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Interactions of neurons, astrocytes and microglia with HUCB cell populations in stroke models : migration, neuroprotection and inflammation /Jiang, Lixian. January 2008 (has links)
Dissertation (Ph.D.)--University of South Florida, 2008. / Includes vita. Includes bibliographical references. Also available online.
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Fumonisin toxicity in ducks and turkeys / Toxicité de la fumonisine chez les canard et les dindesBenlashehr, Imad 18 December 2013 (has links)
Les fumonisines (FBs) sont les principales mycotoxines produites par Fusarium verticillioides et Fusarium proliferatum, qui se retrouvent partout dans le monde dans le maïs et ses produits dérivés. Les doses toxiques et les signes cliniques de toxicité provoqués par les FBs varient dune espèce à lautre. La toxicité des FBs est généralement liée à leur capacité à bloquer le métabolisme des sphingolipides chez les espèces animales, y compris chez les espèces aviaires. De précédentes études ont démontré que les canards présentent une plus grande sensibilité à la toxicité des FBs que les dindes, alors que laccumulation de sphinganine (Sa) dans les tissues est plus importante chez les dindes que chez les canards. Lobjectif de nos travaux était de comprendre les différences de toxicité entre les dindes et les canards los dune exposition aux FBs. Les trois hypothèses suivantes ont été explorées : i) La toxicocinétique de la fumonisine B2 chez les dindes et les canards. ii) La capacité des cellules aviaires à se protéger de limportante accumulation de sphingolipides libres en augmentant leur catabolisme (phosphorylation). iii) Des mécanismes de toxicité des FBs autre que leur altération via le métabolisme des sphingolipides (stress oxydatif et les réponses inflammatoires). Lanalyse des paramètres de toxicocinétique de la fumonisine B2 na pas mis en évidence de différence significative entre les dindes et les canards. Les mesures de la toxicité simultanée de plusieurs FBs chez les dindes et les canards ont confirmé la forte sensibilité des canards. Laccumulation de shingasine-1-phosphate (Sa1P) dans le foie a également été corrélée avec la quantité de Sa mais pas avec les paramètres hépatiques de toxicité. De plus cette étude a mis en évidence que la quantité de Sa dans le foie était fortement dépendante de la teneur en FBs. Cependant les FBs nont eu aucun effet sur les paramètres de stress oxydatif pour les deux espèces. De manière intéressante, les FBs ont eu une légère réponse inflammatoire chez les canards mais pas chez les dindes. Des investigations plus poussées sur les effets des FBs sur le métabolisme des céramides et sur les processus inflammatoires seraient nécessaires pour comprendre les différences de toxicité entre les dindes et les canards exposés aux FBs. / Fumonisins (FBs) are the major mycotoxins produced by Fusarium verticillioides and Fusarium proliferatum, which are found worldwide in maize and maize products. FBs toxic dose and clinical signs of toxicity vary from one species to another. FBs toxicity is commonly linked to their ability on blocking sphingolipids metabolism in all animal species, including avian species. Previous studies have demonstrated that ducks exhibit higher sensitivity to FBs toxicity than turkeys, whereas, the accumulation of sphinganine (Sa) in tissues is more pronounced in turkeys than in ducks. The objectives of our works were to investigate the causes which lead to different toxicity between ducks and turkeys to FBs exposure. The following three hypotheses were investigated: i) Toxicokinetics of fumonisin B2 in ducks and turkeys. ii) Ability of bird cells to protect themselves against high accumulation of free sphingolipids by increasing their catabolism (phosphorylation). iii) Other toxicity mechanisms of FBs rather than their alteration of sphingolipids metabolism (oxidative stress damage and inflammatory responses). The analysis of toxicokinetic parameters of fumonisin B2 did not provide a significant difference between ducks and turkeys. The measurement of simultaneous toxicity of FBs in ducks and turkeys confirmed higher sensibility of ducks. Also the accumulation of Sphingasine-1-Phosphate (Sa1P) in the liver correlated with the amount of Sa but not parameters of hepatic toxicity. Moreover, this study revealed that the amount of Sa in the liver was strongly dependent on the amount of FBs. On the other hand, FBs had no effect on oxidative damages parameters in both species. Interestingly, FBs had mild inflammatory response effect in ducks but not in turkeys. Further investigation on the effects of FBs on ceramide metabolism and inflammatory processes would be necessary to understand the different toxicity between ducks and turkeys to FBs exposure.
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Effects of kolaviron–a Garcinia kola biflavonoid on biochemical and histological parameters in streptozotocin - induced diabetes and diabetic complications (nephrotoxicity and hepatotoxicity) in male Wistar ratsAyepola, Omolola Rebecca January 2014 (has links)
Thesis submitted in fulfillment of the requirements for the
Doctor of Technology: Biomedical Technology
In the Faculty of Health and Wellness
At the
CAPE PENINSULA UNIVERSITY OF TECHNOLOGY
2014 / Diabetes mellitus (DM) results in severe metabolic imbalances and pathological changes in many
tissues. Chronic inflammation and oxidative stress have been implicated in the pathophysiology
of diabetes mellitus. Garcinia kola (Family: Guttiferae) is a plant well known for its ample
medicinal values. The seed of the plant also known as ‘bitter kola’ due to its bitter taste is used as
a masticatory agent in traditional hospitality, cultural and social ceremonies in Africa. Kolaviron
(KV) is a defatted ethanol extract from the seeds of Garcinia kola (GK). Kolaviron has been
shown in experimental models of diseases to have numerous beneficial effects due to the
presence of flavonoids (mainly Garcinia biflavonoid (GB)-1, GB-2 and kolaflavanone).
However, there is paucity of information regarding the possible effect of kolaviron on
inflammatory mediators and oxidative stress in diabetes mellitus. Therefore, this study was
carried out to investigate the potential beneficial effects of kolaviron on antioxidant status,
inflammatory mediators and apoptosis. Other biochemical and histological alterations in the
blood, liver and kidney of streptozotocin-induced diabetic rats were also evaluated.
A single intraperitoneal injection of freshly prepared solution of streptozotocin (50 mg/kg.b.wt.)
in citrate buffer (0.1M, pH 4.5) was administered to overnight fasted rats for diabetes induction.
Diabetes was confirmed by stable hyperglycemia (>18 mmol/l) in the tail blood glucose after 5
days of streptozotocin injection. Kolaviron (100 mg/kg b.wt.) was administered to diabetic rats
(by gastric gavage) on the 6th day after the induction of diabetes and treatment continued for 6
weeks (5 times weekly). The effects on blood glucose, body weight, organ (liver and kidney)
weight, serum biochemical parameters, oxidative status, inflammatory mediators and histology
of the liver, kidney and pancreas were assessed.
Kolaviron (KV) treatment lowered blood glucose in diabetic and normoglycemic rats and
reduced glycated haemoglobin [HbA1C (%)]. Plasma insulin level was raised in diabetic rats
treated with KV. Histomorphometric analysis of the pancreas revealed increased β-cell area of
pancreatic islets of kolaviron-treated diabetic group. The indices of organ (liver and kidney)
damage were increased in diabetic rats. However, KV treatment protected against liver and
kidney damage. The characteristic features of diabetic dyslipidemia such as elevated serum
triglyceride and cholesterol concentration which are major risk factors for cardiovascular disease
were also significantly reduced in KV-treated diabetic rats.
Alteration in antioxidant enzymes status was observed in the liver, kidney and blood
(erythrocyte, plasma and serum) of diabetic rats. Lowered catalase (CAT) activity was observed
in the liver and kidney of diabetic rats while KV treatment significantly (p < 0.05) elevated
catalase activity in the liver and kidney. There was no significant change (p > 0.05) in
erythrocyte catalase activity among all treatment groups. Erythrocyte of diabetic rats showed a
marked reduction in the activity of superoxide dismutase (SOD) with no significant changes in
liver and kidney SOD activity of diabetic rats compared to control whereas KV administration to
rats markedly increased SOD activity. Glutathione peroxidase (GPX) activity was elevated in the
erythrocyte and kidney of STZ-induced diabetic rats with no significant effect on liver GPX
activity. KV treatment reversed the alteration in GPX activity in the kidney and erythrocyte.
Level of reduced glutathione (GSH), a non-enzymatic antioxidant was decreased in the both liver
and kidney of diabetic rats and treatment of diabetic rats with KV elevated GSH concentration in
both tissues. Also, malondialdehyde (MDA), a marker of lipid peroxidation was elevated in the
liver, kidney and plasma of diabetic rats and significantly (p < 0.05) lowered following KV
treatment. Diabetes induction reduced the capacity of liver and kidney to absorb oxygen radicals
as demonstrated by lowered oxygen radical absorbance capacity (ORAC) values. KV
administration to normal and diabetic rats significantly increased ORAC values.
Increased rate of apoptosis, a major cellular response to high glucose induced stress was
observed in the renal and hepatic tissues of diabetic control rats. Kolaviron treatment of diabetic
rats protected the liver and kidney against hyperglycemia-induced apoptosis and decreased the
number of TUNEL positive cells
A significant (p < 0.05) elevation of pro-inflammatory cytokines; monocyte chemoattractant
protein (MCP-1), Interleukin-1β (IL-1β), IL-6 and tumor necrosis factor (TNF)-𝛂 was observed
in the liver of diabetes rats. KV treatment lowered these inflammatory biomarkers. On the other
hand, the kidney of diabetic rats showed elevated concentration of pro-inflammatory IL-1β with
no significant effect on kidney TNF-𝛂. An increase in the serum concentration of MCP-1 and
IL-1β was observed in the untreated diabetic rats while kolaviron treatment normalized the
alteration in serum concentration of MCP-1, IL-1β and vascular endothelial growth factor
(VEGF).
In conclusion, persistent and chronic hyperglycemia promotes the generation of free radicals and
inflammatory molecules which contributes to progressive development of micro- and macro
vascular complications and multi-organ damage. Kolaviron demonstrated beneficial effects on
markers of oxidative stress and inflammation in the diabetic rats and also promoted the survival
and functional integrity of the liver and kidney.
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