Absence of Plateau Potentials in dLGN Cells Leads to a Breakdown in Retinogeniculate Refinement

Authors
Dilger, Emily K.Krahe, Thomas E.Morhardt, Duncan R.Seabrook, Tania A.Shin, Hee-SupGuido, William
Issue Date
2015-02
Publisher
SOC NEUROSCIENCE
Citation
JOURNAL OF NEUROSCIENCE, v.35, no.8, pp.3652 - 3662
Abstract
The link between neural activity and the refinement of projections from retina to the dorsal lateral geniculate nucleus (dLGN) of thalamus is based largely on studies that disrupt presynaptic retinogeniculate activity. Postsynaptic mechanisms responsible for implementing the activity-dependent remodeling in dLGN remain unknown. We tested whether L-type Ca2+ channel activity in the form of synaptically evoked plateau potentials in dLGN cells is needed for remodeling by using a mutant mouse that lacks the ancillary beta(3) subunit and, as a consequence, has highly reduced L-type channel expression and attenuated L-type Ca2+ currents. In the dLGNs of beta(3)-null mice, glutamatergic postsynaptic activity evoked by optic tract stimulation was normal, but plateau potentials were rarely observed. The few plateaus that were evoked required high rates of retinal stimulation, but were still greatly attenuated compared with those recorded in age-matched wild-type mice. While beta(3)-null mice exhibit normal stage II and III retinal waves, their retinogeniculate projections fail to segregate properly and dLGN cells show a high degree of retinal convergence even at late postnatal ages. These structural and functional defects were also accompanied by a reduction in CREB phosphorylation, a signaling event that has been shown to be essential for retinogeniculate axon segregation. Thus, postsynaptic L-type Ca2+ activity plays an important role in mediating the refinement of the retinogeniculate pathway.
Keywords
EYE-SPECIFIC SEGREGATION; OCULAR DOMINANCE PLASTICITY; PATTERNED RETINAL ACTIVITY; CALCIUM-CHANNELS; SYNAPSE ELIMINATION; GENE-TRANSCRIPTION; NMDA RECEPTORS; PATHWAY; MOUSE; SUBUNIT; activity-dependent refinement; beta(3)-null mice; L-type Ca2+ channel; lateral geniculate nucleus; retina; retinogeniculate
ISSN
0270-6474
URI
https://pubs.kist.re.kr/handle/201004/125783
DOI
10.1523/JNEUROSCI.2343-14.2015
Appears in Collections:
KIST Article > 2015
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