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Current
Neurovascular Research
ISSN: 1567-2026
Current Neurovascular Research
Volume 5, Number 1, February 2008
Contents
ORIGINAL ARTICLES
Repeated Restraint and Nerve Growth Factor Administration
in Male and Female Mice: Effect on Sympathetic and Cardiovascular
Mediators of the Stress Response Pp. 1-12
L. Manni, V. Di Fausto, M. Fiore and L. Aloe
[Abstract]
Angelica Injection Reduces Cognitive Impairment
during Chronic Cerebral Hypoperfusion through Brain-Derived
Neurotrophic Factor and Nerve Growth Factor Pp. 13-20
P. Zheng, J. Zhang, H. Liu, X. Xu and X. Zhang
[Abstract]
Transient Disruption of Fear-Related Memory by
Post Retrieval Inactivation of Gastrin-Releasing Peptide or
N Methyl-D-Aspartate Receptors in the Hippocampus
Pp. 21-27
T. Luft, O.B. Amaral, G. Schwartsmann and R. Roesler
[Abstract]
Chronic Cerebral Hypoperfusion Protects Against
Acute Focal Ischemia, Improves Motor Function, and Results
in Vascular Remodeling Pp. 28-36
S.H. Kim, E.H. Kim, B.I. Lee and J.H. Heo
[Abstract]
Nifedipine Inhibits the Progression of An Experimentally
Induced Cerebral Aneurysm in Rats with Associated Down-Regulation
of NF-Kappa B Transcriptional Activity Pp. 37-45
T. Aoki, H. Kataoka, R. Ishibashi, K. Nozaki and N. Hashimoto
[Abstract]
Effects of Melatonin on Ischemic Spinal Cord
Injury Caused by Aortic Cross Clamping in Rabbits
Pp. 46-51
A. Korkmaz, E.Ö. Oyar, Ö. Kardes and S. Ömeroglu
[Abstract]
Prolonged Reversal of Long-term Potentiation
that is N methyl-D-aspartate Receptor Independent: Implications
for Memory Formation Pp. 52-59
N-N. Shi, M-L. Jiang, L. Zhang and T-Z. Han
[Abstract]
REVIEW ARTICLES
Under the Microscope: Focus on Chlamydia pneumoniae
Infection and Multiple Sclerosis Pp. 60-70
E. Fainardi, M. Castellazzi, S. Seraceni, E. Granieri
and C. Contini
[Abstract]
Blood Brain Barrier in Hypoxic-Ischemic Conditions
Pp. 71-81
C. Kaur and E.A. Ling
[Abstract]
Abstracts
[Back to top]
Repeated Restraint and Nerve Growth Factor
Administration in Male and Female Mice: Effect on Sympathetic
and Cardiovascular Mediators of the Stress Response
L. Manni, V. Di Fausto, M. Fiore and L. Aloe
Chronic stress and increased sympathetic nerve activity
have been associated with cardiovascular disorders such as
hypertension, myocardial infarction and stroke. The aim of
this study was to investigate the role of nerve growth factor
(NGF) on the expression of tyrosine hydroxylase (TH), vascular-endothelial
growth factor (VEGF) and leptin receptor (OB-R) in brain,
adrenal and cardiovascular tissues of adult male and female
mice following a chronic stress procedure.
It was found that daily restraint for 10 consecutive days
alters TH levels in hypothalamic and brainstem areas related
to sympathetic activation, in both male and female mice. Chronic
stress procedure also modifies heart and aorta VEGF levels
in male mice, and adrenal glands TH in female mice. The NGF
administration in stressed mice reverted the stress-induced
up-regulation of TH levels in male and female mice hypothalamic
nuclei and in male locus coeruleus. Administration of NGF
in stressed animals also down-regulated OB-R levels in the
hypothalamus of both male and female mice and in the female
aorta.
Our findings indicate that repeated restraint in mice has
an effect on TH and VEGF protein content at different brain
and peripheral sites involved in the sympathetic and cardio-vascular
response to stressful stimuli. NGF administration is able
to counteract some of these stress-induced changes. Since
NGF is known to be up-regulated during stress, a possible
functional significance of our observations is that the circulating
NGF released during and following stress may serve to prevent
possible deficits and/or damage linked to stress-induced sympathetic
and cardiovascular activation.
[Back to top]
Angelica Injection Reduces Cognitive Impairment during Chronic
Cerebral Hypoperfusion through Brain-Derived Neurotrophic
Factor and Nerve Growth Factor
P. Zheng, J. Zhang, H. Liu, X. Xu and X. Zhang
The current study investigated whether chronic cerebral
hypoperfusion produced by permanent bilateral common carotid
artery occlusion (2-vessel occlusion (2-VO)) induced cognitive
impairment and whether angelica injections alleviated the
impairment. Furthermore, the study examined whether 2-VO altered
the expression patterns of brain-derived neurotrophic factor
(BDNF) and nerve growth factor (NGF) in the hippocampus of
rats and whether angelica injections attenuated the alteration.
Rats were divided into four groups to receive either 2-VO
surgery or sham surgery followed by either angelica injections
or saline injections for eight weeks. Spatial learning in
Morris water maze and the expression patterns of BDNF and
NGF in the hippocampus of all rats were examined. The results
showed that 2-VO significantly impaired spatial learning and
memory, and angelica injections significantly reversed the
learning and memory impairment. Furthermore, 2-VO resulted
in significantly decreased BDNF protein, NGF protein, and
NGF mRNA expression in the hippocampus. Angelica injections
significantly attenuated the decreased expression. Moreover,
spatial learning in Morris water maze was positively correlated
to the expression of BDNF and NGF in the hippocampus. Thus,
angelica injections might alleviate cognitive impairment during
chronic cerebral hypoperfusion through BDNF and NGF.
[Back to top]
Transient Disruption of Fear-Related Memory by Post Retrieval
Inactivation of Gastrin-Releasing Peptide or N Methyl-D-Aspartate
Receptors in the Hippocampus
T. Luft, O.B. Amaral, G. Schwartsmann and R. Roesler
Molecular accounts of memory consolidation suggest that
new learning generates persistent synaptic modifications through
activation of an extensive set of neuronal receptors and intracellular
signal transduction pathways, accompanied by RNA and protein
synthesis. This traditional cellular consolidation theory
has been challenged by evidence that reactivation of a previously
consolidated memory might render this memory again susceptible
to disruption by amnesic treatments, a process generally referred
to as reconsolidation. Current evidence indicates that reconsolidation
can be disrupted by administration of a variety of pharmacological
agents after memory reactivation. Previous studies have indicated
that the gastrin-releasing preferring type of bombesin receptor
(GRPR) and the N-methyl-D-aspartate glutamate receptor
(NMDAR) in the rat hippocampus are involved in consolidation
of inhibitory avoidance (IA), a fear-related memory task.
We show here that blockade of hippocampal GRPRs or NMDARs
after memory reactivation temporarily disrupts memory retention.
Post-retrieval intra-hippocampal infusion of the GRPR antagonist
RC-3095 or the NMDAR antagonist aminophosphonopentanoic acid
(AP5) produced an impairment of IA performance tested 2 days
after training in rats. However, this impairment was transient
and recovered to levels of control rats in a subsequent test
3 days after training. The drug effects were only present
after memory reactivation and not in its absence. These findings
provide evidence that GRPR or NMDAR inactivation after retrieval
can impair fear memory.
[Back to top]
Chronic Cerebral Hypoperfusion Protects Against Acut Focal
Ischemia, Improves Motor Function, and Results in Vascular
Remodeling
S.H. Kim, E.H. Kim, B.I. Lee and J.H. Heo
Atherosclerosis may cause severe stenosis of the arteries
supplying the brain, which induces chronic cerebral hypoperfusion.
Although an infarction often occurs in this area, it is uncertain
how brain vessels respond to the chronic hypoperfusion or
how the vascular responses are related to stroke severity
when the area has been subjected to severe ischemia. To address
these uncertainties, we induced chronic cerebral hypoperfusion
in Sprague-Dawley rats with a bilateral common carotid artery
ligation (BCAL). A middle cerebral artery occlusion/reperfusion
(MCAO/R) was introduced with a nylon suture four weeks after
either BCAL (BCAL-MCAO) or a sham operation (Sham-MCAO). Motor
disability scores and infarct sizes, based on 2,3,5-triphenyltetrazolium
chloride staining, were significantly reduced with BCAL-MCAO
treatment compared with sham-MCAO treatment (P<0.01).
The diameters of the posterior cerebral, posterior communicating,
and basilar arteries on the brain surface were larger and
more tortuous in BCAL-treated rats (P<0.01). The
density of large capillary- and arteriole-sized vessels in
the brain parenchyma also increased in BCAL-treated rats (P<0.05).
Strokes were less severe when the vicinity subjected to infarction
was preconditioned with chronic cerebral hypoperfusion. Increasing
the vascular reserve with adaptive vascular remodeling may
have contributed to this response.
[Back to top]
Nifedipine Inhibits the Progression of An Experimentally Induced
Cerebral Aneurysm in Rats with Associated Down-Regulation
of NF-Kappa B Transcriptional Activity
T. Aoki, H. Kataoka, R. Ishibashi, K. Nozaki and N. Hashimoto
Cerebral aneurysm (CA) causes a life-threatening subarachnoid
hemorrhage. However, no effective medical treatment to prevent
the growth of CA is available. Nifedipine, a widely used calcium
antagonist, was shown to improve endothelial function in various
cardiovascular diseases. We examined whether nifedipine has
a protective effect on CA progression. CAs were experimentally
induced in Sprague-Dawley rats followed by intraperitoneal
injection of either 10mg/kg of nifedipine per day or vehicle.
The size and media thickness of CAs were measured one month
after aneurysm induction. NF-kappa B (NF-κ
B) activity in aneurysmal walls was assessed by immunohistochemistry
for activated NF-κ
B p65 subunit and electrophoretic mobility shift assay (EMSA).
Expression of monocyte chomoattractant protein-1 (MCP-1) and
matrix metalloproteinase (MMP) -2 in aneurysmal walls was
examined by RT-PCR and immunohistochemistry. To examine whether
nifedipine has a suppressive effect on preexisting CAs, nifedipine
administration started at one month after aneurysm induction
and pathological changes were assessed at two months after
aneurysm induction. Aneurysm size was smaller and the media
was thicker in the nifedipine-treated group even though blood
pressure was not different between groups. Nifedipine inhibited
DNA binding of NF-κ
B in aneurysmal walls. As regards MCP-1 expression and macrophage,
which is the main inflammatory cell in the aneurysmal walls,
infiltration into aneurysmal walls was decreased by nifedipine.
Immunohistochemistry and gelatin zymography showed that the
expression and activity of MMP-2 was also reduced by nifedipine.
Furthermore, nifedipine significantly prevented the enlargement
and degeneration of aneurysmal walls of preexisting CAs. Nifedipine
may be useful as a medical drug for patients with CAs.
[Back to top]
Effects of Melatonin on Ischemic Spinal Cord Injury Caused
by Aortic Cross Clamping in Rabbits
A. Korkmaz, E.Ö. Oyar, Ö. Kardes and S. Ömeroglu
Spinal cord injury remains a devastating complication
of thoracic and thoracoabdominal aortic operations. We aimed
to investigate neuro-protective role of melatonin administered
to rabbits before ischemia against ischemia-reperfusion (IR)
injury.
Occlusion of the abdominal aorta was applied to adult rabbits,
followed by removal of aortic clamp and reperfusion. The abdominal
aortas of New Zealand White albino rabbits (n = 18) were occluded
for 30 minutes. Experimental groups were as follows: control
group (sham operation group, n =10), Ischemia/reperfusion
group (I/R) (n = 10) undergoing occlusion but receiving no
pharmacologic intervention, Melatonin-treated group (n = 8)
receiving 10mg/kg melatonin intravenously 10 minutes before
ischemia. Neurologic status was assessed at 6, 24, and 48
hours after the operation. Spinal cords were harvested for
histopathologic and biochemical analyses. Melatonin-treated
animals had better neurologic function than those of the I/R
group. Decreased tissue and serum malondialdehyde (MDA) levels
and increased tissue and serum glutathione (GSH) levels were
observed in melatonin-treated group (p<0.05). In the same
group tissue and serum nitrate levels were decreased (p<0.05).
Histopathologic analyses demonstrated typical morphologic
changes characteristic of necrosis in I/R group. Melatonin
attenuated ischemia-induced necrosis. Melatonin administration
may significantly reduce the incidence of spinal cord injury
following temporary aortic occlusion.
[Back to top]
Prolonged Reversal of Long-term Potentiation that is N methyl-D-aspartate
Receptor Independent: Implications for Memory Formation
N-N. Shi, M-L. Jiang, L. Zhang and T-Z. Hanm
Reversal of long-term potentiation (LTP) by low-frequency
stimulation (LFS) is often referred to as depotentiation (DP),
a phenomenon that is time-dependent. The present study aimed
to determine whether LTP could still be reversed when the
stimulation was applied beyond the optimal time window in
hippocampal slices from adult rats. Field excitatory postsynaptic
potentials (fEPSPs) were recorded from the strata radiatum
in CA1, following stimulation of Schaffer collaterals. Theta-burst
stimulation (TBS) induced LTP that could be reversed by repeated
paired-pulse LFS (PP-LFS) after almost 3 h post-TBS. Only
when synapse strength reached a plateau did application of
PP-LFS trigger DP. In addition, it was surprising to observe
that PP-LFS, which generally induces LTD in adult rats, evoked
an LTP-like further strengthening in previously potentiationed
synapses, even in the presence of APV, a competitive antagonist
of N-methyl-D-aspartate receptors (NMDA-Rs). Our results suggest
that LTP can be reversed NMDAR-independently more than 2 h
after TBS by PP-LFS in adult hippocampus and that saturation
of LTP is effective to promote this process.
[Back to top]
Under the Microscope: Focus on Chlamydia pneumoniae
Infection and Multiple Sclerosis
E. Fainardi, M. Castellazzi, S. Seraceni, E. Granieri
and C. Contini
Multiple Sclerosis (MS) is a chronic inflammatory demyelinating
disease of the Central Nervous System (CNS) of supposed autoimmune
origin whose etiology still remains unknown. Epidemiological
studies suggest that MS pathogenesis could be related to an
infection superimposed on a predisposing genetic background.
However, at present, no direct evidence for an infectious
implication in MS autoimmunity exists. Recently, the potential
role of Chlamydia pneumoniae as a causative agent
of MS has received increasing attention. After the initial
high rates reported for molecular and culture demonstration
of C. pneumoniae in cerebrospinal fluid (CSF) of
MS patients, the association between C. pneumoniae
and MS was intensively investigated with controversial results.
Seroepidemiological reports did not show any strong association
between C. pneumoniae infection and the risk of MS.
Isolation techniques failed to detect C. pneumoniae
in CSF and brain tissue of MS patients. Polymerase chain reaction
(PCR) evidence of C. pneumoniae in CSF and intrathecal
synthesis of anti-C. pneumoniae IgG have been undetectable
in MS patients or, if present, were not selectively associated
with MS, but were shared by several inflammatory neurological
conditions. Nevertheless, in a subgroup of MS patients, an
association between PCR positivity for C. pneumoniae
in CSF and disease activity was found. Intrathecal production
of anti-C. pneumoniae high-affinity IgG predominated
in MS progressive forms and metabolically active C. pneumoniae
was identified in CSF. C. pneumoniae was recognized
in CSF and brain tissue at immunohistochemical, molecular
and ultrastructural levels. C. pneumoniae was also
able to induce the animal model of MS. This growing body of
data does not support a central role for C. pneumoniae
as a candidate in MS pathogenesis, but suggests that, in a
subset of MS patients, C. pneumoniae could induce
a chronic persistent brain infection acting as a cofactor
in the development of the disease. Thus, the actual involvement
of C. pneumoniae in MS still remains to be elucidated.
[Back to top]
Blood Brain Barrier in Hypoxic-Ischemic Conditions
C. Kaur and E.A. Ling
The blood brain barrier (BBB) plays an important role
in the homeostatic regulation of the brain microenvironment
and maintains the immune-privileged status of the brain by
restricting the entry of T lymphocytes. Structurally, the
BBB is formed by tight junctions between the endothelial cells.
Astrocytes, pericytes and perivascular microglia surround
the endothelial cells contributing to proper functioning of
the BBB. Hypoxia, associated with disorders such as stroke,
cardiac arrest, respiratory distress, carbon monoxide poisoning
among many others, disrupts the BBB. Alterations in the endothelial
cells such as increased pinocytotic vesicles and derangement
of the tight junction proteins may be responsible for increased
permeability at the BBB resulting in swelling of astrocyte
end feet. The disruption of BBB in hypoxic conditions is multifactorial
and may involve factors such as enhanced production of vascular
endothelial growth factor (VEGF), nitric oxide (NO) and inflammatory
cytokines. Although future research is needed to look into
possible therapeutic strategies to improve the functioning
of BBB in hypoxic conditions, experimental studies so far
have reported beneficial effect of curcumin, melatonin, simvastatin
and minocycline in ameliorating the increased BBB permeability
in hypoxic conditions.
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