Differential blocking effects of a spider toxin on synaptic and glutamate responses in the afferent synapse of the acoustico-lateralis receptors of Plotosus

Takatoshi Nagai; Shosaku Obara; Nobufumi Kawai

doi:10.1016/0006-8993(84)91357-X

Differential blocking effects of a spider toxin on synaptic and glutamate responses in the afferent synapse of the acoustico-lateralis receptors of Plotosus

Takatoshi Nagai, Shosaku Obara, Nobufumi Kawai

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

The hypothesis that glutamate is the afferent transmitter in the acoustico-lateralis receptors was examined in Plotosus electroreceptors. JSTX, a spider toxin known to specifically block glutamate receptors, irreversibly abolished afferent impulse discharges induced by iontophoretically applied glutamate, whereas those induced synaptically by focal stimulation of receptor cells were little affected. Such differential blocking effects by JSTX, complementary to other biochemical data, further provide pharmacological evidence against the glutamate hypothesis.

Original language	English
Pages (from-to)	183-187
Number of pages	5
Journal	Brain Research
Volume	300
Issue number	1
DOIs	https://doi.org/10.1016/0006-8993(84)91357-X
Publication status	Published - 1984 May 21
Externally published	Yes

Keywords

acoustico-lateralis receptor
afferent synapse
glutamate receptor
iontophoresis
neurotransmitter
spider toxin

ASJC Scopus subject areas

Neuroscience(all)
Molecular Biology
Clinical Neurology
Developmental Biology

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10.1016/0006-8993(84)91357-X

Cite this

@article{1b75e0f9c15b4cc68dff3aa88d74a709,

title = "Differential blocking effects of a spider toxin on synaptic and glutamate responses in the afferent synapse of the acoustico-lateralis receptors of Plotosus",

abstract = "The hypothesis that glutamate is the afferent transmitter in the acoustico-lateralis receptors was examined in Plotosus electroreceptors. JSTX, a spider toxin known to specifically block glutamate receptors, irreversibly abolished afferent impulse discharges induced by iontophoretically applied glutamate, whereas those induced synaptically by focal stimulation of receptor cells were little affected. Such differential blocking effects by JSTX, complementary to other biochemical data, further provide pharmacological evidence against the glutamate hypothesis.",

keywords = "acoustico-lateralis receptor, afferent synapse, glutamate receptor, iontophoresis, neurotransmitter, spider toxin",

author = "Takatoshi Nagai and Shosaku Obara and Nobufumi Kawai",

note = "Funding Information: 1 Abe, T., Kawai, N. and Miwa, A., Effectso f a spidert oxin on the glutaminergsicy napseo f lobsterm uscleJ,. Physiol. (Lond.), 339( 1983)2 43--252. 2 BledsoeJ,r ., S. C. and Bobbin,R . P., Effe~ctosf D-a-ami-noadipatoen excitatioonf afferenfti bersi n the lateralli ne of Xenopus laevis, Neurosci. Lett., 32 (1982)315-320. 3 Bobbin,R . P., Glutamataen da spartatme imict heafferent transmitteirn the cochlea,E xp. Brain Res., 34 (1979) 38%393. 4 Curtis,D . R. andJ ohnstonG, . A. R., Amino acidt ransmit-ters in the mammalianc entraln ervouss ystem,E rgebn. Physiol., 69 (1974)9 7-188. 5 Fex, J. and Martin,M . R., Lack of effei:to f oL-a-aminoadi-pate,a n excitatoraym inoa cida ntagonisto,n cat auditory nerver esponsetso sound,N europharmacology, 19 (1980) 80%811. 6 KawagoeR, ., OnoderaK, . and TakeuchiA, ., Releaseo f glutamatefr om the crayfishn euromusculajur nction,J . Physiol. (Lond.), 312( 1981)225-236. 7 Kawai, N., Niwa, A. and Abe, T., Spiderv enomc ontains specificr eceptobr lockero f glutaminergsicy napsesB, rain Research, 247( 1982)1 69-171. 8 Kawai, N., Yamagishi,S ., Saito, M. and Furuya, K., Blockadeo f synaptict ransmissioinn the squid giant syn-apseb y a spidert oxin,B rain Research, 278( 1983)3 46-349. 9 Klinke, R. and Oertel,W ., Amino acids-- putativea ffer-ent transmitteinr the cochlea?E xp. Brain Res., 30 (1977) 145-148. 10 Medina,J . E. and DrescherD, . G., The amino-acidco n-tento f perilympha ndc erebrospinfallu id from guinea-pigs and the effecto f noise on the amino-acidc ompositioonf perilymphN,e uroscience, 6 ( 1981)5 05-509. 11 Nagai,T . andO bara,S ., Iontophoretaicp plicatioonf acidic amino acids in ampullarye lectroreceptoorsf Plotosus, This work was supportedin part by the grantsf rom the Ministry of Education,S ciencea nd Culture of Japan, No. 548101,5 7770115a nd 58370005.",

year = "1984",

month = may,

day = "21",

doi = "10.1016/0006-8993(84)91357-X",

language = "English",

volume = "300",

pages = "183--187",

journal = "Brain Research",

issn = "0006-8993",

publisher = "Elsevier",

number = "1",

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T1 - Differential blocking effects of a spider toxin on synaptic and glutamate responses in the afferent synapse of the acoustico-lateralis receptors of Plotosus

AU - Nagai, Takatoshi

AU - Obara, Shosaku

AU - Kawai, Nobufumi

N1 - Funding Information: 1 Abe, T., Kawai, N. and Miwa, A., Effectso f a spidert oxin on the glutaminergsicy napseo f lobsterm uscleJ,. Physiol. (Lond.), 339( 1983)2 43--252. 2 BledsoeJ,r ., S. C. and Bobbin,R . P., Effe~ctosf D-a-ami-noadipatoen excitatioonf afferenfti bersi n the lateralli ne of Xenopus laevis, Neurosci. Lett., 32 (1982)315-320. 3 Bobbin,R . P., Glutamataen da spartatme imict heafferent transmitteirn the cochlea,E xp. Brain Res., 34 (1979) 38%393. 4 Curtis,D . R. andJ ohnstonG, . A. R., Amino acidt ransmit-ters in the mammalianc entraln ervouss ystem,E rgebn. Physiol., 69 (1974)9 7-188. 5 Fex, J. and Martin,M . R., Lack of effei:to f oL-a-aminoadi-pate,a n excitatoraym inoa cida ntagonisto,n cat auditory nerver esponsetso sound,N europharmacology, 19 (1980) 80%811. 6 KawagoeR, ., OnoderaK, . and TakeuchiA, ., Releaseo f glutamatefr om the crayfishn euromusculajur nction,J . Physiol. (Lond.), 312( 1981)225-236. 7 Kawai, N., Niwa, A. and Abe, T., Spiderv enomc ontains specificr eceptobr lockero f glutaminergsicy napsesB, rain Research, 247( 1982)1 69-171. 8 Kawai, N., Yamagishi,S ., Saito, M. and Furuya, K., Blockadeo f synaptict ransmissioinn the squid giant syn-apseb y a spidert oxin,B rain Research, 278( 1983)3 46-349. 9 Klinke, R. and Oertel,W ., Amino acids-- putativea ffer-ent transmitteinr the cochlea?E xp. Brain Res., 30 (1977) 145-148. 10 Medina,J . E. and DrescherD, . G., The amino-acidco n-tento f perilympha ndc erebrospinfallu id from guinea-pigs and the effecto f noise on the amino-acidc ompositioonf perilymphN,e uroscience, 6 ( 1981)5 05-509. 11 Nagai,T . andO bara,S ., Iontophoretaicp plicatioonf acidic amino acids in ampullarye lectroreceptoorsf Plotosus, This work was supportedin part by the grantsf rom the Ministry of Education,S ciencea nd Culture of Japan, No. 548101,5 7770115a nd 58370005.

PY - 1984/5/21

Y1 - 1984/5/21

N2 - The hypothesis that glutamate is the afferent transmitter in the acoustico-lateralis receptors was examined in Plotosus electroreceptors. JSTX, a spider toxin known to specifically block glutamate receptors, irreversibly abolished afferent impulse discharges induced by iontophoretically applied glutamate, whereas those induced synaptically by focal stimulation of receptor cells were little affected. Such differential blocking effects by JSTX, complementary to other biochemical data, further provide pharmacological evidence against the glutamate hypothesis.

AB - The hypothesis that glutamate is the afferent transmitter in the acoustico-lateralis receptors was examined in Plotosus electroreceptors. JSTX, a spider toxin known to specifically block glutamate receptors, irreversibly abolished afferent impulse discharges induced by iontophoretically applied glutamate, whereas those induced synaptically by focal stimulation of receptor cells were little affected. Such differential blocking effects by JSTX, complementary to other biochemical data, further provide pharmacological evidence against the glutamate hypothesis.

KW - acoustico-lateralis receptor

KW - afferent synapse

KW - glutamate receptor

KW - iontophoresis

KW - neurotransmitter

KW - spider toxin

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U2 - 10.1016/0006-8993(84)91357-X

DO - 10.1016/0006-8993(84)91357-X

M3 - Article

C2 - 6145500

AN - SCOPUS:0021282077

SN - 0006-8993

VL - 300

SP - 183

EP - 187

JO - Brain Research

JF - Brain Research

IS - 1

ER -

Differential blocking effects of a spider toxin on synaptic and glutamate responses in the afferent synapse of the acoustico-lateralis receptors of Plotosus

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Keywords

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