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The effect of stress on the neuropathogenesis of Theiler's virus-induced demyelination as an animal model of multiple sclerosisMi, Wentao 30 October 2006 (has links)
Stressful life events have been associated with the onset and/or exacerbation of
multiple sclerosis (MS). To investigate the effects of stress on the pathogenesis of MS,
we employed restraint stress (RST) in the TheilerâÂÂs virus-induced demyelination
(TVID) model, an animal model for human MS. Intracerebral inoculation of
susceptible strain of mice with TheilerâÂÂs murine encephalomyelitis virus (TMEV)
results in a biphasic disease â an acute encephalomyelitis and chronic demyelination.
The establishment of persistent viral infection is critical in inducing immune-mediated
demyelination during the chronic disease. The exposure of mice to RST prior to viral
infection produced a stress response as evidenced by elevated circulating corticosterone
(CORT). To further study the effect of stress on the immune response to TMEV
infection and demyelination, we first examined the cytokine and chemokine response
during the acute TMEV infection. We demonstrated that RST down-regulated the
virus-induced expression of chemokines, Ltn, IP-10, RANTES, and pro-inflammatory
cytokines, TNF, IFN and LT in both the brain and spleen during early infection.
Histologically, a decreased pattern of inflammation was observed in the brain of
restrained mice as compared to non-restrained mice. The increased viral titer was noted in the CNS of restrained mice and was correlated with the decreased production
of pro-inflammatory cytokine, suggesting an impaired immune response by RST.
Secondly, the duration of stress on the late demyelination was investigated. Repeated
and chronically stressed SJL/J mice developed an early onset of clinical signs and a
delayed onset was observed in acutely stressed mice. Both acute and chronic RST
suppressed the antibody response to TMEV and stressed displayed a higher incidence
of demyelination than non-restrained mice. Axonal loss was also noted in chronic
stressed mice. Additionally, RST caused an increased systemic viral infection in
extraneural organs during the acute infection and cardiotropic TMEV was isolated
from the heart of stressed mice. Taken together, stress resulted in profound
immunsuppression during acute infection, which may consequently increase the
incidence of demyelination. The present study may be generalized in human MS
which is potentially triggered by viral infection.
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Theiler's virus-induced apoptosis in cerebrovascular endothelial cells.Nayak, Mamatha Somanath 30 September 2004 (has links)
Theiler's murine encephalomyelitis virus (TMEV) is classified as a Cardiovirus in the Picornaviridae family. An enteric virus, TMEV, spreads within the mouse population by the fecal-oral route. The neurovirulent GDVII strain of Theiler's virus causes a fatal encephalitis in all strains of mice following intra-cranial infection of the virus. Persistent BeAn strain of Theiler's virus causes a demyelinating disease in susceptible strains of mice, which is similar to the human disease - Multiple Sclerosis (MS). Although a well-recognized model for MS, the route of entry of the virus into the central nervous system (CNS) following natural infection has not been well understood. One of the proposed portals of entry includes the blood-brain barrier (BBB). This report indicates the ability of both the neurovirulent and the persistent strains of Theiler's virus to induce apoptosis in the functional units of the BBB - the cerebrovascular endothelial cells (CVE) both in vitro and in vivo. Induction of apoptosis in CVE was demonstrated by Annexin staining, electron microscopy, DNA fragmentation assay, Hoechst staining and by caspase-3 staining. Corresponding to results by other authors, GDVII is a stronger inducer of apoptosis in CVE compared to BeAn. Induction of apoptosis is dependent on the MOI of the virus. UV-inactivated virus is not capable of inducing apoptosis and induction of apoptosis appears to be an internal event not requiring activation of death receptors. Determining the pathway of induction of apoptosis by TMEV in CVE indicated the involvement of a Ca2+ dependent pathway for apoptosis - the calpain pathway. Involvement of calpain in apoptosis has been reported in MS. Induction of apoptosis in CVE in vivo was also demonstrated following the intra-peritoneal inoculation of Theiler's virus. Induction of apoptosis in CVE following Theiler' virus infection could lead to a breach of the BBB and entry of inflammatory cells as well as virus into the central nervous system. This finding could aid understanding the neuropathogenesis of Theiler's virus.
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Social Stress Sensitizes Theiler's Virus-induced Cytokine ExpresssionFrazier, Mallory Ann 2010 August 1900 (has links)
Our laboratory has previously shown that exposure to social disruption (SDR) the week prior to Theiler’s murine encephalomyelitis virus (TMEV) infection exacerbates disease course, resulting in increased infection-related sickness behaviors, motor impairment, CNS viral titers, and CNS inflammation. These adverse effects of SDR were prevented by ICV infusion of a neutralizing antibody to IL-6 during the stress exposure period. These findings suggest that stress-induced increases in IL-6 are necessary to exacerbate acute TMEV infection, but the exact mechanism remains unknown. This thesis tested the hypotheses that SDR up-regulates central cytokine expression, exacerbates TMEV infection through cross-sensitization of virus-induced cytokine expression, and that social rank modulates the effect of SDR.
In Experiment 1, Balb/cJ mice underwent the 0, 1, or 6 SDR sessions and were then sacrificed 0, 2, or 12 hours post SDR. Experiment 2 subjects received ICV infusions of either IL-6 neutralizing antibody or its vehicle before each of six 2 h SDR sessions or the control condition, the week prior to infection.
In Experiment 3 mice were tested for pre-existing social rank prior to SDR and infection. Results indicate that (1) SDR increases virus-induced IL-6, IL-1B, and CD11b mRNA expression in brain,that these SDR-induced increases and acute TMEV exacerbation are prevented by ICV infusion of the IL-6 neutralizing antibody during the stress exposure period, and that (2) social rank does not modulate affects of SDR but baseline anxiety does. These findings suggest that SDR exacerbates acute TMEV infection through cross-sensitization of virus-induced cytokine expression and that baseline anxiety is a significant modulator of SDR.
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The effects of psychological stress on an animal model of multiple sclerosis, Theiler's virus induced demyelinationSieve, Amy Nicole 17 February 2005 (has links)
Multiple Sclerosis (MS) is the most common demyelinating condition of
the central nervous system (CNS), resulting in paralysis and death. The etiology
of MS is unknown. However, genetics, exposure to a pathogen, psychological
stress and gender are all implicated in the onset and progression of the disease.
An animal model of MS, Theilers virus (TMEV) infection, causes a biphasic
disease. An early CNS viral infection, if allowed to persist within the CNS, is
followed by a chronic CNS autoimmune demyelinating condition that is similar
to MS. The development of Theilers Virus Induced Demyelination (TVID) is
under genetic control: SJL mice are highly susceptible to viral persistence and
TVID while CBA mice have an intermediate susceptibility. Chronic restraint
stress (RST) administered during the first four weeks of TMEV infection
influenced the subsequent development of TVID differentially across strain and
sex of mice. TVID was exacerbated by RST in male and female SJL mice, but in
the CBA strain, TVID was alleviated by RST in male mice only. This pattern of
results in SJL and CBA mice could be seen in the chronic phase of TVID on
multiple dependent measures: body weights, behavioral signs of the chronic
phase, rotarod performance (an automated measure of motor abilities), and
inflammation, demyelination, and axonal loss within the spinal cord. The
exacerbation of TVID in SJL mice provides some of the first experimental
evidence that coincides with reports of stress precipitating the onset of MS in
human patients. The sex dependent alleviation of TVID in CBA mice illustrates
the complex interaction between genetic predisposition, gender, stress, and
exposure to a pathogen that has been proposed for the development of MS.
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Theiler's virus-induced apoptosis in cerebrovascular endothelial cells.Nayak, Mamatha Somanath 30 September 2004 (has links)
Theiler's murine encephalomyelitis virus (TMEV) is classified as a Cardiovirus in the Picornaviridae family. An enteric virus, TMEV, spreads within the mouse population by the fecal-oral route. The neurovirulent GDVII strain of Theiler's virus causes a fatal encephalitis in all strains of mice following intra-cranial infection of the virus. Persistent BeAn strain of Theiler's virus causes a demyelinating disease in susceptible strains of mice, which is similar to the human disease - Multiple Sclerosis (MS). Although a well-recognized model for MS, the route of entry of the virus into the central nervous system (CNS) following natural infection has not been well understood. One of the proposed portals of entry includes the blood-brain barrier (BBB). This report indicates the ability of both the neurovirulent and the persistent strains of Theiler's virus to induce apoptosis in the functional units of the BBB - the cerebrovascular endothelial cells (CVE) both in vitro and in vivo. Induction of apoptosis in CVE was demonstrated by Annexin staining, electron microscopy, DNA fragmentation assay, Hoechst staining and by caspase-3 staining. Corresponding to results by other authors, GDVII is a stronger inducer of apoptosis in CVE compared to BeAn. Induction of apoptosis is dependent on the MOI of the virus. UV-inactivated virus is not capable of inducing apoptosis and induction of apoptosis appears to be an internal event not requiring activation of death receptors. Determining the pathway of induction of apoptosis by TMEV in CVE indicated the involvement of a Ca2+ dependent pathway for apoptosis - the calpain pathway. Involvement of calpain in apoptosis has been reported in MS. Induction of apoptosis in CVE in vivo was also demonstrated following the intra-peritoneal inoculation of Theiler's virus. Induction of apoptosis in CVE following Theiler' virus infection could lead to a breach of the BBB and entry of inflammatory cells as well as virus into the central nervous system. This finding could aid understanding the neuropathogenesis of Theiler's virus.
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Estrogen Therapy in a Viral Murine Model of Multiple SclerosisGomez, Francisco Pascual 2012 August 1900 (has links)
Multiple sclerosis (MS) is an idiopathic neurodegenerative, demyelinating disease of the central nervous system (CNS). MS affects females more than males (3:1) and pregnancy reduces the number of relapses especially during the third trimester when 17-beta-estradiol (E2) and estriol (E3) are at their highest levels. In order to study the role of estrogens as potential therapeutic agents for MS we investigated their role in Theiler's murine encephalomyelitis virus (TMEV)-induced demyelination (TVID).
SJL female mice were infected intracranially with Theiler's virus or PBS. The mice in the treatment groups were clinically scored and at week 20 they were ovarectomized (OVx) and given a subdermal pellet containing either 1) 0.1mg of E2, 2) 5mg of E3, or 3) placebo. Four weeks after treatment initiation, the mice were sacrificed and tissue samples were collected and vertebral columns and brains were fixed and placed in paraffin for histological analysis using either hematoxylin and eosin (H&E) stain for general anatomic features or Weil's stain for myelin.
No signs of clinical disease developed in any of the sham-infected mice. Prior to ovariectomy, infected mice had developed significant clinical scores indicative of demyelination. Mice in the placebo and E3-treatment groups deteriorated rapidly whereas the E2-treated mice improved significantly during the course of the treatment. Uteri were used to assess hormonal effects post-ovariectomy. Hormone treated groups were significantly different from placebo, indicating hormones were present. Hormone treatment showed significant differences among treatment groups for both inflammation and demyelination. E2-treatment significantly decreased inflammation compared to placebo and E3. E2 was also effective in reducing demyelination compared to placebo groups but not E3. E3 treatment was effective in reducing inflammation compared to placebo, but no significance was found for demyelination. Both E3 and E2 treated mice developed lower antibody levels against TMEV. The improvement in clinical signs, inflammation, demyelination, and the reduction of antibody levels in 17-beta-estradiol-treated mice indicate a therapeutic potential for the treatment of MS.
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The impact of social stress on acute Theiler's murine encephalitis virus infection.Johnson, Robin Ranee 30 September 2004 (has links)
Stress is known to alter immune function, both in positive and negative ways. The disparate effects of stress on immune function remains an active area of investigation. This thesis investigates how the application of social disruption stress either prior to or concurrent with infection alters the neuropathogenesis of Theiler's murine encephalitis virus. Experiment 1 verified that social disruption prior to infection exacerbated the course of infection. Experiment 2 examined application of social disruption concurrent with infection, and found that this may produce a delay in symptom onset, and possibly a protective effect. Experiment 3 directly compared the two schedules to each other. The previous findings were replicated and expanded with additional measures (both behavioral and physiological) that further verified the earlier findings. Social disruption applied prior to infection resulted in greater behavioral and physiological exacerbation of the disease. Concurrently applied stress remained protective or inhibitory in the disease progression. Timing of stress is one of several quantitative aspects of stress that has been found to impact the stress-immune interaction and should be further investigated.
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The Effects of Chronic Restraint Stress on Innate and Adaptive Immune Responses to Acute Theiler?s Murine Encephalomyelitis Virus Infection ? An Animal Model of Human Multiple SclerosisSteelman, Andrew Jonathan 15 May 2009 (has links)
Multiple sclerosis (MS) is an immune-mediated prevalent chronic demyelinating and neurodegenerative disease of the central nervous system that begins with an abrupt onset during early adulthood. MS is idiopathic, but many factors are thought to influence the pathogenesis of the disease, which include genetic, gender and environmental factors. To date, there is much evidence that suggest that both the onset and progression of MS is facilitated by both viral infections and stress. Theiler’s murine encephalomyelitis virus (TMEV) is a picornavirus that upon inoculation into susceptible strains of mice (i.e. SJL and CBA) causes a persistent infection which, in turn, results in an early acute encephalomyelitis followed by a late chronic immune-mediated demyelinating and neurodegenerative disease that pathologically resembles MS. In contrast, resistant mice (i.e C57BL/6 and BALB/c) are able to clear the virus from the CNS, and consequently do not develop chronic demyelination. Previous studies indicated that stress during early infection of susceptible mice can increase CNS viral titers and alter dissemination of TMEV, decrease early cytokine and chemokine expression in the spleen and CNS, and result in an exacerbated late demyelinating disease. The studies herein, focused on the hypothesis that chronic stress during early infection with TMEV infection would lead to drastic immunosuppression of both innate and adaptive arms of immunity, and that this immunosuppression may overcome the genetically controlled resistance of C57BL/6 mice to Theiler’s virus-induced demyelination. In these series of studies, we were able to show that stress, regardless of mouse strain susceptibility, decreases NK cell activity, and increased viral titers at day 1 p.i. Furthermore, after seven days of stress, susceptible mice demonstrated decreased virus specific T-cell effector function in both the CNS and spleens as indicated by a globalized reduction in type 1 and type 2 cytokines, as well as transcription factors. Importantly, these decreased responses were, in part, attributable to the actions of glucocorticoids. However, stress during early infection of C57BL/6 mice did not alter resistance to demyelination. These results begin to shed light on how stress, infection, and genetics can influence the onset of human MS.
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The Effects of Chronic Restraint Stress on Innate and Adaptive Immune Responses to Acute Theiler?s Murine Encephalomyelitis Virus Infection ? An Animal Model of Human Multiple SclerosisSteelman, Andrew Jonathan 15 May 2009 (has links)
Multiple sclerosis (MS) is an immune-mediated prevalent chronic demyelinating and neurodegenerative disease of the central nervous system that begins with an abrupt onset during early adulthood. MS is idiopathic, but many factors are thought to influence the pathogenesis of the disease, which include genetic, gender and environmental factors. To date, there is much evidence that suggest that both the onset and progression of MS is facilitated by both viral infections and stress. Theiler’s murine encephalomyelitis virus (TMEV) is a picornavirus that upon inoculation into susceptible strains of mice (i.e. SJL and CBA) causes a persistent infection which, in turn, results in an early acute encephalomyelitis followed by a late chronic immune-mediated demyelinating and neurodegenerative disease that pathologically resembles MS. In contrast, resistant mice (i.e C57BL/6 and BALB/c) are able to clear the virus from the CNS, and consequently do not develop chronic demyelination. Previous studies indicated that stress during early infection of susceptible mice can increase CNS viral titers and alter dissemination of TMEV, decrease early cytokine and chemokine expression in the spleen and CNS, and result in an exacerbated late demyelinating disease. The studies herein, focused on the hypothesis that chronic stress during early infection with TMEV infection would lead to drastic immunosuppression of both innate and adaptive arms of immunity, and that this immunosuppression may overcome the genetically controlled resistance of C57BL/6 mice to Theiler’s virus-induced demyelination. In these series of studies, we were able to show that stress, regardless of mouse strain susceptibility, decreases NK cell activity, and increased viral titers at day 1 p.i. Furthermore, after seven days of stress, susceptible mice demonstrated decreased virus specific T-cell effector function in both the CNS and spleens as indicated by a globalized reduction in type 1 and type 2 cytokines, as well as transcription factors. Importantly, these decreased responses were, in part, attributable to the actions of glucocorticoids. However, stress during early infection of C57BL/6 mice did not alter resistance to demyelination. These results begin to shed light on how stress, infection, and genetics can influence the onset of human MS.
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The Impact of Social Stress on Central Nervous System Inflammation and T Cell Response to Theiler’s Virus InfectionVichaya, Elisabeth Good 2011 May 1900 (has links)
A
growing
body
of
evidence
suggests
that
social
stress
contributes
to
the
pathogenesis
of
neurodegenerative
diseases,
such
as
multiple
sclerosis
(MS).
For
example,
prior
research
has
shown
that
social
disruption
(SDR)
stress
behaviorally
and
immunologically
exacerbates
Theiler’s
murine
encephalomyelitis
virus
(TMEV)
infection.
TMEV
infection
results
in
acute
infection
of
the
central
nervous
system
(CNS)
followed
by
a
chronic
demyelinating
autoimmune
disease,
similar
to
that
seen
in
MS.
Research
suggests
that
social
stress
exerts
these
effects
by
altering
the
immune
response
to
infection.
More
specifically,
it
is
hypothesized
that
SDR
sensitizes
the
acute
inflammatory
response
to
infection
and
suppresses
T
cell
effector
function
in
the
acute
phase
of
disease.
It
was
demonstrated
that
SDR
is
sufficient
to
alter
inflammation.
Exposure
to
a
single
session
of
SDR
increases
IL-‐1β
mRNA
expression;
however,
IL-‐6
mRNA
expression,
but
not
IL-‐1β,
is
up
regulated
in
response
to
chronic
SDR.
Furthermore,
chronic
SDR
prior
to
infection
resulted
in
increased
infection
related
central
IL-‐6
and
IL-‐1β
mRNA
expression,
and
central administration
of
IL-‐6
neutralizing
antibody
during
SDR
reverses
this
increase
in
neuroinflammation.
This
suggests
that
SDR
sensitizes
infection
related
CNS
inflammation
through
an
up-‐regulation
of
IL-‐6.
Chronic
SDR
prior
to
infection
also
resulted
in
enhanced
CNS
viral
titers
and
suppression
of
virus-‐induced
CD4
and
CD8
T
cell
IFN-‐γ
release
within
the
CNS.
As
a
whole,
this
research
indicates
that
SDR
exacerbates
the
disease
course
of
TMEV
infection
by
altering
the
central
innate
and
adaptive
immune
response
to
infection.
This
research
enhances
our
understanding
of
the
mechanisms
by
which
social
stress
exacerbates
neurodegenerative
disease
pathogenesis.
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