1998
DOI: 10.1007/s004410051174
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Adaptation-dependent plasticity of rod bipolar cell axon terminal morphology in the rat retina

Abstract: We chose synaptic terminals of rat rod bipolar cells as a model system to study activity-related changes in the overall morphology and the fine structure of synaptic sites. Using confocal laser scanning microscopy in conjunction with three-dimensional reconstruction and electron microscopy, we examined the effect of light and dark adaptation on axon terminals identified by protein kinase C (PKC) immunoreactivity. Rod bipolar cell axon terminals consisted of 2-3 polymorphic boutons situated close to the ganglio… Show more

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Cited by 28 publications
(35 citation statements)
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“…Integrin receptors containing α1 or α3 subunits are candidates to regulate neuritic sprouting by horizontal and bipolar cell processes in the OPL associated with retinal detachment [22]. Integrins also might have important roles in regulating normal plasticity such as light-and dark-induced changes reported in the ultrastructure of photoreceptor and bipolar cell terminals [1,45,47].…”
Section: Discussionmentioning
confidence: 99%
“…Integrin receptors containing α1 or α3 subunits are candidates to regulate neuritic sprouting by horizontal and bipolar cell processes in the OPL associated with retinal detachment [22]. Integrins also might have important roles in regulating normal plasticity such as light-and dark-induced changes reported in the ultrastructure of photoreceptor and bipolar cell terminals [1,45,47].…”
Section: Discussionmentioning
confidence: 99%
“…In the absence of accurate morphological reconstructions, our simplified models of rod bipolar cells were based on approximate morphological parameters from several different sources, including Lucifer yellow-filled cells (Billups and Attwell 2002;Hartveit 1996), electron microscopic images and reconstructions of axon terminals (Chun et al 1993), and light microscopic and confocal images of immunolabeled cells (Behrens et al 1998;Chun et al 1993). The axonal length can vary between ϳ50 and ϳ70 m and the axonal diameter can vary between ϳ0.5 and ϳ1 m. The size of axon terminal swellings was measured as the distance along the longest diameter and perpendicular to this and ranged from 2.7 ϫ 1.5 m (Chun et al 1993;their Fig.…”
Section: Current Transients From Simulated Rod Bipolar Cellsmentioning
confidence: 99%
“…The axonal length can vary between ϳ50 and ϳ70 m and the axonal diameter can vary between ϳ0.5 and ϳ1 m. The size of axon terminal swellings was measured as the distance along the longest diameter and perpendicular to this and ranged from 2.7 ϫ 1.5 m (Chun et al 1993;their Fig. 6) to 10 ϫ 4 m (Behrens et al 1998; their Fig. 2A).…”
Section: Current Transients From Simulated Rod Bipolar Cellsmentioning
confidence: 99%
“…For studying morphological and physiological features of rod bipolar cells, the protein kinase C (PKC) has been employed [Vaquero et al, 1996;Behrens et al, 1998;Caminos et al, 1999b;Pan, 2000;Pinzón-Duarte et al, 2000]. This enzyme has been found to be widely distributed in the central nervous system, where at least seven isoforms have been described [Minakuchi et al, 1981;Huang and Huang, 1986;Nishizuka, 1988].…”
Section: Introductionmentioning
confidence: 99%