IMAGING OF L-TYPE CA2+ CHANNELS IN OLFACTORY-BULB NEURONS USING FLUORESCENT DIHYDROPYRIDINE AND A STYRYL DYE

被引：19

作者：

SCHILD, D

GEILING, H

BISCHOFBERGER, J

机构：

[1] Physiologisches Institut, Universität Göttingen, D-37073 Göttingen

来源：

JOURNAL OF NEUROSCIENCE METHODS | 1995年 / 59卷 / 02期

关键词：

CALCIUM CHANNEL; DIHYDROPYRIDINE; LASER SCANNING MICROSCOPY;

D O I：

10.1016/0165-0270(94)00181-F

中图分类号：

Q5 [生物化学];

学科分类号：

071010 ; 081704 ;

摘要：

We have imaged the fluorescence of dihydropyridine-Bodipy (fDHP) in cultured olfactory bulb neurones in order to investigate the subcellular distribution of L-type calcium channels in these neurones. The neurones were stained with both fDHP and the voltage-sensitive styryl dye RH414. The fluorescence emission maxima of these dyes were in the green and red ranges of the spectrum, respectively, and were recorded by the 2 photomultiplier channels of a laser scanning microscope. The fDHP images were ratioed with the RH414 images taken simultaneously. The resulting ratio images revealed the spatial distribution of the surface density of L-type calcium channels. This density was highest on somata, in particular at the base of dendrites, and decreased with the distance from this maximum. Two classes of dendritic L-type channel distributions were observed: one with a homogeneously low density and another one with a characteristic gradient of the L-type channel density along proximal dendrites. This subcellular localization of L-type calcium channels is discussed in the light of specific functional roles.

引用

页码：183 / 190

页数：8

共 36 条

[1]

Bading, Ginty, Greenberg, Regulation of gene expression in hippocampal neurons by distinct calcium signaling pathways, Science, 260, pp. 181-186, (1993)

[2]

Baughman, Huettner, Jones, Khan, Cell culture of neocortex and basal forebrain from postnatal rats, Culturing Nerve Cells, pp. 227-249, (1991)

[3]

Berridge, Inositol trisphosphate and calcium signalling, Nature, 361, pp. 315-325, (1993)

[4]

Bhalla, Bower, Exploring parameter space in detailed single neuron medels: simulations of the mitral and granule cells of the olfactory bulb, J. Neurophysiol, 69, pp. 1948-1965, (1993)

[5]

Bischofberger, Geiling, Engel, Schild, A cultured network of olfactory bulb neurons of Xenopus laevis tadpoles: calcium imaging and spontaneous activity, Chemical Signals in Vertebrates, 7, (1994)

[6]

Bischofberger, Geiling, Schild, Dendritic calcium channels of cultured olfactory bulb neurons analysed with confocal laser scanning microscopy, Pfl�gers Archiv European Journal of Physiology, 426, (1994)

[7]

Blaustein, Calcium transport and buffering in neurons, Trends Neurosci, 11, pp. 438-443, (1988)

[8]

Bufler, Zufall, Franke, Hatt, Patch-clamp recordings of spiking and nonspiking interneurons from rabbit olfactory bulb slices: GABA and other transmitter receptors, J. Comp. Physiol. A, 170, pp. 153-159, (1992)

[9]

Bufler, Zufall, Franke, Hatt, Patch-clamp recordings of spiking and nonspiking interneurons from rabbit olfactory bulb slices: membrane properties and ionic currents, J. Comp. Physiol. A, 170, pp. 145-152, (1992)

[10]

Chin, Smith, Kim, Kim, Expression of dihydropyridine-sensitive brain calcium channels in the rat central nervuos system, FEBS, 299, pp. 69-74, (1992)

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