Role of stress and ameliorative effects of resveratrol on pathophysiological changes associated with experimental Brucella melitensis infection in non-pregnant boer does
Brucellosis is one of the most common zoonosis in the world. Information on the role of stress on the pathogenesis and/or immuno-pathology of this zoonotic disease is limited. This study investigated the shedding routes and pattern, serological responses, oxidative status and immuno-pathological...
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| Format: | Thesis |
| Language: | English |
| Published: |
2016
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| Online Access: | http://psasir.upm.edu.my/id/eprint/65967/1/FPV%202016%2019%20IR.pdf http://psasir.upm.edu.my/id/eprint/65967/ |
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| Summary: | Brucellosis is one of the most common zoonosis in the world. Information on the
role of stress on the pathogenesis and/or immuno-pathology of this zoonotic
disease is limited. This study investigated the shedding routes and pattern,
serological responses, oxidative status and immuno-pathological derangements
associated with Brucella melitensis infection in non-pregnant does subjected to
road transportation-induced stress and dexamethasone-induced stress. The study
involved four phases of experiments, which included road transportation (phase 1),
road transportation with B. melitens is inoculation (phase 2), dexamethasone
treatment withB. melitensis inoculation (phase 3) and B. melitensis inoculation with
dexamethasone administrationand resveratrol treatment (phase 4).
In phase 1, 35apparently healthy Boer does, aged 2 - 3, weighing 20 - 25 kg were
randomly divided into two groups designated A and B of 30 and 5 animals
respectively. Group A was transported for 7 h at 50 km/h, while group B was not
subjected to transportation stress and served as control. Blood samples were
collected at regular intervals (before transportation, 3.5 h on transit, immediately
after transportation, days 3, 7, 16 and day 26) for assaying oxidative stress
alongside haematological parameters.
In phase 2, two set of experiments were conducted with 18 non-pregnant does each.
In both 1st and the 2ndexperiments of phase 2, the goats were randomly divided into
groups A, B and C of 6 goats each. In the 1st experiment, group A was transported
on a road for about 3 h at 70 km/h prior to being inoculated with 107 CFU of B.
melitensisocularly while group B was not transported but inoculated with similar
dose of B. melitensis as in A above as positive control and group C was negative
control. However, in the 2nd experiment, similar dose of B. melitensis was ocularly inoculated 30 minutes prior to road transportation while groups B and C wereused
as positive and negative controls as in the 1st experiment.
In phase 3, two sets of experiments were also conducted with 18 non-pregnant does
in each of the experiment.The goats were similarly divided into 3 groups, A, B and
Cin each of the experiment.In the 1st experiment, group A wasadminstered
dexamethasone at 2 mg/kg for 7 days prior tobeing inoculated with 107 CFU of B.
melitensis ocularly while group B was not administered with dexamethasone but
inoculated ocularly with similar dose of B. melitensis as in A above and group C
was inoculated with normal saline as negative control. In the 2nd experiment, the
group A was inoculated ocularly with similar doses of B. melitensisas in 1st
experiment above 30 minutes prior to dexamethasone adminstration. Group B was
not adminstered dexamethasone but inoculated ocularly with similar dose of B.
melitensis as in A above while group C was inoculated normal saline as negative
control.
In phase 4, 12 non-pregnant goats were randomly divided into 4 groups A, B, C
and D of 3 animals each. Groups A and B were inoculated ocularly with 107 CFU
of B. melitensis 3 weeks prior to 7 days administration of dexamethasone (2
mg/kg). Groups A wasn furthertreated with resveratrol for 5 days from week 4 post
B. melitensis inoculation. Group C was not treated but inoculated with similar dose
of B. melitensis ocularly as positive controlwhile group D was inoculated normal
saline as negative control.
In phases 2, 3 and 4, blood, nasal, ocular and vaginal swabs were collected at
regular intervals for PCR, serological (RBPT and iELISA) and oxidative stress
analysis. Three animals from each group were sacrificed at days 21 and 42 post
inoculation (pi) in phases 2 and 3. However, the does in phase 4 were only
sacrificed at day 42 pi. Selected tissues were collected for bacterial detection,
immunohistochemistry and histopathological examination and cellular changes
were scored and analysed.
In this study, 7 hours of road transportation induced significant haematological
derangement and oxidative stress. The significant haematological derrangements
included neutrophilia and increase in neutrophil/lymphocyte ratio. Stress
biomarkers such as MDA were found to be elevated while SOD and GSH were
found to decrease consequential to 7 hour road transportation. In both phases 2 and
3, groups A shed the bacterium significantly (P< 0.05) higher compared togroup B.
However, the shedding was highest in the 1stexperiment of phase 3. Both transportinduced
(phase 2) and dexamethasone-induced stress (phase 3) were observed to
significantly prolong the period and rate of shedding. While dexamethasone
administration from day 21 post inoculation was noted to stimulate increase in the
duration and rate of shedding, treatment with resveratrol significantly reduced
shedding duration and rate. Dexamethasone administration was observed to induce
oxidative stress which correlated with the intensified pathologies. The uterus and vagina of both groups A and B in phase 2 and 3 revealed mild
infiltration of inflammatory cells and microgranuloma while extensive necrosis
were observed in the lymph nodes, predominantly the mandibular and pre-scapular
lymph nodes. In both phases 2 and 3, necrosis, periportal lymphocytic infiltration,
microgranuloma and congestion were observed predominantly in group A at day 21
pi. Lesion score showed group A was significantly different (P< 0.05) compared to
groups B and C in both phases 2 and 3. Mild to moderate immunostaining in the
liver, kidneys and lungs and in red and white splenic pulps predominantly at day 21
pi in phase 2,while moderate to strong immunostaining was observed in group A in
phase 3. Scoring of the immunostaining revealed significant difference between the
groups in phases 2 and 3 experiments, with the highest significance observed phase
3. While dexamethasone administration from day 21 pi was also shown to increase
the rate of immunoreactivity, treatment with resveratrol from day 28 pi was
observed to induce a decline in immunostaining intensity and histopathological
changes.
This study demonstrated that road transportation stress and dexamethasone-induced
stress, prolonged bacterial shedding, with the peak period of shedding between day
10 and day 14 pi. While B. melitensis infection produced no significant
pathological alterations in the reproductive organs, significant pathological
alterations were observed in liver, lungs and the kidneys. Although pathological
lesions such as microgranuloma, periportal lymphocytic infiltration and necrosis in
the liver and lungs are not pathognomonic to Brucella infection, these lesions were
consistently observed in this study and it was therefore proposed that they should
not be excluded in the differential diagnosis, should these lesions be
observed.Treatment with resveratrol following dexamethasone administration was
seen to significantly ameliorate damage induced by dexamethasone administration.
This perhaps shows the usefulness of antioxidants in mitigating the effects of stress
as well as improving the health of farm animals. |
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