Early-Stage Ocular Hypertension Alters Retinal Ganglion Cell Synaptic Transmission in the Visual Thalamus

Bhandari, Ashish; SMITH, JENNIE; Zhang, Yang; Reid, Lisa; Goeser, T; Fan, Shan; Ghate, Deepta; Hook, Matthew J. Van

doi:10.1101/669135

Cited by 4 publications

(20 citation statements)

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“…We previously demonstrated that during a modest and sustained ocular hypertension, a key risk factor for glaucoma, vesicle release probability in the retinogeniculate synapse was increased (Bhandari et al, 2019). Although the extent of injury to the optic nerve is more severe in the present study, our results here present an interesting contrast to results from ocular hypertension.…”

Section: Discussioncontrasting

confidence: 75%

“…Additionally, we have shown that in ocular hypertension, dLGN TC neuron dendritic complexity is reduced, especially in regions proximal to the TC neuron somata, where they receive retinal inputs (Bhandari et al, 2019). Findings from the current experiments indicate that similarly, there is a reduction in dendritic complexity proximal to the TC neuron somata, and these changes are prominent and significant by 14 days post-enucleation.…”

Section: Discussionsupporting

confidence: 50%

“…In previous study from our lab, we demonstrated that ocular hypertension (OHT) brings about a significant increase in Pr in mice (Bhandari et al, 2019). Therefore, our next goal was to examine whether similar changes occur in presynaptic vesicle release probability (Pr) in our model of severe injury to the optic nerve.…”

Section: Figure 3 Enucleation Induces Progressive Dysfunction At the Retinogeniculate Synapse A)mentioning

confidence: 99%

“…Optic nerve degeneration in glaucoma has been reported to alter the dendritic structure of dLGN relay neurons in primate and rodents (Gupta et al, 2007;Liu et al, 2014;Bhandari et al, 2019).…”

Section: Altered Dendritic Structure In Cells From Enucleated Animalsmentioning

confidence: 99%

“…The developmental plasticity of the dLGN is well-established and involves pruning and strengthening of synaptic inputs from retinal ganglion cells, refinement of dLGN relay neuron dendritic branching, and maturation of intrinsic excitability (Chen and Regehr, 2000; Hooks and Chen, 2006, 2008; Bickford et al, 2010; Hong and Chen, 2011; Krahe et al, 2012; El-Danaf et al, 2015; Thompson et al, 2016; Litvina and Chen, 2017a; Guido, 2018). A handful of studies have also documented plasticity in the dLGN in adult mice, including in monocular deprivation (Jaepel et al, 2017; Rose and Bonhoeffer, 2018), monocular enucleation (Gonzalez et al, 2005), a mouse model of inflammatory demyelination (Araújo et al, 2017), and ocular hypertension (Bhandari et al, 2019; Van Hook et al, 2021). These studies have shown that alterations in visual function or optic nerve health lead to changes in inputs to the dLGN from retina and the cortex as well as changes in the structure and function of dLGN relay neurons (Yücel et al, 2001; Hayakawa and Kawasaki, 2010; Krahe and Guido, 2011; Ly et al, 2011; Krahe et al, 2012; You et al, 2012; El-Danaf et al, 2015; Pang et al, 2015; Araújo et al, 2017; Bhandari et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

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Structural and functional plasticity in the dorsolateral geniculate nucleus of mice following bilateral enucleation

Bhandari

SMITH

Hook

2020

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Within the nervous system, homeostatic mechanisms stabilize network activity following disruption by injury, disease, or degeneration. Vision loss and optic nerve injury in age-related diseases such as glaucoma might trigger homeostatic responses in direct retinal projection targets in the brain in adulthood. We tested this possibility using patch-clamp electrophysiology, optogenetics, and single-cell dendritic analysis to probe the effects of optic nerve injury and vision loss on dLGN thalamocortical (TC) relay neurons and their synaptic inputs following bilateral enucleation. Using vGlut2 immunostaining, we found that retinal axon terminals in the dLGN degenerated over several days post-enucleation, which corresponded with the loss of retinogeniculate (RG) synaptic function as assessed with optogenetic stimulation of ganglion cell axons in acute brain slices. Analysis of TC neuron dendritic structure from single-cell dye fills revealed a gradual loss of dendrites proximal to the soma, where TC neurons receive the bulk of RG inputs. Surprisingly, there was little change to the frequency of miniature post-synaptic currents (mEPSCs), even two weeks post-enucleation, although we did find an increase in the relative proportion of mEPSCs with slower kinetics, hinting at a possible enhancement of corticogeniculate input. Whole-cell current clamp recordings showed that enucleation enhanced TC neuron action potential firing and input resistance, consistent with homeostatic scaling of intrinsic neuronal excitability following perturbation of synaptic inputs. Our findings show that degeneration of the retinal axons/optic nerve and loss of RG synaptic inputs induces structural and functional changes in TC neurons consistent with compensatory homeostatic plasticity in the dLGN.

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Section: Discussioncontrasting

confidence: 75%

Section: Discussionsupporting

confidence: 50%

Section: Figure 3 Enucleation Induces Progressive Dysfunction At the Retinogeniculate Synapse A)mentioning

confidence: 99%

Section: Altered Dendritic Structure In Cells From Enucleated Animalsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Structural and functional plasticity in the dorsolateral geniculate nucleus of mice following bilateral enucleation

Bhandari

SMITH

Hook

2020

Preprint

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Loss of retinogeniculate synaptic function in the DBA/2J mouse model of glaucoma

SMITH

Zhang

Sladek

et al. 2022

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Background: Retinal ganglion cell (RGC) axons comprise the optic nerve and carry information to the dorsolateral geniculate nucleus (dLGN) that is relayed to the cortex for conscious vision. Glaucoma is a blinding neurodegenerative disease that commonly results from intraocular pressure (IOP)-associated injury leading to RGC axonal pathology, disruption of RGC outputs to the brain, and eventual apoptotic loss of RGC somata. The consequences of elevated IOP and glaucomatous pathology on RGC signaling to the dLGN are largely unknown and likely to be important contributors to visual system dysfunction in glaucoma. Thus, the goal of this study was to determine how glaucoma affects RGC outputs to the dLGN. Methods: We used a combination of anatomical and physiological approaches to study the structure and function of retinogeniculate synapses in male and female DBA/2J mice at multiple ages before and after IOP elevation. These included measures of anterograde axonal transport, immunofluorescence staining of RGC axon terminals, patch-clamp recording retinogeniculate (RG) synapses in living brain slices, Sholl analysis of thalamocortical relay neuron dendrites, measurements of RGC somatic density, and treatment with a topical ophthalmic alpha-2 adrenergic agonist (brimonidine). Results: DBA/2J mice showed progressive loss of anterograde optic tract transport to the dLGN and vGlut2 labeling of RGC axon terminals. Patch-clamp measurements of RG synaptic function showed that the strength of synaptic transmission was lower in 9 and 12-month DBA/2J mice and that this was the result of loss of individual RGC axon contributions. TC neuron dendrites showed a reduction in complexity at 12 months, suggestive of a delayed reorganization following reduced synaptic input. There was no detectable change in RGC soma density in 11-12m DBA/2J retinas indicating that observed effects occurred prior to RGC somatic loss. Finally, treatment with brimonidine eye drops prevented the loss of vGlut2-labeled RGC terminals in the dLGN. Conclusions: These findings identify glaucoma- and IOP-associated functional deficits in an important subcortical RGC projection target. This sheds light on the processes linking IOP to vision loss and will be critical for informing future diagnostic approaches and vision-restoration therapies.

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2021

OBM Neurobiol

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Early-Stage Ocular Hypertension Alters Retinal Ganglion Cell Synaptic Transmission in the Visual Thalamus

Cited by 4 publications

References 95 publications

Structural and functional plasticity in the dorsolateral geniculate nucleus of mice following bilateral enucleation

Structural and functional plasticity in the dorsolateral geniculate nucleus of mice following bilateral enucleation

Loss of retinogeniculate synaptic function in the DBA/2J mouse model of glaucoma

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