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Calbindin immunoreactivity in the hippocampal formation and neocortex of schizophrenics
Pmg. N-sydtophmmaml
(L Bid
F3&iat.
cOp&ht 0 Printed
1999, Vol. 23, pp. 40942 1999 Elsevicr
in the USA.
front matter
PII 60278-as46(99)OOW’&6
CALBIRDIR IIUMUROREACTIVITY INTHEmmOCAMPALFORIuATI0~ AND NEOCORTEX OF SCHIZOPHRENICS SHVJI IRITANP, NORIOMI KVROKP, KENJI IKEDA** andhYJIME KAZAMATSVRP
*Dept. of Psychiatry, Tokyo Metropolitan Matsuzawa Hospital Tokyo,JAPAN,**Dept. of Neuropathology, Tokyo Institute of Psychiatry Tokyo, JAPAN (Final form! March
1999)
Abstract Iritani Shuji, Noriomi Kuroki, Kenji Ikeda and Hajime Kazamatsuri: Calhindin Immunoreactivity in The Hippocampal Formation and Neocortex of Schizophrenics. Prog. Neuro-Psychophdrmacol. & Biol. Psychiat. 1999,2& pp. 409421.01999 Elsevier ScienceInc. l.The authors studied the morphology of CalbindinDZgK (CaBp) immunoreactive ceils and processes in the hippocampal formation and the prefrontal cortex of schizophrenics using the immunohistochemicai technique of avidin-biotin-complex method (ABC method), and the results were compared with those from normal human brains. 2.In the hippocampal formation area CA2 of schizophrenics, many CaBp-immunopositive cell bodies and fibers were disordered in their arrangement compared to normal control brains. 3.In the prefrontal cortex (Brodmann area 9) of schizophrenics, many immunopositive cell bodies were exhibited irregular axis arrangement and fiber disarray. 4. The altered distribution pattern of CaBp-immunopositive structures in the hippocampal formation and the prefrontal cortex might indicate the existence of GABA(gamma-aminobutyric acid)ergic dysfunction in the brain of schizophrenic patients. Keywords: calbindinD28K, hippocampus, immunohistochemistry, prefrontal cortex, schizophrenia. . . e avidin-biotin-complex method (ABC method), CalbindinD28K (CaBp), Diagnostic and Statistical manual of Mental Disorders. 4th ed.(DSM-IV), gamma-aminobutyric acid (GABA), 2% normal goat serum (NGS), phosphate buffered saline (PBS), T&-Cl buffered saline (TBS; pH 7.4, 0.9% NaCl), 0.3% Triton X-lOO(TX) ductim Since the concept of dementia praecox was defined by Kraepelin nearly a century ago, many investigators have considered schizophrenia to be an organic disease. Many neuropdthoiogical findings in schizophrenic brains have been reported, but no consistent features have been established for this condition. In the last 20 years, two major streams of neuropathological studies of schizophrenia have developed. One stream of studies focuses on limbic structures. These studies have shown that the ventricle volume is enlarged in schizophrenic brain and the volume of the limbic system is reduced, as shown by neuroimaging(Bachneff,1991).
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These studies strongly suggest that the cognitive dysfunction
of schizophrenia is due to the disorganization of the limbic system. The other stream is focuses on neurodevelopmental disorders of the schizophrenic brain. Studies of neuropathological abnormalities in schizophrenic brain have been recently increasing and Roberts et
410
s. hitani et Ql.
a1(1986,1987) reported that there were no neuronal degeneration Moreover, there are no reports demonstrating neuritic plaque in the schizophrenic schizophrenia
is
neuropathological
a
like a gliosis in schizophrenic
abnormal protein deposits such as neurofibrillary
brain. These
neurodevelopmental,
findings
not
have been interpreted
neurodegenerative,
disorder.
studies have concentrated on quantitative measurements
instead of the qualitative histological analysis in schizophrenic
brains. tangle or
as evidence Therefore,
that recent
of the neuronal construction
brains, especially in the hippocampus.
These quantitative studies of the hippocampal,formation
include i) meaurement
of tissue volume
(Bogerts et al., 1985; Bogerts et al., 199(I), ii) measurement of neuronal density (Benes et al., 1991; Benes et al., 1993), iii) neurons counting (Falkai and Bogerts, 1986; Heckers et al., lYYl), iv) observation of the arrangement
of pyramidal
cells (Bents
et al., 1991; Chun and Shatz, 1YXY; Kovelman
and Scheibel,
1984), v) measurement of pyramidal cell size (Benes et al., 1991; Zaidel et al.. 1997) and vi) examination of various focused neurons or proteins by staining including immunohistochemical al., 1991). Benes et al (1996) reported that the number of gamma-aminobutyric in dentate gyms, area CA4, area CA3, subiculum, and the presubiculum in schizophrenic
brains. But the number of chemical neuroanatomical
Neuropathological reported(Benes
abnormalities
of cerebral
et al., 1986; Akbarian
Neuropsychological
frontal
et al., 1993; Akbarian
studies have suggested
In this study, the authors demonstrated
clarified (Baimbridge
studies are limited. in schizophrenics
have also been
et al.. 1996: Selemon
the hypothesis
proteins
group,
pathogenesis
1982; Celio. 1990).
in the hippocampal
using the ABC immunohistochemical
technique,
with those from normal human brain. CaBp is a member
and is widely However,
distributed its precise
in the mammalian physiological
central nervous
function
et al., 1992). On e of its function is believed to be the regulation
excitability through altering concentrations
of calcium ions within neurons.
has not been of neuronal
Further, cortical GABAergic
neurons also contain CaBp in the cytoplasm, and this protein may act as a neuromodulator Moreover,
et al., 1995). may be related
that schizophrenia
the distribution of CaBp immunorcactivity
cortex of schizophrenics
and compared the findings from schizophrenics
system(Baimbridge,
were elevated
of the frontal cortex.
formation and the prefrontal
of calcium binding
of hippocampus
that cognitive impairment in schizophrenics
to the prefrontal cortex (Faux et al., 1988), supporting involves the dysfunction
cortex
staining (Arnold et
acid (GABA, ) receptors
(Celia, 1990).
CaBp colocalized in the cholinergic neurons of the nucleus basalis of Meynert in primates,
but this protein was absent in rats(Celio and Norman,
1985; Chang and Kuo, 1YYl). These studies
suggest that CaBp may be involved in the higher level neuronal functions like memory and/or learning. In the present study, the authors examined the neurons containing CaBp in the hippocampal and prefrontal cortex of the schizophrenic
formation
brains.
Three normal control brains and brains of 6 schizophrenic
patients were used. All caSes had been
CaJ3p containing admitted and treated in our hospital.
Brains without neuropsychiatric
control cases. Diagnosis of schizophrenia Association,
neurons in schizophrenics
411
disease were selected as normal
was conducted by applying the DSM-IV(American
1994). None of the cases had a history of alcohol abuse, convulsions
which may have the neuropathologically
Psychiatric
or encephalitis,
altered the central nervous system. The clinical characteristics of
all cases are shown in Table 1.
Table 1. Clinical
Characteristics Normal Case Norm.1 Case Norm.2 Case Norm.3 Mean SD
of Control
Age (years) 76
Sex
and Schizophrenic
Patients
Subjects.
PMI* (hours) 3
Cause of Death
M
Brain Weight(g) 1320
54
M
1440
8
Renal dysfunction
61
F
1360
18
Gallbladder cancer
63.7
1373
9.18
49.89
Schizophrenia
Age (years)
Sex
Brain Weight(g)
CaseSch.1
56
M
Stomach cancer
Duration of Illness (years)
PMI* (hours)
Cause of Death
1370
25
12
Pneumonia
7
Gastric ulcer
2
Acute heart failure
Case Sch.2
68
M
1290
31
Case Sch.3
56
F
1220
23
Case Sch.4
63
F
1100
30
2
Acute heart failure
Case Sch.5
43
M
1380
15
10
Pneumonia
Case Sch.6
63
M
1320
42
15
Bone cancer
Mean
5x.2
12h2
SD
8.28
96.00
*PMI: Postmortem interval
Also, all cases lacked neuropathological
changes associated with neurodegenerdtion
cerebral vascular disease, this was confirmed by several neuropathologists
like gliosis or/and
by microscopic
examination
of Bematoxylin Eosin stained or Kltiver-Barrera stained specimens. The bereaved families of all cases consented to this study. Procedure In all cases, autopsy were performed
as soon as possible after death. Brains were cut into small
412
S. Iritani et al.
blocks(5mm thick) for immersion fixation. Brains were fixed in the Zamboni solution(Zamboni Marino, 1967) for two nights(CC),
and De
then immersed in 20% sucrose-O. 1M Phosphate Buffer solution for
at least 3 days or more(4”C). Thirty micron-thick
sections were made of the fixed brain slices using a
freezing microtome or cryostat. Sections were collected, rinsed and stored in phosphate
buffered saline
(PBS), O.g%NaCl in 0.1M PB(pH 7.4), for at least 3 days and for up to two weeks prior to the next immunohistochemical
staining procedures.
Brain sections were rinsed in O.lM Tris-Cl buffered saline (TBS; pH 7.4, 0.9% NaCl), containing 0.3% Triton X-100 (TX) and 2% normal goat serum(NGS), sections
were incubated
1) in a commercially
(Sigma,; dilutions of l/1000-l/2000 medium containing temperature(45
biotinylated
min),and
available monoclonal
in 2% NGS-0.3% anti-rabbit
for 30-60 min. at room temperature. The
IgG (Vector:
then 3) in medium
anti-CalbindinD28K
TX-O. 1M THS solution), diluted l/100
containing
avidin-biotin
antibody
overnight (4°C) 2) in
in NGS-TX-TBS) peroxidase
at room
complex
[ABC
method(Hsu et al., 1981)] for 45 min. After each incubation step, the sections were rinsed in NGS-TXTBS solution.
Finally, the sections were rinsed in TBS twice for 10 min reacted with 0.05%,
diaminobenzine-HCl
in 0.05M Tris-Cl buffer (pH7.6)
3,3’
two or three times, and mounted onto gelatin
coated slides. After drying, the sections were dehydrated and coverslipped
with Permount,and
examined
with a light microscope. Control studies were conducted immunocytochemical
using the same immunostaining
labeling the diluted antiCalbindinD28K
pg/ml of Calcium-binding
procedure,
was preabsorbed
except that prior to with 10 pg/ml or 50
protein(Vitamin D-induced) (Sigma).
In case of normal human controls,
CaBp positive cells exhibited well ordered
run in a uniform direction in the CA2 area of the hippocampus.
ardyS
and their fibers
Positive cells in the CA2 area were
mostly pyramidal cells with nearly identical cell body size. Cells orientation was also nearly uniform. On the other hand, in all cases of schizophrenia,
CaBp-positive
neurons exhibited disoriented arrays. CaBp-
positive neurons were scarce and their shapes were not uniform compared to normal control neurons. The density of CaBp positive cells in the CA2 region of all schizophrenic than that of normal controls. Many of these cells in schizophrenic coinciding with their disarray, and their processes
cases was significantly
lower
brains had long or short processes
were orientated at random directions (Fig 1, Fig 2a,
Fig 2b).
In the prefrontal cortex (Brodmann III-IV
of three schizophrenic
area 9) of the schizophrenic
cases, CaBp-positive
cases were disarrayed compared to normal controls.
neurons in layer In normal control
cases, these positive cells were in well ordered arrays and their processes oriented perpendicular to the
CaBp containing
neurons
413
in schizophrenics
_
&Observed
Fig 1. Photomictogrqhs of the CA2 region of the hippocampal fotmrrt’on in u normal control(A) wrd II schizophrenia brain(B). Noted that CaBp positive cells were rare wld not unifktm in shqe itt schizophrenia brains, compared to he twrmal controls.(Bar=50 0 m) surface of the cortex. On the other hand, in the case of schizophrenia, arrayed
and their processes
schizophrenic
were
oriented
almost
completely
these positive cells were randomly randomly.
cases were running in somewhat arbitrary directions (Fig 3, Fiig 4).
Positive
fibcrs
in the
S. Iritani et al
414
7r
i
Fig 2a Camera&id of the CaBp positive products in the CA2 region of al! cases of the twrmul cotrtroi (Case Norm.1 -3; A-C). (Bar=50 LLm)
Discussion
s ln Schizo~
‘a
In this study, the authors investigated the morphological and fibers in the hippocampus with those of normal controls.
characteristics
and the prefrontal cortex of schizophrenic As shown
in Fig 2b, the positive
of CaBp-containing
neurons
hippocampus were less dense and more disarrayed than control specimens. accord with previous studies of the hippocampal formation of schizophrenics and Shatq1989;
Jeste and Lohr,1989).
distribution of CaBp-containing
neurons
patients and compared to them in the area CA2 of the
These findings are in good (Benes et al., 1991; Chun
Moreover, in this study, we also observed changes in neuronal
neurons.
to be involevcd in intercircuit neuronal
Cortical GABAergic neurons contain CaBp, which is thought connections
as a neuromodulater(Celio,
1990). The calcium-
binding proteins, CaBp, calretinin, and parvalbumin are present in separate subpopulations
of local
C&p containing
415
neurons in schizophrenics
D
F
J
Fig 2b. Cameralucid of the CaBppositiveproducts in the CA2 region of all cues of schizophrenia (Cue Sch. l-6; D-I). Noted that CaBp positive cell were less dense and their shapes were not uniform in schizophrenia cases compared to normal controls (A-C). Positive cells in the schizophrenia were sometimes disarrayed and had a long or short apical dendrite. Thepositive fibers were mndamly oriented compared to lwrmal controls.(Bar=_YOu m)
circuit neurons(CondC et a1.,1994), which together constitute 90% of GABAergic neurons(Gahbott Bacon, 1996). So, changes in CaBp-containing GABAergic neuronal dysfunction
neurons in schizophrenia
occurs in schizophrenic
brains(Benes
supports
et al., 1993).
the hypothesis
and that
416
S. Iritani ei al.
Fig 3. Photomicrograpks of luyer III-IV in tkeprefrontul cortex (Brodmrum ureu Y) of tlormd control(A) cold schizophrenia brains(B, C). Positive cells in the sckizophrerliu bruin sometime.s were di.surruyed or/and disoriented and distributed at rwtdom compured to rlormul control cuses. Normol ~mtrol.s were uniform itt their arrangemalts and orientationof theirfibers. (Bar = 100 :/ m) According to previous containing neurons
studies in the prefrontal
is significant
increased,
containing neuron densities (Tsung-Ung
cortex in schizophrenia,
the density of the CaBp-
but ollretinin (Daviss and L,ewis,lYY5) and parvalbumin-
Woo et al,.lYY7)are not different from normal controls. In this
CaBp containing
.
.
417
neurons in schizophrenics
>
J Fig 4. Cameralucid of lyer III-IV of the prefrontal cortex of r~~rmalcontrol(A), atul schizophrer~ic brains(Case Schl3;B, C, 0). Positive cells in schizophrenic brains were sometimes disarryed and distributed at random compared to normal control cases. Normal corltrol.~were ukform in their arrangements and orientationof their fibers. (Bar=100 11m) study, the density of CaBp-containing schizophrenia,
neurons was reduced in the CA2 region of the hippocampus
but not altered in the prefrontal cortex. Morphological
abnormalities
of
in CaBp positive
neurons and their fibers were observed in the prefrontal cortex. Some of the inconsistencies
between the previous studies and this study are probably the result of case
selection or small sample size. In any case, we believed that dysfunctional the hippocampal the reduction schizophrenia
of neurons.
GAE3Aergic neuron
dysfunction
The morphological
and may have several neuropathological
changes of CaBp-positive
without neuropathological
neurons in the hippocampus
findings such as neurodegeneration
this study might be the cause of the neurodevelopmental schizophrenia,
and these findings support the hypothesis
neurodevelopmental
abnormalities.
changes and/or
might be related to the symptoms
such as deterioration of cognition and/or learning. However, schizophrenia
syndrome of different etiologic backgrounds
schizophrenics
GABAergic neurons exist in
formation and the prefrontal cortex accompanied by the morphological
dysfunction
of
is considered a
features.
and prefrontal
cortex of
or gliosis of brain tissue in
of the central nervous system of
that the pathogenesis
of schizophrenia
is due to
418
S. Iritani et al.
tlons of CaBo m Psvchiatric Disease Calcium binding proteins may function as a buffer and participate in the transportation
of calcium ions
as well as regulate the function of enzymes within central nervous system neurons(Baimbridge Miller,1984;
Jande
et al.,
1981; Kijhr et al.,1991).
distributed in the central nervous protein sub-group,
system.
CaBp,
a calcium binding
The detailed physiological
function
protein,
and
is widely
of a calcium binding
the so-called EF-hand proteins, is unknown and the characteristic differences
among
the subclass of these proteins remains unclear. In previous biological studies of mental disorders,
it was reported that the concentration of calcium ion
in blood was altered in the patients with bipolar affective disorder, and calcium ion antagonists effective for the treatment of depression(Heizmann
and Braun, 1992). Also it was found that calcium
antagonist may be effective for the treatment of negative symptoms Changes in distribution
of CaBp have been reported
Nishiyama et al., 1993), Huntington Christakos,1990).
For example,
disease(Kiyama
may be
of schizophrenia
in Alzheimer’s
(Price,
disease(Ichimiya
lYX7).
et al., 1988;
et al., 199(J), and Parkinson disease(Iacopino
and
the number of CaBp positive neurons are reduced in the cortex of
Alzheimer patients as demonstrated
by immunocytochemical
ct al., 1988). These
techniques(Ichimiya
facts indicate that the pathology of calcium ion and/or calcium binding protein group arc rekited to mental disorders. poisons
CaBp has also been found to be involeved such
as
ischemia(Freund
h4TPT( l-metyl-4-phenyl-1,2,3,
et al., 1990), or convulsion
density of CaBp-containing
Gtetrahydropyridin)(
of neuron to neuronal
Lavoic
like a epileptic seizure(Sloviter
in GABAergic
neurons
of schizophrenia
Parcnt.1991).
shown in this stud)
and supports the hypothesis
is altered in schizophrenia.
hippocampal formation of schizophrenic
and
et al., 1YYl). The rcduccd
neurons in the hippocampal formation in schizophrenia
may be at least partly involved in the pathogenesis gene expression
with the vulnerability
brains may be more vulnerable than normal controls,
in the development
that
The neurons in area CA2 of the
vulnerability
may be involved
of schizophrenia.
Further
investigations
physiological
function of the EF-hand proteins like CaBp may be necdcd to understand
and this of the
ncuropsychiatric
diseases. Pharmacoloev
and Clinical Feature
The brains of patients used in this study had been subjected to long-term neuroleptic which may have altered the dynamism
of calcium ion movement,
calcium ion metabolism might change the expression
i.e., it is possible
of CaBp in neurons.
medication.
that changes in
All patients examined in this
study had been admitted to the psychiatric hospital for periods greater more than 15 years and presented severe negative symptoms
of schizophrenia,
group to a clinical medication. schizophrenic
so the patients in this study might represent
The results of this study may indicate the actual condition
patient group. Investigations
a resistant of only this
of the distribution of CaBp in other clinical types of patients
are needed. In any case, the present observations
suggest that both morphological
changes and alterations in the
CaBp containing neurotransmission
419
neurons in schizophrenics
mechanism exist in schizophrenia
The chemical-neuroandtomicaI
this study will hopefully be useful for discovering the etiology of schizophrenic
It is believed that CaBp immunoreactive interneurons
in the human of
schizophrenic
immunoreactivity
in the hippocampal
method. In the hippocampal
neurons mostly belong to a subpopulation
cerebral cortex.
pdthophysiology
GABAergic
disorder.
In
this
dysfunction study,
has been
the
authors
formation and neocortex of schizophrenic
formation of schizophrenia,
fibers of ared CA2 were altered in their arrangements. bodies had irregularly arrangements
approaches used in
disorder.
of GABAergic
implicated
in the
investigated
CaBp
brains using the ABC
some CaBp-immunopositive
cell bodies and
In the frontal cortex, some immunopositive
cell
of their axis and had disarrayed fibers. These observations
may
indicate GABAergic neuron dysfunction
in schizophrenic
disorder.
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ROBERTS GW, COLTER N, LOFTHOUSE R, BOGERTS B, ZECH M and CROW TJ. (1986) Gliosis in schizophrenia: Asurvey. Biol Psychiatry,21(11):1043-10.50. ROBERTS GW, COLTER N, LOFTHOUSE R, JOHNSTONE EC and CROW TJ. (lYX7) Is there gliosis in schizophrenia? Investigation of the temporal lobe. Biol Psychiatry,U( 12): 14SY-1468. SELEMON LD, RAJKOWSKA G and GOLDMAN-RAKIC PS(lYY5) Abnormally high ncuronal density in the schizophrenic cortex. A morphometric analysis of prefrontal arca Y and occipital area 17. Arch Gen Psychiatry,52(10):805-820. SLOVITER RS, SOLLAS AL, BARBARO NM and LAKER KD.(lYYl) Calcium-binding (calbindinD28K) and parvalbumin immunocytochemistry in the normal and epileptic hippocampus. J Comp Neuro1,3(L8(3):381-396.
protein human
TSUNG-UNG WOO, MILLER JL and LEWIS DA(1997) Schizophrenia and the ParvalhuminContaining Class of Cortical Local Circuit Neurons. Am J Psychiatry, 154(7):1013-1015. ZAIDEL DW, ESIRI MM and HARRISON PJ.(l997) Size, shape, and orientation of neurons in the left and right hippocampus: investigation of normal asymmetries and alterations in schizophrenia. Am J Psychiatry,l54(6):812-818. ZAMBONI L and DE MARINO C.(lY67) Buffered picric-acid formaldehyde electron microscopy. J Cell Biol,35:148A.
Inquiries and reprint requests should be addressed to:
DrShuji
Iritani
Department of Psychiatry Tokyo Metropolitan Matsuzawa Hospital 2-l - 1 Kamikitazawa Setagayaku Tokyo 156-0057 JAPAN Tel +81-3-3303-7211,
Faxt81-3-3329-7586
E-mail; [email protected]
:a new rapid fixative for
(L Bid
F3&iat.
cOp&ht 0 Printed
1999, Vol. 23, pp. 40942 1999 Elsevicr
in the USA.
front matter
PII 60278-as46(99)OOW’&6
CALBIRDIR IIUMUROREACTIVITY INTHEmmOCAMPALFORIuATI0~ AND NEOCORTEX OF SCHIZOPHRENICS SHVJI IRITANP, NORIOMI KVROKP, KENJI IKEDA** andhYJIME KAZAMATSVRP
*Dept. of Psychiatry, Tokyo Metropolitan Matsuzawa Hospital Tokyo,JAPAN,**Dept. of Neuropathology, Tokyo Institute of Psychiatry Tokyo, JAPAN (Final form! March
1999)
Abstract Iritani Shuji, Noriomi Kuroki, Kenji Ikeda and Hajime Kazamatsuri: Calhindin Immunoreactivity in The Hippocampal Formation and Neocortex of Schizophrenics. Prog. Neuro-Psychophdrmacol. & Biol. Psychiat. 1999,2& pp. 409421.01999 Elsevier ScienceInc. l.The authors studied the morphology of CalbindinDZgK (CaBp) immunoreactive ceils and processes in the hippocampal formation and the prefrontal cortex of schizophrenics using the immunohistochemicai technique of avidin-biotin-complex method (ABC method), and the results were compared with those from normal human brains. 2.In the hippocampal formation area CA2 of schizophrenics, many CaBp-immunopositive cell bodies and fibers were disordered in their arrangement compared to normal control brains. 3.In the prefrontal cortex (Brodmann area 9) of schizophrenics, many immunopositive cell bodies were exhibited irregular axis arrangement and fiber disarray. 4. The altered distribution pattern of CaBp-immunopositive structures in the hippocampal formation and the prefrontal cortex might indicate the existence of GABA(gamma-aminobutyric acid)ergic dysfunction in the brain of schizophrenic patients. Keywords: calbindinD28K, hippocampus, immunohistochemistry, prefrontal cortex, schizophrenia. . . e avidin-biotin-complex method (ABC method), CalbindinD28K (CaBp), Diagnostic and Statistical manual of Mental Disorders. 4th ed.(DSM-IV), gamma-aminobutyric acid (GABA), 2% normal goat serum (NGS), phosphate buffered saline (PBS), T&-Cl buffered saline (TBS; pH 7.4, 0.9% NaCl), 0.3% Triton X-lOO(TX) ductim Since the concept of dementia praecox was defined by Kraepelin nearly a century ago, many investigators have considered schizophrenia to be an organic disease. Many neuropdthoiogical findings in schizophrenic brains have been reported, but no consistent features have been established for this condition. In the last 20 years, two major streams of neuropathological studies of schizophrenia have developed. One stream of studies focuses on limbic structures. These studies have shown that the ventricle volume is enlarged in schizophrenic brain and the volume of the limbic system is reduced, as shown by neuroimaging(Bachneff,1991).
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Science
These studies strongly suggest that the cognitive dysfunction
of schizophrenia is due to the disorganization of the limbic system. The other stream is focuses on neurodevelopmental disorders of the schizophrenic brain. Studies of neuropathological abnormalities in schizophrenic brain have been recently increasing and Roberts et
410
s. hitani et Ql.
a1(1986,1987) reported that there were no neuronal degeneration Moreover, there are no reports demonstrating neuritic plaque in the schizophrenic schizophrenia
is
neuropathological
a
like a gliosis in schizophrenic
abnormal protein deposits such as neurofibrillary
brain. These
neurodevelopmental,
findings
not
have been interpreted
neurodegenerative,
disorder.
studies have concentrated on quantitative measurements
instead of the qualitative histological analysis in schizophrenic
brains. tangle or
as evidence Therefore,
that recent
of the neuronal construction
brains, especially in the hippocampus.
These quantitative studies of the hippocampal,formation
include i) meaurement
of tissue volume
(Bogerts et al., 1985; Bogerts et al., 199(I), ii) measurement of neuronal density (Benes et al., 1991; Benes et al., 1993), iii) neurons counting (Falkai and Bogerts, 1986; Heckers et al., lYYl), iv) observation of the arrangement
of pyramidal
cells (Bents
et al., 1991; Chun and Shatz, 1YXY; Kovelman
and Scheibel,
1984), v) measurement of pyramidal cell size (Benes et al., 1991; Zaidel et al.. 1997) and vi) examination of various focused neurons or proteins by staining including immunohistochemical al., 1991). Benes et al (1996) reported that the number of gamma-aminobutyric in dentate gyms, area CA4, area CA3, subiculum, and the presubiculum in schizophrenic
brains. But the number of chemical neuroanatomical
Neuropathological reported(Benes
abnormalities
of cerebral
et al., 1986; Akbarian
Neuropsychological
frontal
et al., 1993; Akbarian
studies have suggested
In this study, the authors demonstrated
clarified (Baimbridge
studies are limited. in schizophrenics
have also been
et al.. 1996: Selemon
the hypothesis
proteins
group,
pathogenesis
1982; Celio. 1990).
in the hippocampal
using the ABC immunohistochemical
technique,
with those from normal human brain. CaBp is a member
and is widely However,
distributed its precise
in the mammalian physiological
central nervous
function
et al., 1992). On e of its function is believed to be the regulation
excitability through altering concentrations
of calcium ions within neurons.
has not been of neuronal
Further, cortical GABAergic
neurons also contain CaBp in the cytoplasm, and this protein may act as a neuromodulator Moreover,
et al., 1995). may be related
that schizophrenia
the distribution of CaBp immunorcactivity
cortex of schizophrenics
and compared the findings from schizophrenics
system(Baimbridge,
were elevated
of the frontal cortex.
formation and the prefrontal
of calcium binding
of hippocampus
that cognitive impairment in schizophrenics
to the prefrontal cortex (Faux et al., 1988), supporting involves the dysfunction
cortex
staining (Arnold et
acid (GABA, ) receptors
(Celia, 1990).
CaBp colocalized in the cholinergic neurons of the nucleus basalis of Meynert in primates,
but this protein was absent in rats(Celio and Norman,
1985; Chang and Kuo, 1YYl). These studies
suggest that CaBp may be involved in the higher level neuronal functions like memory and/or learning. In the present study, the authors examined the neurons containing CaBp in the hippocampal and prefrontal cortex of the schizophrenic
formation
brains.
Three normal control brains and brains of 6 schizophrenic
patients were used. All caSes had been
CaJ3p containing admitted and treated in our hospital.
Brains without neuropsychiatric
control cases. Diagnosis of schizophrenia Association,
neurons in schizophrenics
411
disease were selected as normal
was conducted by applying the DSM-IV(American
1994). None of the cases had a history of alcohol abuse, convulsions
which may have the neuropathologically
Psychiatric
or encephalitis,
altered the central nervous system. The clinical characteristics of
all cases are shown in Table 1.
Table 1. Clinical
Characteristics Normal Case Norm.1 Case Norm.2 Case Norm.3 Mean SD
of Control
Age (years) 76
Sex
and Schizophrenic
Patients
Subjects.
PMI* (hours) 3
Cause of Death
M
Brain Weight(g) 1320
54
M
1440
8
Renal dysfunction
61
F
1360
18
Gallbladder cancer
63.7
1373
9.18
49.89
Schizophrenia
Age (years)
Sex
Brain Weight(g)
CaseSch.1
56
M
Stomach cancer
Duration of Illness (years)
PMI* (hours)
Cause of Death
1370
25
12
Pneumonia
7
Gastric ulcer
2
Acute heart failure
Case Sch.2
68
M
1290
31
Case Sch.3
56
F
1220
23
Case Sch.4
63
F
1100
30
2
Acute heart failure
Case Sch.5
43
M
1380
15
10
Pneumonia
Case Sch.6
63
M
1320
42
15
Bone cancer
Mean
5x.2
12h2
SD
8.28
96.00
*PMI: Postmortem interval
Also, all cases lacked neuropathological
changes associated with neurodegenerdtion
cerebral vascular disease, this was confirmed by several neuropathologists
like gliosis or/and
by microscopic
examination
of Bematoxylin Eosin stained or Kltiver-Barrera stained specimens. The bereaved families of all cases consented to this study. Procedure In all cases, autopsy were performed
as soon as possible after death. Brains were cut into small
412
S. Iritani et al.
blocks(5mm thick) for immersion fixation. Brains were fixed in the Zamboni solution(Zamboni Marino, 1967) for two nights(CC),
and De
then immersed in 20% sucrose-O. 1M Phosphate Buffer solution for
at least 3 days or more(4”C). Thirty micron-thick
sections were made of the fixed brain slices using a
freezing microtome or cryostat. Sections were collected, rinsed and stored in phosphate
buffered saline
(PBS), O.g%NaCl in 0.1M PB(pH 7.4), for at least 3 days and for up to two weeks prior to the next immunohistochemical
staining procedures.
Brain sections were rinsed in O.lM Tris-Cl buffered saline (TBS; pH 7.4, 0.9% NaCl), containing 0.3% Triton X-100 (TX) and 2% normal goat serum(NGS), sections
were incubated
1) in a commercially
(Sigma,; dilutions of l/1000-l/2000 medium containing temperature(45
biotinylated
min),and
available monoclonal
in 2% NGS-0.3% anti-rabbit
for 30-60 min. at room temperature. The
IgG (Vector:
then 3) in medium
anti-CalbindinD28K
TX-O. 1M THS solution), diluted l/100
containing
avidin-biotin
antibody
overnight (4°C) 2) in
in NGS-TX-TBS) peroxidase
at room
complex
[ABC
method(Hsu et al., 1981)] for 45 min. After each incubation step, the sections were rinsed in NGS-TXTBS solution.
Finally, the sections were rinsed in TBS twice for 10 min reacted with 0.05%,
diaminobenzine-HCl
in 0.05M Tris-Cl buffer (pH7.6)
3,3’
two or three times, and mounted onto gelatin
coated slides. After drying, the sections were dehydrated and coverslipped
with Permount,and
examined
with a light microscope. Control studies were conducted immunocytochemical
using the same immunostaining
labeling the diluted antiCalbindinD28K
pg/ml of Calcium-binding
procedure,
was preabsorbed
except that prior to with 10 pg/ml or 50
protein(Vitamin D-induced) (Sigma).
In case of normal human controls,
CaBp positive cells exhibited well ordered
run in a uniform direction in the CA2 area of the hippocampus.
ardyS
and their fibers
Positive cells in the CA2 area were
mostly pyramidal cells with nearly identical cell body size. Cells orientation was also nearly uniform. On the other hand, in all cases of schizophrenia,
CaBp-positive
neurons exhibited disoriented arrays. CaBp-
positive neurons were scarce and their shapes were not uniform compared to normal control neurons. The density of CaBp positive cells in the CA2 region of all schizophrenic than that of normal controls. Many of these cells in schizophrenic coinciding with their disarray, and their processes
cases was significantly
lower
brains had long or short processes
were orientated at random directions (Fig 1, Fig 2a,
Fig 2b).
In the prefrontal cortex (Brodmann III-IV
of three schizophrenic
area 9) of the schizophrenic
cases, CaBp-positive
cases were disarrayed compared to normal controls.
neurons in layer In normal control
cases, these positive cells were in well ordered arrays and their processes oriented perpendicular to the
CaBp containing
neurons
413
in schizophrenics
_
&Observed
Fig 1. Photomictogrqhs of the CA2 region of the hippocampal fotmrrt’on in u normal control(A) wrd II schizophrenia brain(B). Noted that CaBp positive cells were rare wld not unifktm in shqe itt schizophrenia brains, compared to he twrmal controls.(Bar=50 0 m) surface of the cortex. On the other hand, in the case of schizophrenia, arrayed
and their processes
schizophrenic
were
oriented
almost
completely
these positive cells were randomly randomly.
cases were running in somewhat arbitrary directions (Fig 3, Fiig 4).
Positive
fibcrs
in the
S. Iritani et al
414
7r
i
Fig 2a Camera&id of the CaBp positive products in the CA2 region of al! cases of the twrmul cotrtroi (Case Norm.1 -3; A-C). (Bar=50 LLm)
Discussion
s ln Schizo~
‘a
In this study, the authors investigated the morphological and fibers in the hippocampus with those of normal controls.
characteristics
and the prefrontal cortex of schizophrenic As shown
in Fig 2b, the positive
of CaBp-containing
neurons
hippocampus were less dense and more disarrayed than control specimens. accord with previous studies of the hippocampal formation of schizophrenics and Shatq1989;
Jeste and Lohr,1989).
distribution of CaBp-containing
neurons
patients and compared to them in the area CA2 of the
These findings are in good (Benes et al., 1991; Chun
Moreover, in this study, we also observed changes in neuronal
neurons.
to be involevcd in intercircuit neuronal
Cortical GABAergic neurons contain CaBp, which is thought connections
as a neuromodulater(Celio,
1990). The calcium-
binding proteins, CaBp, calretinin, and parvalbumin are present in separate subpopulations
of local
C&p containing
415
neurons in schizophrenics
D
F
J
Fig 2b. Cameralucid of the CaBppositiveproducts in the CA2 region of all cues of schizophrenia (Cue Sch. l-6; D-I). Noted that CaBp positive cell were less dense and their shapes were not uniform in schizophrenia cases compared to normal controls (A-C). Positive cells in the schizophrenia were sometimes disarrayed and had a long or short apical dendrite. Thepositive fibers were mndamly oriented compared to lwrmal controls.(Bar=_YOu m)
circuit neurons(CondC et a1.,1994), which together constitute 90% of GABAergic neurons(Gahbott Bacon, 1996). So, changes in CaBp-containing GABAergic neuronal dysfunction
neurons in schizophrenia
occurs in schizophrenic
brains(Benes
supports
et al., 1993).
the hypothesis
and that
416
S. Iritani ei al.
Fig 3. Photomicrograpks of luyer III-IV in tkeprefrontul cortex (Brodmrum ureu Y) of tlormd control(A) cold schizophrenia brains(B, C). Positive cells in the sckizophrerliu bruin sometime.s were di.surruyed or/and disoriented and distributed at rwtdom compured to rlormul control cuses. Normol ~mtrol.s were uniform itt their arrangemalts and orientationof theirfibers. (Bar = 100 :/ m) According to previous containing neurons
studies in the prefrontal
is significant
increased,
containing neuron densities (Tsung-Ung
cortex in schizophrenia,
the density of the CaBp-
but ollretinin (Daviss and L,ewis,lYY5) and parvalbumin-
Woo et al,.lYY7)are not different from normal controls. In this
CaBp containing
.
.
417
neurons in schizophrenics
>
J Fig 4. Cameralucid of lyer III-IV of the prefrontal cortex of r~~rmalcontrol(A), atul schizophrer~ic brains(Case Schl3;B, C, 0). Positive cells in schizophrenic brains were sometimes disarryed and distributed at random compared to normal control cases. Normal corltrol.~were ukform in their arrangements and orientationof their fibers. (Bar=100 11m) study, the density of CaBp-containing schizophrenia,
neurons was reduced in the CA2 region of the hippocampus
but not altered in the prefrontal cortex. Morphological
abnormalities
of
in CaBp positive
neurons and their fibers were observed in the prefrontal cortex. Some of the inconsistencies
between the previous studies and this study are probably the result of case
selection or small sample size. In any case, we believed that dysfunctional the hippocampal the reduction schizophrenia
of neurons.
GAE3Aergic neuron
dysfunction
The morphological
and may have several neuropathological
changes of CaBp-positive
without neuropathological
neurons in the hippocampus
findings such as neurodegeneration
this study might be the cause of the neurodevelopmental schizophrenia,
and these findings support the hypothesis
neurodevelopmental
abnormalities.
changes and/or
might be related to the symptoms
such as deterioration of cognition and/or learning. However, schizophrenia
syndrome of different etiologic backgrounds
schizophrenics
GABAergic neurons exist in
formation and the prefrontal cortex accompanied by the morphological
dysfunction
of
is considered a
features.
and prefrontal
cortex of
or gliosis of brain tissue in
of the central nervous system of
that the pathogenesis
of schizophrenia
is due to
418
S. Iritani et al.
tlons of CaBo m Psvchiatric Disease Calcium binding proteins may function as a buffer and participate in the transportation
of calcium ions
as well as regulate the function of enzymes within central nervous system neurons(Baimbridge Miller,1984;
Jande
et al.,
1981; Kijhr et al.,1991).
distributed in the central nervous protein sub-group,
system.
CaBp,
a calcium binding
The detailed physiological
function
protein,
and
is widely
of a calcium binding
the so-called EF-hand proteins, is unknown and the characteristic differences
among
the subclass of these proteins remains unclear. In previous biological studies of mental disorders,
it was reported that the concentration of calcium ion
in blood was altered in the patients with bipolar affective disorder, and calcium ion antagonists effective for the treatment of depression(Heizmann
and Braun, 1992). Also it was found that calcium
antagonist may be effective for the treatment of negative symptoms Changes in distribution
of CaBp have been reported
Nishiyama et al., 1993), Huntington Christakos,1990).
For example,
disease(Kiyama
may be
of schizophrenia
in Alzheimer’s
(Price,
disease(Ichimiya
lYX7).
et al., 1988;
et al., 199(J), and Parkinson disease(Iacopino
and
the number of CaBp positive neurons are reduced in the cortex of
Alzheimer patients as demonstrated
by immunocytochemical
ct al., 1988). These
techniques(Ichimiya
facts indicate that the pathology of calcium ion and/or calcium binding protein group arc rekited to mental disorders. poisons
CaBp has also been found to be involeved such
as
ischemia(Freund
h4TPT( l-metyl-4-phenyl-1,2,3,
et al., 1990), or convulsion
density of CaBp-containing
Gtetrahydropyridin)(
of neuron to neuronal
Lavoic
like a epileptic seizure(Sloviter
in GABAergic
neurons
of schizophrenia
Parcnt.1991).
shown in this stud)
and supports the hypothesis
is altered in schizophrenia.
hippocampal formation of schizophrenic
and
et al., 1YYl). The rcduccd
neurons in the hippocampal formation in schizophrenia
may be at least partly involved in the pathogenesis gene expression
with the vulnerability
brains may be more vulnerable than normal controls,
in the development
that
The neurons in area CA2 of the
vulnerability
may be involved
of schizophrenia.
Further
investigations
physiological
function of the EF-hand proteins like CaBp may be necdcd to understand
and this of the
ncuropsychiatric
diseases. Pharmacoloev
and Clinical Feature
The brains of patients used in this study had been subjected to long-term neuroleptic which may have altered the dynamism
of calcium ion movement,
calcium ion metabolism might change the expression
i.e., it is possible
of CaBp in neurons.
medication.
that changes in
All patients examined in this
study had been admitted to the psychiatric hospital for periods greater more than 15 years and presented severe negative symptoms
of schizophrenia,
group to a clinical medication. schizophrenic
so the patients in this study might represent
The results of this study may indicate the actual condition
patient group. Investigations
a resistant of only this
of the distribution of CaBp in other clinical types of patients
are needed. In any case, the present observations
suggest that both morphological
changes and alterations in the
CaBp containing neurotransmission
419
neurons in schizophrenics
mechanism exist in schizophrenia
The chemical-neuroandtomicaI
this study will hopefully be useful for discovering the etiology of schizophrenic
It is believed that CaBp immunoreactive interneurons
in the human of
schizophrenic
immunoreactivity
in the hippocampal
method. In the hippocampal
neurons mostly belong to a subpopulation
cerebral cortex.
pdthophysiology
GABAergic
disorder.
In
this
dysfunction study,
has been
the
authors
formation and neocortex of schizophrenic
formation of schizophrenia,
fibers of ared CA2 were altered in their arrangements. bodies had irregularly arrangements
approaches used in
disorder.
of GABAergic
implicated
in the
investigated
CaBp
brains using the ABC
some CaBp-immunopositive
cell bodies and
In the frontal cortex, some immunopositive
cell
of their axis and had disarrayed fibers. These observations
may
indicate GABAergic neuron dysfunction
in schizophrenic
disorder.
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Inquiries and reprint requests should be addressed to:
DrShuji
Iritani
Department of Psychiatry Tokyo Metropolitan Matsuzawa Hospital 2-l - 1 Kamikitazawa Setagayaku Tokyo 156-0057 JAPAN Tel +81-3-3303-7211,
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