyperemia, suggesting a necessity for a concerted neurovascular interaction. Conclusions: These findings provide direct support to the utility and efficacy of an optogenetic approach for targeting selective retinal circuits to treat DR and its complications.


Assuntos
Células Amácrinas/fisiologia , Neurônios Colinérgicos/fisiologia , Retinopatia Diabética/terapia , Optogenética/métodos , Células Amácrinas/patologia , Animais , Channelrhodopsins/metabolismo , Channelrhodopsins/fisiologia , Neurônios Colinérgicos/patologia , Diabetes Mellitus Experimental/complicações , Diabetes Mellitus Experimental/patologia , Masculino , Camundongos , Camundongos Endogâmicos C57BL , Camundongos Transgênicos , Fluxo Sanguíneo Regional , Retina/patologia , Vasos Retinianos/patologia , Vasos Retinianos/fisiologia
11.
Front Neurosci ; 14: 320, 2020.
Artigo em Inglês | MEDLINE | ID: mdl-32317928

RESUMO

Intrinsically photosensitive retinal ganglion cells (ipRGCs) express the photopigment melanopsin and project to central targets, allowing them to contribute to both image-forming and non-image forming vision. Recent studies have highlighted chemical and electrical synapses between ipRGCs and neurons of the inner retina, suggesting a potential influence from the melanopsin-born signal to affect visual processing at an early stage of the visual pathway. We investigated melanopsin responses in ganglion cell layer (GCL) neurons of both intact and dystrophic mouse retinas using 256 channel multi-electrode array (MEA) recordings. A wide 200 µm inter-electrode spacing enabled a pan-retinal visualization of melanopsin's influence upon GCL activity. Upon initial stimulation of dystrophic retinas with a long, bright light pulse, over 37% of units responded with an increase in firing (a far greater fraction than can be expected from the anatomically characterized number of ipRGCs). This relatively widespread response dissipated with repeated stimulation even at a quite long inter-stimulus interval (ISI; 120 s), to leave a smaller fraction of responsive units (<10%; more in tune with the predicted number of ipRGCs). Visually intact retinas appeared to lack such widespread melanopsin responses indicating that it is a feature of dystrophy. Taken together, our data reveal the potential for anomalously widespread melanopsin responses in advanced retinal degeneration. These could be used to probe the functional reorganization of retinal circuits in degeneration and should be taken into account when using retinally degenerate mice as a model of disease.

12.
Nat Nanotechnol ; 15(8): 698-708, 2020 08.
Artigo em Inglês | MEDLINE | ID: mdl-32601447

RESUMO

Inherited retinal dystrophies and late-stage age-related macular degeneration, for which treatments remain limited, are among the most prevalent causes of legal blindness. Retinal prostheses have been developed to stimulate the inner retinal network; however, lack of sensitivity and resolution, and the need for wiring or external cameras, have limited their application. Here we show that conjugated polymer nanoparticles (P3HT NPs) mediate light-evoked stimulation of retinal neurons and persistently rescue visual functions when subretinally injected in a rat model of retinitis pigmentosa. P3HT NPs spread out over the entire subretinal space and promote light-dependent activation of spared inner retinal neurons, recovering subcortical, cortical and behavioural visual responses in the absence of trophic effects or retinal inflammation. By conferring sustained light sensitivity to degenerate retinas after a single injection, and with the potential for high spatial resolution, P3HT NPs provide a new avenue in retinal prosthetics with potential applications not only in retinitis pigmentosa, but also in age-related macular degeneration.


Assuntos
Pontos Quânticos , Retina/efeitos dos fármacos , Retinose Pigmentar/metabolismo , Animais , Modelos Animais de Doenças , Feminino , Injeções Intraoculares , Masculino , Estimulação Luminosa , Polímeros/administração & dosagem , Polímeros/farmacologia , Pontos Quânticos/administração & dosagem , Pontos Quânticos/uso terapêutico , Ratos , Ratos Sprague-Dawley , Córtex Visual/efeitos dos fármacos , Córtex Visual/metabolismo , Próteses Visuais
13.
Nat Nanotechnol ; 15(4): 296-306, 2020 04.
Artigo em Inglês | MEDLINE | ID: mdl-32015505

RESUMO

Optical technologies allowing modulation of neuronal activity at high spatio-temporal resolution are becoming paramount in neuroscience. In this respect, azobenzene-based photoswitches are promising nanoscale tools for neuronal photostimulation. Here we engineered a light-sensitive azobenzene compound (Ziapin2) that stably partitions into the plasma membrane and causes its thinning through trans-dimerization in the dark, resulting in an increased membrane capacitance at steady state. We demonstrated that in neurons loaded with the compound, millisecond pulses of visible light induce a transient hyperpolarization followed by a delayed depolarization that triggers action potential firing. These effects are persistent and can be evoked in vivo up to 7 days, proving the potential of Ziapin2 for the modulation of membrane capacitance in the millisecond timescale, without directly affecting ion channels or local temperature.


Assuntos
Potenciais de Ação , Compostos Azo/metabolismo , Membrana Celular/metabolismo , Hipocampo/metabolismo , Neurônios/metabolismo , Animais , Compostos Azo/síntese química , Compostos Azo/química , Compostos Azo/farmacologia , Camundongos
14.
J Exp Neurosci ; 11: 1179069517703354, 2017.
Artigo em Inglês | MEDLINE | ID: mdl-28579827

RESUMO

Several fields in neuroscience have been revolutionized by the advent of optogenetics, a technique that offers the possibility to modulate neuronal physiology in response to light stimulation. This innovative and far-reaching tool provided unprecedented spatial and temporal resolution to explore the activity of neural circuits underlying cognition and behaviour. With an exponential growth in the discovery and synthesis of new photosensitive actuators capable of modulating neuronal networks function, other fields in biology are experiencing a similar re-evolution. Here, we review the various optogenetic toolboxes developed to influence cellular physiology as well as the diverse ways in which these can be engineered to precisely modulate intracellular signalling and transcription. We also explore the processes required to successfully express and stimulate these photo-actuators in vivo before discussing how such tools can enlighten our understanding of neuronal plasticity at the systems level.

15.
Biomaterials ; 112: 108-121, 2017 01.
Artigo em Inglês | MEDLINE | ID: mdl-27760395

RESUMO

The choice of electrode material is of paramount importance in neural prosthetic devices. Electrodes must be biocompatible yet able to sustain repetitive current injections in a highly corrosive environment. We explored the suitability of carbon nanotube (CNT) electrodes to stimulate retinal ganglion cells (RGCs) in a mouse model of outer retinal degeneration. We investigated morphological changes at the bio-hybrid interface and changes in RGC responses to electrical stimulation following prolonged in vitro coupling to CNT electrodes. We observed gradual remodelling of the inner retina to incorporate CNT assemblies. Electrophysiological recordings demonstrate a progressive increase in coupling between RGCs and the CNT electrodes over three days, characterized by a gradual decrease in stimulation thresholds and increase in cellular recruitment. These results provide novel evidence for time-dependent formation of viable bio-hybrids between CNTs and the retina, demonstrating that CNTs are a promising material for inclusion in retinal prosthetic devices.


Assuntos
Terapia por Estimulação Elétrica/instrumentação , Eletrodos Implantados , Microeletrodos , Nanotubos de Carbono/química , Degeneração Retiniana/fisiopatologia , Degeneração Retiniana/terapia , Próteses Visuais , Potenciais de Ação/fisiologia , Animais , Células Cultivadas , Condutividade Elétrica , Análise de Falha de Equipamento , Teste de Materiais , Camundongos , Nanotubos de Carbono/ultraestrutura , Desenho de Prótese , Propriedades de Superfície
16.
PLoS One ; 10(3): e0123424, 2015.
Artigo em Inglês | MEDLINE | ID: mdl-25822371

RESUMO

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.


Assuntos
Corpos Geniculados/metabolismo , Corpos Geniculados/fisiologia , Transdução de Sinal Luminoso/fisiologia , Células Ganglionares da Retina/metabolismo , Células Ganglionares da Retina/fisiologia , Opsinas de Bastonetes/metabolismo , Animais , Luz , Camundongos , Estimulação Luminosa/métodos , Retina/metabolismo , Retina/fisiologia , Células Fotorreceptoras Retinianas Cones/metabolismo , Células Fotorreceptoras Retinianas Cones/fisiologia , Tálamo/metabolismo , Tálamo/fisiologia
17.
Curr Biol ; 25(16): 2111-22, 2015 Aug 17.
Artigo em Inglês | MEDLINE | ID: mdl-26234216

RESUMO

Many retinal dystrophies result in photoreceptor loss, but the inner retinal neurons can survive, making them potentially amenable to emerging optogenetic therapies. Here, we show that ectopically expressed human rod opsin, driven by either a non-selective or ON-bipolar cell-specific promoter, can function outside native photoreceptors and restore visual function in a mouse model of advanced retinal degeneration. Electrophysiological recordings from retinal explants and the visual thalamus revealed changes in firing (increases and decreases) induced by simple light pulses, luminance increases, and naturalistic movies in treated mice. These responses could be elicited at light intensities within the physiological range and substantially below those required by other optogenetic strategies. Mice with rod opsin expression driven by the ON-bipolar specific promoter displayed behavioral responses to increases in luminance, flicker, coarse spatial patterns, and elements of a natural movie at levels of contrast and illuminance (≈50-100 lux) typical of natural indoor environments. These data reveal that virally mediated ectopic expression of human rod opsin can restore vision under natural viewing conditions and at moderate light intensities. Given the inherent advantages in employing a human protein, the simplicity of this intervention, and the quality of vision restored, we suggest that rod opsin merits consideration as an optogenetic actuator for treating patients with advanced retinal degeneration.


Assuntos
Expressão Ectópica do Gene , Degeneração Retiniana/terapia , Rodopsina/genética , Animais , Humanos , Camundongos , Rodopsina/metabolismo
18.
Stem Cells Transl Med ; 3(4): 416-23, 2014 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-24591732

RESUMO

Hypoplastic left heart syndrome (HLHS) is a serious congenital cardiovascular malformation resulting in hypoplasia or atresia of the left ventricle, ascending aorta, and aortic and mitral valves. Diminished flow through the left side of the heart is clearly a key contributor to the condition, but any myocardial susceptibility component is as yet undefined. Using recent advances in the field of induced pluripotent stem cells (iPSCs), we have been able to generate an iPSC model of HLHS malformation and characterize the properties of cardiac myocytes (CMs) differentiated from these and control-iPSC lines. Differentiation of HLHS-iPSCs to cardiac lineages revealed changes in the expression of key cardiac markers and a lower ability to give rise to beating clusters when compared with control-iPSCs and human embryonic stem cells (hESCs). HLHS-iPSC-derived CMs show a lower level of myofibrillar organization, persistence of a fetal gene expression pattern, and changes in commitment to ventricular versus atrial lineages, and they display different calcium transient patterns and electrophysiological responses to caffeine and ß-adrenergic antagonists when compared with hESC- and control-iPSC-derived CMs, suggesting that alternative mechanisms to release calcium from intracellular stores such as the inositol trisphosphate receptor may exist in HLHS in addition to the ryanodine receptor thought to function in control-iPSC-derived CMs. Together our findings demonstrate that CMs derived from an HLHS patient demonstrate a number of marker expression and functional differences to hESC/control iPSC-derived CMs, thus providing some evidence that cardiomyocyte-specific factors may influence the risk of HLHS.


Assuntos
Regulação da Expressão Gênica , Síndrome do Coração Esquerdo Hipoplásico/metabolismo , Células-Tronco Pluripotentes Induzidas/metabolismo , Modelos Biológicos , Proteínas Musculares/biossíntese , Miócitos Cardíacos/metabolismo , Células Cultivadas , Humanos , Síndrome do Coração Esquerdo Hipoplásico/patologia , Células-Tronco Pluripotentes Induzidas/patologia , Recém-Nascido , Masculino , Miócitos Cardíacos/patologia
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