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calmodulin-dependent protein kinase kinases in the adult rat brain
S.122
TYROSINE PHOSPHORYLATION NEUROTROPHINS
183 HIROSHI
OHNISHI’,
MASASHI
Minamiooya,
expressed
molecule
with tyrosine-based
activation
Previously
Furthermore,
2 signaling
brain-derived
neurotrophic
as NGF, BDNF and NT-3.
ENHANCED ABNORMAL
Laboratory
KOJIMA,
Previous
investigations
synaptic
transmission
Extracellular
mechanism
(BDNF)
have suggested and synaptic we observed
ISHIBASHI,
hyperphosphorylation
results showed an abnormal
HIROWKI
excitability.
fear response
kinase may modulate complex behavioral
185
(NT-j)
responses,
to neurotrophic
activity.
tyrosine
factor\ such
So BIT-SHP-2
SUBUNIT
SIMONE STORK, KUNIHIKO
Sciences,
pathway
2B AND
OBATA
Okazaki, Aichi 4444585 tyrosine
kinases,
plays an important mice overexpressing
by Fyn. In vitro kinase experiments intracellular
role in Fyn in
To investigate
possible
implications
we studied a variety of behavioral in these animals.
showed that Fyn was
domain of the NR2B. The finding
Our observation
of the NR2B may also of enhanced
protein
traits in fyn-transgenic
mice.
thus suggests
that Fyn tyrosine
such as emotional behavior.
OF TWO ISOFORMS OF Ca* +/CALMODULIN-DEPENDENT KINASES IN THE ADULT RAT BRAIN
, TAKAKO
induced
Our results suggest that the BIT-SHP-
EXPRESSION
SAKAGAMI'
also
kindling suggests that altered phosphorylation
by Fyn on animal behavior,
and this
of the NMDA receptor subunit 2B (NR2B) in these mice and,
phophorylated
the NMDA receptor activity and neuronal phosphorylation
cytoplusmic
SHP-2,
complex formation between BIT and
In the course of studies using the transgenic
mice exhibited an accelerated
is
signal and intercellular association.
that Fyn, a member of non-receptor
plasticity.
which
In this study, we found that nerve growth factor
or neurotrophin-3
able to phosphorylate multiple tyrosine residues in the carboxyl-terminal
Preliminary
Inst. for
glycoprotein
phosphatase
of neurons which acts in response
National Institute for Physiological
found that the NR2B is preferentially
that fyn-overexpressing
tyrosine
BY
SANO’
that tyrosine-phosphorylated
protein tyrosine
domain of BIT has neural cell recognition
OLIVER STORK, HIDETOSHI
neurons of the forebrain,
modulate
INDUCED
and SHIN-ICHIRO
TYROSINE PHOSPHORYLATION OF THE NMDA RECEPTOR EMOTIONAL RESPONSE IN FYN-TRANSGENIC MICE.
of Neurochemistry,
forthermore,
we reported
of BIT and subsequent
factor
may be important for the cross-talk between neurotrophin
NOBUHIKO
SHP-2
is a membrane
of BIT and association with SHP-2 in primary cultured rat neurons.
pathway is a novel signal transduction
184
motifs)
activity of SHP-2.
(NGF) treatment of PC12 cells leads to tyrosine phosphorylation
phosphorylation
WITH
HIROSHI HATANAKA’.
2 (SH2) domain-containing
results in potent stimulation of phosphatase
SHP-2.
BIT
Machida, Tokyo 194-851 I, ‘Division of Protein Biosynthesis,
in the brain at the adult stage.
domain of BIT interacts with the Src homology association
OF
Osaka Univ., Yamadaoka, Suita, Osaka 5650871
BIT (brain jmmunoglobulin-like dominantly
ASSOCIATION
YAMADA’, MISAE KUBOTA’,
‘Mitsubishi Kasei Inst. of Life Sciences, Protein Research,
AND
KITANI*,
SACHIKO
KONDOl 1 Div. of Histology, Dept. of Cell Biology, Graduate Aoba-ku, Sendai 980-8575, * Dept. of Biochemistry, Asahikawa 078-8307.
OKUNO*, HITOSHI
PROTEIN
FUJISAWA*,
KINASE
HISATAKE
School of Medical Sciences, Tohoku Univ.. Asahikawa Medical College, Nishikagura,
in regulating the (CaMKK) is thought to be involved kinase I and IV. We have used in situ hybridization protein of the mRNA for two isoforms (a and !$) of CaMKKs in the adult rat CaMKKP mRNAs were distributed brain. CaMKKa mRNAs were distributed widely throughout the neuroaxis, for CaMKKa mRNAs was detected in the in relatively restricted neuronal populations. Highest expression hippocampal formation, moderate expression in the olfactory bulb, cerebral cortex, thalamic nuclei, brain cerebellar granule cells and Purkinje and spinal cord; and weak expression in the striatum, stem nuclei, detected in the cerebellar granule cells, moderate cells. Highest expression for CaMKKP mRNAs was weak expression in the striatum, pontine nuclei, spinal expression in the olfactory bulb and cerebral cortex; cord. We have also used immunohistochemistry to and dorsal horn of the spinal trigeminal nuclei, CaMKKa by raising monoclonal antibodies. CaMKKadetermine the subcellular localization of immunoreactivity was localized in the neuronal, cytoplasm and dendrite, but not in the nucleus. These findings suggest that two isoforms of CaMKKS may be involved in different roles in the Caz+-signaling.
Ca2+/calmodulin-dependent activities of histochemistry
protein
kinase
both Caz+/calmodulin-dependent to examine the distribution
kinase
TYROSINE PHOSPHORYLATION NEUROTROPHINS
183 HIROSHI
OHNISHI’,
MASASHI
Minamiooya,
expressed
molecule
with tyrosine-based
activation
Previously
Furthermore,
2 signaling
brain-derived
neurotrophic
as NGF, BDNF and NT-3.
ENHANCED ABNORMAL
Laboratory
KOJIMA,
Previous
investigations
synaptic
transmission
Extracellular
mechanism
(BDNF)
have suggested and synaptic we observed
ISHIBASHI,
hyperphosphorylation
results showed an abnormal
HIROWKI
excitability.
fear response
kinase may modulate complex behavioral
185
(NT-j)
responses,
to neurotrophic
activity.
tyrosine
factor\ such
So BIT-SHP-2
SUBUNIT
SIMONE STORK, KUNIHIKO
Sciences,
pathway
2B AND
OBATA
Okazaki, Aichi 4444585 tyrosine
kinases,
plays an important mice overexpressing
by Fyn. In vitro kinase experiments intracellular
role in Fyn in
To investigate
possible
implications
we studied a variety of behavioral in these animals.
showed that Fyn was
domain of the NR2B. The finding
Our observation
of the NR2B may also of enhanced
protein
traits in fyn-transgenic
mice.
thus suggests
that Fyn tyrosine
such as emotional behavior.
OF TWO ISOFORMS OF Ca* +/CALMODULIN-DEPENDENT KINASES IN THE ADULT RAT BRAIN
, TAKAKO
induced
Our results suggest that the BIT-SHP-
EXPRESSION
SAKAGAMI'
also
kindling suggests that altered phosphorylation
by Fyn on animal behavior,
and this
of the NMDA receptor subunit 2B (NR2B) in these mice and,
phophorylated
the NMDA receptor activity and neuronal phosphorylation
cytoplusmic
SHP-2,
complex formation between BIT and
In the course of studies using the transgenic
mice exhibited an accelerated
is
signal and intercellular association.
that Fyn, a member of non-receptor
plasticity.
which
In this study, we found that nerve growth factor
or neurotrophin-3
able to phosphorylate multiple tyrosine residues in the carboxyl-terminal
Preliminary
Inst. for
glycoprotein
phosphatase
of neurons which acts in response
National Institute for Physiological
found that the NR2B is preferentially
that fyn-overexpressing
tyrosine
BY
SANO’
that tyrosine-phosphorylated
protein tyrosine
domain of BIT has neural cell recognition
OLIVER STORK, HIDETOSHI
neurons of the forebrain,
modulate
INDUCED
and SHIN-ICHIRO
TYROSINE PHOSPHORYLATION OF THE NMDA RECEPTOR EMOTIONAL RESPONSE IN FYN-TRANSGENIC MICE.
of Neurochemistry,
forthermore,
we reported
of BIT and subsequent
factor
may be important for the cross-talk between neurotrophin
NOBUHIKO
SHP-2
is a membrane
of BIT and association with SHP-2 in primary cultured rat neurons.
pathway is a novel signal transduction
184
motifs)
activity of SHP-2.
(NGF) treatment of PC12 cells leads to tyrosine phosphorylation
phosphorylation
WITH
HIROSHI HATANAKA’.
2 (SH2) domain-containing
results in potent stimulation of phosphatase
SHP-2.
BIT
Machida, Tokyo 194-851 I, ‘Division of Protein Biosynthesis,
in the brain at the adult stage.
domain of BIT interacts with the Src homology association
OF
Osaka Univ., Yamadaoka, Suita, Osaka 5650871
BIT (brain jmmunoglobulin-like dominantly
ASSOCIATION
YAMADA’, MISAE KUBOTA’,
‘Mitsubishi Kasei Inst. of Life Sciences, Protein Research,
AND
KITANI*,
SACHIKO
KONDOl 1 Div. of Histology, Dept. of Cell Biology, Graduate Aoba-ku, Sendai 980-8575, * Dept. of Biochemistry, Asahikawa 078-8307.
OKUNO*, HITOSHI
PROTEIN
FUJISAWA*,
KINASE
HISATAKE
School of Medical Sciences, Tohoku Univ.. Asahikawa Medical College, Nishikagura,
in regulating the (CaMKK) is thought to be involved kinase I and IV. We have used in situ hybridization protein of the mRNA for two isoforms (a and !$) of CaMKKs in the adult rat CaMKKP mRNAs were distributed brain. CaMKKa mRNAs were distributed widely throughout the neuroaxis, for CaMKKa mRNAs was detected in the in relatively restricted neuronal populations. Highest expression hippocampal formation, moderate expression in the olfactory bulb, cerebral cortex, thalamic nuclei, brain cerebellar granule cells and Purkinje and spinal cord; and weak expression in the striatum, stem nuclei, detected in the cerebellar granule cells, moderate cells. Highest expression for CaMKKP mRNAs was weak expression in the striatum, pontine nuclei, spinal expression in the olfactory bulb and cerebral cortex; cord. We have also used immunohistochemistry to and dorsal horn of the spinal trigeminal nuclei, CaMKKa by raising monoclonal antibodies. CaMKKadetermine the subcellular localization of immunoreactivity was localized in the neuronal, cytoplasm and dendrite, but not in the nucleus. These findings suggest that two isoforms of CaMKKS may be involved in different roles in the Caz+-signaling.
Ca2+/calmodulin-dependent activities of histochemistry
protein
kinase
both Caz+/calmodulin-dependent to examine the distribution
kinase