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The effects of pH on afferent synaptic transmission in Plotosus electroreceptors
S176 THE EFFECTS OF pH ON AFFERINT SYNAPTIC TRANSMISSION IN PLOTOSUS ILECTRORECEPTORS YOSHIKO SUGAWARA~ HIROKO SATO* and SHOSAKU OBARA, Sch.
Med.,
Itabashi-ku,
Spontaneous markedly
at
no c h a n g e i n other
decreased The h i g h e r
at
discharges pH v a l u e s
however,
receptors
decreased to
afferent
increased
In c o n t r a s t , Isolated
Kaga 2 - 1 1 - ] ,
ICa's. at
orthodromic
pH,
levels
pH,
of
PSPs t o
and PSPs were i n c r e a s e d , decreased Direct
of
as PSPs a t
the
of
pH on t h e
of
lower
pH,
nerve terminals
at
lower
slightly
at
which
confirmed
of
nerve
of
the
F data
pH v a l u e s ,
discharges
of
of
Univ.,
with
afferent
postsynaptic
responses the
suggested which
in
at
pH 6 . 2
which
with
was s i m i l a r
pK(PSP)
a t pH 6 . 6 .
changes. situ
Both
of
a sustained
may e x p l a i n
the
ICa
outputs,
were s i m i l a r l y
mass r e s p o n s e
trains
and on t h e o r t h o d r o m i c
pH v a l u e s .
Peak ICa was
The a f f e r e n t
previous
induced
are pH.
n e r v e were s i m i l a r l y
with
pH.
higher
lower
pK(ICa)
peaks,
2 pH u n i t s higher
at
Plotosus at
K-blockers.
and f o r
from the over
the orthodromic
A comparison
spontaneous
are decreased
pH may s u g g e s t
only
polarization
graded F increase. of
but
impulses,
postsynaptic
externally
b u t more s t e e p l y
Teikyo
and a r e d e c r e a s e d
the presence
activation
Physiol.,
electroreceptors
7.2,
o v e r 3 pH u n i t s
for
PSPs recorded
lower
Dept.
Japan
the tonic than
responses in
sigmoidally
voltage
sensitivity
F (frequency)
of
lower
were V - c l a m p e d
lower the
Tokyo 173,
impulses
data. with
depolarization reverse
effects
responses.
CIRCLING OR ROLLING BEHAVIOR FOLLOWING UNILATERAL ELECTROLYTIC LESIONS OF THE VESTIBULAR SYSTEM IN RATS SHIROU MATSUOKA , FUMIO SHIHA , MOTOHIRO KATO and KATSUTOSHI KITAMURA Departments of Neurosurgery and Neurophysiology, Neurological Institute, Faculty of Medicine, Kyushu University, Fukuoka Unilateral lesions were made in the vestibular system to clarify which structure was responsible for circling or rolling behavior. They included I) the lateral and superior vestibular nuclei (LVN & SVN), 2) the inferior and medial vestibular nuclei (IVN & MVN) and 3) the intramedullary part of the vestibular nerve. The circling or rolling behaviors were observed following systemic administration of dopamine agonists, apomorphine or methamphetamlne, and dopamine antagonist haloperidol. The levels of dopamlne (DA) and homovanillic acid (HVA) in the striatum of rats with circling behaviors were assayed by the gas chromatographic-mass spectrometric method. Rats with lesions in LVN & SVN did not show any circling or rolling behavior spontaneously, while they showed circling behavior toward the intact side in response to apomorphine. On the other hand, rats wlth unilateral lesions in IVN & MVN produced spontaneously transient rolling behavior toward the lesioned side and showed circling behavior toward the lesioned side in response to apomorphine. Methamphetamine did not enhance the circling behavior in rats with each lesion. Haloperidol completely blocked the circling behavior, suggesting that the circling behavior was DA-dependent and probably mediated by the ascending vestibulo-thalamo-striatal pathway. No differences between DA metabolism were found in the striatum on both sides. Unilateral lesions of the vestibular nerve caused tight long-lasting rolling behavior, but did not respond to DA agonists or DA antagonist, indicating that the rolling behavior was DA-independent.
a
Med.,
Itabashi-ku,
Spontaneous markedly
at
no c h a n g e i n other
decreased The h i g h e r
at
discharges pH v a l u e s
however,
receptors
decreased to
afferent
increased
In c o n t r a s t , Isolated
Kaga 2 - 1 1 - ] ,
ICa's. at
orthodromic
pH,
levels
pH,
of
PSPs t o
and PSPs were i n c r e a s e d , decreased Direct
of
as PSPs a t
the
of
pH on t h e
of
lower
pH,
nerve terminals
at
lower
slightly
at
which
confirmed
of
nerve
of
the
F data
pH v a l u e s ,
discharges
of
of
Univ.,
with
afferent
postsynaptic
responses the
suggested which
in
at
pH 6 . 2
which
with
was s i m i l a r
pK(PSP)
a t pH 6 . 6 .
changes. situ
Both
of
a sustained
may e x p l a i n
the
ICa
outputs,
were s i m i l a r l y
mass r e s p o n s e
trains
and on t h e o r t h o d r o m i c
pH v a l u e s .
Peak ICa was
The a f f e r e n t
previous
induced
are pH.
n e r v e were s i m i l a r l y
with
pH.
higher
lower
pK(ICa)
peaks,
2 pH u n i t s higher
at
Plotosus at
K-blockers.
and f o r
from the over
the orthodromic
A comparison
spontaneous
are decreased
pH may s u g g e s t
only
polarization
graded F increase. of
but
impulses,
postsynaptic
externally
b u t more s t e e p l y
Teikyo
and a r e d e c r e a s e d
the presence
activation
Physiol.,
electroreceptors
7.2,
o v e r 3 pH u n i t s
for
PSPs recorded
lower
Dept.
Japan
the tonic than
responses in
sigmoidally
voltage
sensitivity
F (frequency)
of
lower
were V - c l a m p e d
lower the
Tokyo 173,
impulses
data. with
depolarization reverse
effects
responses.
CIRCLING OR ROLLING BEHAVIOR FOLLOWING UNILATERAL ELECTROLYTIC LESIONS OF THE VESTIBULAR SYSTEM IN RATS SHIROU MATSUOKA , FUMIO SHIHA , MOTOHIRO KATO and KATSUTOSHI KITAMURA Departments of Neurosurgery and Neurophysiology, Neurological Institute, Faculty of Medicine, Kyushu University, Fukuoka Unilateral lesions were made in the vestibular system to clarify which structure was responsible for circling or rolling behavior. They included I) the lateral and superior vestibular nuclei (LVN & SVN), 2) the inferior and medial vestibular nuclei (IVN & MVN) and 3) the intramedullary part of the vestibular nerve. The circling or rolling behaviors were observed following systemic administration of dopamine agonists, apomorphine or methamphetamlne, and dopamine antagonist haloperidol. The levels of dopamlne (DA) and homovanillic acid (HVA) in the striatum of rats with circling behaviors were assayed by the gas chromatographic-mass spectrometric method. Rats with lesions in LVN & SVN did not show any circling or rolling behavior spontaneously, while they showed circling behavior toward the intact side in response to apomorphine. On the other hand, rats wlth unilateral lesions in IVN & MVN produced spontaneously transient rolling behavior toward the lesioned side and showed circling behavior toward the lesioned side in response to apomorphine. Methamphetamine did not enhance the circling behavior in rats with each lesion. Haloperidol completely blocked the circling behavior, suggesting that the circling behavior was DA-dependent and probably mediated by the ascending vestibulo-thalamo-striatal pathway. No differences between DA metabolism were found in the striatum on both sides. Unilateral lesions of the vestibular nerve caused tight long-lasting rolling behavior, but did not respond to DA agonists or DA antagonist, indicating that the rolling behavior was DA-independent.
a