Le double aspect des nanoparticules manufacturées sur les métabolismes oxydatifs et inflammatoires : effets délétères et effets protecteurs / Double aspect of manufactured nanoparticles on oxidative and inflammatory metabolisms : deleterious effects and protective effects

Ebabe Elle, Etienne Raymond

24 February 2016

On étudie les effets des nanoparticules (d'argent et de silice) manufacturées sur les métabolismes oxydatifs et inflammatoire. La première partie étudie la toxicité in vivo de l'ingestion de nanoparticules d'argent, pendant 11 semaines, sur un modèle animal - rat Sprague Dawley. Nous y avons mis en évidence l'action toxique des nanoparticules d'argent notamment une hausse de la production d'anion superoxyde par les NADPH oxydases hépatiques et cardiaques, des dyslipidémies, une cytolyse hépatique, une augmentation de cytokines pro-inflammatoires et une tendance à la baisse de l'activité d'enzymes antioxydantes. Ceci nous a conduit à aborder l'étude in vitro, sur des modèles cellulaires intestinaux (Caco-2) et cutanés (HaCaT). Au cours de cette étude, des nanoparticules de silice, fonctionnalisées ou non avec des antioxydants, ont été incubées pendant 24 H en présence des cellules. Nous montrons que la modification de la surface des nanoparticules réduit considérablement leur toxicité en limitant la production d'espèces radicalaires et la mortalité cellulaire. D’autre part, le couplage avec un antioxydant permet d’augmenter la stimulation de voie de signalisation du facteur Nrf2. Cette voie est impliquée dans la protection de l’organisme contre les troubles liés aux espèces radicalaires. En somme, ce travail met en avant les potentialités de la vectorisation d’antioxydants avec des nanoparticules à des fins thérapeutiques. / The purpose of this study is to explore the effects of nanoparticles (silver and silica) manufactured on oxidative and inflammatory metabolism. In the first part of this work, we explored the in vivo toxicity from ingestion of silver nanoparticles, for 11 weeks, in an animal model - Sprague Dawley rat. This enabled us to demonstrate the toxic properties of silver nanoparticles including superoxide anion production by hepatic and cardiac NADPH oxidases, dyslipidemia, hepatic cytolysis, an increase in proinflammatory cytokines and a downward trend the activity of antioxidant enzymes. This led us to address the in vitro study on intestinal cell models (Caco-2) and cutaneous (HaCaT). During this study, silica nanoparticles, functionalized or not with anti-oxidants, were incubated for 24 hours in the presence of the cells. We show that the modification of the surface of the nanoparticles significantly reduces their toxicity limiting the production of free radical species and cell death. Furthermore, the coupling with an anti-oxidant increases the stimulation of Nrf2 factor that involves the protection of the body against disorders associated with radical species. In summary, this work highlights the potential of vectorization of antioxidants with nanoparticles for therapeutic purposes.

Nanoparticules d'argent et de silice

Stress oxydant

Rat Sprague Dawley

Nrf2

Caco2 et HaCaT

Antioxydants alimentaires

Silver and silica nanoparticles

Oxidative stress

Rat Sprague Dawley

Nrf2

Caco2 and HaCaT

Food antioxidant

The role of mGluR5 during conditioned hyperactivity and sensitization in differentially reared rats

Gill, Margaret J.

January 1900

Doctor of Philosophy / Department of Psychology / Mary E. Cain / Glutamate contributes to the neurological and behavioral changes that occur during differential rearing, and those that occur during conditioned hyperactivity and sensitization. Metabotropic glutamate receptor 5 (mGluR5) in particular contributes to the psychostimulant reward pathway, plasticity, and differential rearing. The present study examined the role of mGluR5 in conditioning and sensitization in differentially reared rats. Rats were reared in an enriched (EC), impoverished (IC), or social (SC) condition for 30 days, after which they received repeated amphetamine (0.3 mg/kg) or saline injections. Following training, rats received an injection of the mGluR5 antagonist MTEP or saline prior to undergoing conditioned hyperactivity and sensitization tests. Results showed that MTEP attenuated conditioned hyperactivity and sensitization in IC but not EC and SC rats, suggesting that glutamatergic changes occur during differential rearing that alter the effects of MTEP on amphetamine conditioning and sensitization. Additionally, results demonstrated that enrichment rearing has a protective effect against conditioned hyperactivity at low doses of amphetamine.

Sprague Dawley

Amphetamine

Differential Rearing

mGluR5

Conditioned Hyperactivity

Sensitization

Psychology, Behavioral (0384)

Psychology, Psychobiology (0349)

Effects of differential rearing on amphetamine-induced c-fos expression in rats

Gill, Margaret J.

January 1900

Master of Science / Department of Psychology / Mary E. Cain / Previous research has shown that both the environment and psychostimulant use influence dopamine levels via the mesolimbic dopamine pathway. C-fos expression has also been observed following exposure to novel environments and psychostimulants. The present study looked to determine the effects of acute amphetamine exposure on locomotor activity and c-fos expression in the basolateral and central nucleus of the amygdala, for rats raised in either an enriched condition (EC), impoverished condition (IC), or social condition (SC). Rats were reared in either the EC, IC, or SC for 30 days, after which they received an acute amphetamine injection (1.0 mg/kg) and locomotor activity was measured. Following the locomotor test rats were perfused and immunohistochemistry was used to measure c-fos levels in the basolateral and central nucleus of the amygdala. Results showed that EC amphetamine rats had significantly greater locomotor activity compared to EC saline rats. There were no significant group or treatment differences in c-fos expression in the ACe. In the BLA SC amphetamine rats had significantly greater c-fos expression than EC amphetamine rats. Overall, the current study revealed that environmental enrichment and amphetamine do significantly alter locomotor activity and c-fos expression in the BLA.

Environmental Enrichment

Amphetamine

c-fos

Locomotion

Sprague-Dawley

Amygdala

Psychology, Psychobiology (0349)

Neurotoxicity and neurobehavioral effects of manganese phosphate/sulfate mixture in male sprague-dawley rats following subchronic inhalation exposure

Salehi, Fariba

January 2005

Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal.

Rats sprague-dawley

Exposition par inhalation

Neuropathologie

Effets neurocomportementaux

Effects of Imidacloprid in the Development of Non-Alcoholic Fatty Liver Disease and the Effects of Exercise Training

Jolin-Rodrigue, Gabriel

14 March 2019

The non-alcoholic fatty liver disease (NAFLD) is the most common liver pathology in developed countries with an estimated prevalence of 20 to 30% in the American population. A typically benign and asymptomatic pathology, NAFLD is characterized by hepatic steatosis and abnormal levels of hepatic enzymes stemming from an increase in circulating free fatty acids originating from white adipose tissue lipolysis, an increased de novo lipogenesis, reduced fatty acid oxidation and decreased hepatic triglycerides secretion, all within an insulin resistance context. NAFLD has the potential to progress to the non-alcoholic steatohepatitis (NASH), a condition marked by inflammation, advanced oxidative stress and fibrosis. NASH is expected to be the leading cause of liver transplant by 2020 due to its complications (i.e.: cirrhosis, hepatocellular carcinoma and liver failure). Various xenobiotics such as pesticides have been shown to promote the apparition and development of NAFLD. Of interest to this study is the neonicotinoid imidacloprid, more contemporarily known for its suspected role in the colony collapse disorder of various anthophilae species. Imidacloprid has been shown to induce hepatic oxidative stress in rats, a significant factor in the development of NAFLD and its progression to NASH. Lifestyle modifications, namely physical exercise, is a current treatment which has been proven beneficial to prevent and treat NAFLD by reducing hepatic steatosis, oxidative stress and improving insulin sensitivity. The role of any neonicotinoid on the development of NAFLD has yet to be examine and few have looked at the role of exercise in the treatment of NAFLD brought about by pesticide contamination.

Neonicotinoid

Imidacloprid

Non-alcoholic fatty liver disease

NAFLD

Exercise

Liver

Sprague-Dawley

Xenobiotics

Effect of nitric oxide (NO) on orthodontic tooth movement in rats

Vakani, Arvind Kenneth.

January 2003

Thesis (M.S.)--University of Florida, 2003. / Title from title page of source document. Includes vita. Includes bibliographical references.

The Biodistribution of 14C in the Digestive Organs of Rats Fed [14C]CD14 Protein

Davis, Laura D. R.

25 May 2010

Human milk contains ~ 25 µg/mL of soluble cluster of differentiation 14 (sCD14) protein, a pattern recognition receptor (PRR) that triggers the innate immune system to respond to bacterial lipopolysaccharide (LPS). To date, the role of CD14 in the digestive tract of breast fed infants has not been well characterized and is the subject of this thesis. To investigate the biodistribution of proteins such as CD14 in vivo, a novel method for 14C radiolabeling of proteins to high specific radioactivity was developed using in vacuo methylation. Bovine serum albumin (BSA) and casein were used as test proteins to determine the following: 1) The efficacy of the in vacuo radiolabeling procedure; 2) The extent of incorporation of the 14C-label into the organs of oro-gastric gavaged 10 day old Sprague Dawley rats. [14C]BSA, [14C]casein and [14C]CD14 were prepared with specific radioactivities of 10 400, 10 800 and 163 000 dpm/µg, respectively. After feeding 6.25 µg of 14C-labeled proteins, quantifiable levels of 14C were found in the stomach, jejunum, duodenum, ileum, large intestine, intestinal luminal flushes, blood, liver, spleen and kidneys of rats. The accumulation of radiolabel in the organs of [14C]CD14 fed rats was temporally and spatially distinct from [14C]BSA and [14C]casein. Most notably, the label persisted in the stomach 480 min post-gavage. To design a neonate animal model for biodistribution, the segmental and total gastrointestinal transit times (GItt) were measured in two litters of 10 and 15 day old Sprague Dawley rat pups using barium sulfate. Ten day old rat pups that remained with and without the dam had a total gastrointestinal transit time of 13.8 ± 0.9 hr and 9.3 ± 0.7 hr, respectively. This decrease (p<0.05) in total gastrointestinal transit time in the absence of the dam was age dependent, as it was not observed (p>0.05) in the 15 day old rat pup litter. The immunological impact of an exogenous sCD14 source was examined in human peripheral blood mononuclear cells (PBMC). Pre-treatment of CD14+ monocytes with sCD14 had a protective effect, one of reducing the production of proinflammatory cytokines (TNF-α, IL-6, IL-8, IL-1β) when challenged with LPS. 14C was absorbed by neonate rats upon ingestion of [14C]CD14 and exposure to relatively high concentrations of rCD14 led to a reduction in inflammation. This may be beneficial to initial gut colonization in breast-fed newborns. / Alexander Graham Bell NSERC CGS M scholarship. Japan Society for the Promotion of Sciences, Summer in Japan Fellowship. Funded by the Canadian Institutes of Health Research, Institute of Nutrition Metabolism and Diabetes Grant #82816 “Fate and function of breast milk and recombinant human CD14 at mammary and newborn gastrointestinal mucosal epithelia”.

human milk

carbon 14

sprague dawley

biodistribution

gastrointestinal tract

pharmacokinetic

inflammation

CD14

neonate

The Biodistribution of 14C in the Digestive Organs of Rats Fed [14C]CD14 Protein

Davis, Laura D. R.

25 May 2010

Human milk contains ~ 25 µg/mL of soluble cluster of differentiation 14 (sCD14) protein, a pattern recognition receptor (PRR) that triggers the innate immune system to respond to bacterial lipopolysaccharide (LPS). To date, the role of CD14 in the digestive tract of breast fed infants has not been well characterized and is the subject of this thesis. To investigate the biodistribution of proteins such as CD14 in vivo, a novel method for 14C radiolabeling of proteins to high specific radioactivity was developed using in vacuo methylation. Bovine serum albumin (BSA) and casein were used as test proteins to determine the following: 1) The efficacy of the in vacuo radiolabeling procedure; 2) The extent of incorporation of the 14C-label into the organs of oro-gastric gavaged 10 day old Sprague Dawley rats. [14C]BSA, [14C]casein and [14C]CD14 were prepared with specific radioactivities of 10 400, 10 800 and 163 000 dpm/µg, respectively. After feeding 6.25 µg of 14C-labeled proteins, quantifiable levels of 14C were found in the stomach, jejunum, duodenum, ileum, large intestine, intestinal luminal flushes, blood, liver, spleen and kidneys of rats. The accumulation of radiolabel in the organs of [14C]CD14 fed rats was temporally and spatially distinct from [14C]BSA and [14C]casein. Most notably, the label persisted in the stomach 480 min post-gavage. To design a neonate animal model for biodistribution, the segmental and total gastrointestinal transit times (GItt) were measured in two litters of 10 and 15 day old Sprague Dawley rat pups using barium sulfate. Ten day old rat pups that remained with and without the dam had a total gastrointestinal transit time of 13.8 ± 0.9 hr and 9.3 ± 0.7 hr, respectively. This decrease (p<0.05) in total gastrointestinal transit time in the absence of the dam was age dependent, as it was not observed (p>0.05) in the 15 day old rat pup litter. The immunological impact of an exogenous sCD14 source was examined in human peripheral blood mononuclear cells (PBMC). Pre-treatment of CD14+ monocytes with sCD14 had a protective effect, one of reducing the production of proinflammatory cytokines (TNF-α, IL-6, IL-8, IL-1β) when challenged with LPS. 14C was absorbed by neonate rats upon ingestion of [14C]CD14 and exposure to relatively high concentrations of rCD14 led to a reduction in inflammation. This may be beneficial to initial gut colonization in breast-fed newborns. / Alexander Graham Bell NSERC CGS M scholarship. Japan Society for the Promotion of Sciences, Summer in Japan Fellowship. Funded by the Canadian Institutes of Health Research, Institute of Nutrition Metabolism and Diabetes Grant #82816 “Fate and function of breast milk and recombinant human CD14 at mammary and newborn gastrointestinal mucosal epithelia”.

human milk

carbon 14

sprague dawley

biodistribution

gastrointestinal tract

pharmacokinetic

inflammation

CD14

neonate

Assessment of the cell cycle proteins Cdc7 and PCNA as markers of colon carcinogenesis in obese and lean rats

Wood, Katherine

January 2009

Obesity increases the risk of colon cancer as well as the expression of many cancer markers, ostensibly due to the interaction between insulin resistance and adipocyte production of hormones, mitogens and cytokines which collaborate to enhance proliferation signaling and impair the DNA damage response. Cdc7 and PCNA are both proteins involved in the DNA damage response as well as DNA replication. Both have also been shown to be upregulated in human tumours. To assess Cdc7 and PCNA roles during the DNA damage response in obese and lean animals, we administered azoxymethane (AOM), a colon-specific carcinogen, to obese and lean rats. Cdc7 and PCNA levels in colonic mucosal protein extracts from obese Zucker rats were compared with those from their lean counterparts. Significant differences were seen between lean and obese animals 3 hours post-AOM (lean Cdc7 levels > obese Cdc7 levels) and 24 hours post-AOM (lean PCNA levels > obese PCNA levels). This result suggests an impaired checkpoint response in obese animals relative to lean animals and supports a previously reported early role for Cdc7 in the checkpoint signaling cascade relative to a later role of PCNA in DNA damage repair. At the time tumours appeared (32 weeks post-AOM), colonic mucosal Cdc7 levels of obese rats exceeded that of their lean counterparts, suggesting that the obese metabolic environment causes upregulation of Cdc7 in obese rat epithelia. Cdc7 and PCNA levels were then compared between tumours and mucosa in obese and Sprague Dawley rats. Tumour Cdc7 levels were upregulated relative to mucosal levels in more samples than tumour PCNA levels, suggesting Cdc7 may be a more sensitive tumour marker. No significant differences in Cdc7 levels were seen between obese tumours and mucosa, likely due to elevation of obese mucosal Cdc7 levels. However, Sprague Dawley (non-obese) rats showed significantly higher Cdc7 and PCNA levels in tumours than mucosa, consistent with previous studies in human tissues. These results suggest that Cdc7 may be a more sensitive tumour marker than PCNA, but that its utility as a biomarker of colon cancer is dependent on the metabolic state (leanness) of the individual.

colon cancer

obesity

carcinogenesis

ACF

Zucker

Sprague Dawley

rat

Cdc7

PCNA

colorectal cancer

Biology

Assessment of the cell cycle proteins Cdc7 and PCNA as markers of colon carcinogenesis in obese and lean rats

Wood, Katherine

January 2009

Obesity increases the risk of colon cancer as well as the expression of many cancer markers, ostensibly due to the interaction between insulin resistance and adipocyte production of hormones, mitogens and cytokines which collaborate to enhance proliferation signaling and impair the DNA damage response. Cdc7 and PCNA are both proteins involved in the DNA damage response as well as DNA replication. Both have also been shown to be upregulated in human tumours. To assess Cdc7 and PCNA roles during the DNA damage response in obese and lean animals, we administered azoxymethane (AOM), a colon-specific carcinogen, to obese and lean rats. Cdc7 and PCNA levels in colonic mucosal protein extracts from obese Zucker rats were compared with those from their lean counterparts. Significant differences were seen between lean and obese animals 3 hours post-AOM (lean Cdc7 levels > obese Cdc7 levels) and 24 hours post-AOM (lean PCNA levels > obese PCNA levels). This result suggests an impaired checkpoint response in obese animals relative to lean animals and supports a previously reported early role for Cdc7 in the checkpoint signaling cascade relative to a later role of PCNA in DNA damage repair. At the time tumours appeared (32 weeks post-AOM), colonic mucosal Cdc7 levels of obese rats exceeded that of their lean counterparts, suggesting that the obese metabolic environment causes upregulation of Cdc7 in obese rat epithelia. Cdc7 and PCNA levels were then compared between tumours and mucosa in obese and Sprague Dawley rats. Tumour Cdc7 levels were upregulated relative to mucosal levels in more samples than tumour PCNA levels, suggesting Cdc7 may be a more sensitive tumour marker. No significant differences in Cdc7 levels were seen between obese tumours and mucosa, likely due to elevation of obese mucosal Cdc7 levels. However, Sprague Dawley (non-obese) rats showed significantly higher Cdc7 and PCNA levels in tumours than mucosa, consistent with previous studies in human tissues. These results suggest that Cdc7 may be a more sensitive tumour marker than PCNA, but that its utility as a biomarker of colon cancer is dependent on the metabolic state (leanness) of the individual.

colon cancer

obesity

carcinogenesis

ACF

Zucker

Sprague Dawley

rat

Cdc7

PCNA

colorectal cancer

Biology