Inflammatory responses in the vascular wall are up-regulated in hypertension and contribute to cardiovascular disease

Viel, Émilie, 1975-

January 2008

Hypertension is the number one cause of death worldwide. Low-grade inflammation has been identified as one of the mechanisms contributing to blood pressure elevation and remodeling of the vasculature in hypertension. Mechanisms involved in vascular inflammation and hypertension remain elusive. Vasoactive peptides such as endothelin-1 (ET-1) and angiotensin II (Ang II), oxidative stress and infiltration of immune cells are increased in cardiovascular tissues of hypertensive individuals. Since the vasculature is a major regulator of blood pressure levels, the hypothesis has been proposed that vascular inflammatory responses contribute to development of hypertension. / Objectives of this thesis were 1) to investigate the role of T cells in development of vascular inflammation observed in genetically hypertensive rats, 2) to identify vascular sources of reactive oxygen species production in mineralocorticoid-induced hypertension and 3) to study the effect of peroxisome proliferator-activated receptor (PPAR)-gamma activators on vascular pro-inflammatory signaling pathways in Ang II-induced hypertension. / The first study that is part of this thesis shows that the transfer of chromosome 2 from normotensive to hypertensive rats reduces plasma levels of pro-inflammatory cytokines, expression of adhesion molecules and infiltration of T cells in aorta as well as resulting in lower blood pressure levels. These effects are accompanied by increased regulatory T cell mediators. We discovered that regulatory T cells are regulated by chromosome 2 and may be responsible for reducing inflammatory responses in hypertensive rats. / The second study of this thesis demonstrates in DOCA-salt hypertensive rats that superoxide (·O2-) production originates in part from xanthine oxidase activity induced by the ET-1 system and from mitochondrial sources, particularly complex II of the respiratory chain. We thus have uncovered two sources of reactive oxygen species (ROS) that can stimulate inflammatory responses in hypertension, since vascular ·O 2- production in this model was shown to induce vascular inflammation. / The third study of the thesis shows that activators of PPAR-gamma reduce blood pressure levels and signaling pathways including Akt/PKB, SHIP2, ERK1/2, 4E-BP1 in aorta and resistance arteries in Ang II-induced hypertension. PPARy acts as an anti-inflammatory transcription factor, and the present study suggests that Ang II down-regulates PPAR-gamma activity to exert its pro-inflammatory effects. / In conclusion, by targeting inflammatory mediators, it may be possible to reduce blood pressure levels in hypertensive animals. This suggests that inflammatory responses may play a crucial role in development of high blood pressure.

Hypertension -- metabolism.

Aorta -- metabolism.

Mitochondria -- metabolism.

PPAR gamma -- metabolism.

Superoxides -- metabolism.

Xanthine Oxidase -- metabolism.

Reactive Oxygen Species -- metabolism.

Rats, Inbred Dahl.

Rats, Sprague-Dawley.

Rats.

The function of the electron transfer chain in Escherichia coli succinate dehydrogenase

Tran, Quang

Unknown Date

No description available.

succinate dehydrogenase

heme

quinone binding site

Escherichia coli

iron-sulfur cluster

electron tunneling

electron paramagnetic resonance

complex II

reactive oxygen species

electron transfer chain

bioenergetics

Impact of vanadium stress on physiological and biochemical characteristics in heavy metal susceptible and tolerant Brassicaceae

Gokul, Arun

January 2013

There is an influx in heavy metals into soils and ground water due to activities such as increased mineral mining, improper watering and the use of heavy metal contaminated fertilizers. These heavy metals are able to increase the ROS species within plants which may result in plant metabolism deterioration and tissue damage. Heavy metals may also directly damage plants by rendering important enzymes non-functional through binding in metal binding sites of enzymes. The heavy metal focused on in this study was vanadium due to South Africa being one of the primary produces of this metal. Two related Brassica napus L cultivars namely Agamax and Garnet which are economically and environmentally important to South Africa were exposed to vanadium. Physiological experiments such as cell death, chlorophyll and biomass determination were conducted to understand how these cultivars were affected by vanadium toxicity. A low cost, sensitive and robust vanadium assay was developed to estimate the amount of vanadium in samples such as water, soils and plant material. The oxidative state as well as the antioxidant profile of the two cultivars were also observed under vanadium stress. A chlorophyll assay which was conducted on the two cultivars xiv exposed to vanadium showed a marked decrease in chlorophyll A in the suspected sensitive cultivar which was Garnet. However, the suspected tolerant cultivar Agamax fared better and the decrease in chlorophyll A was much less. A similar trend was observed for the two cultivars when the cell death assay was conducted. The vanadium assay showed that Garnet had higher concentrations of vanadium within its leaves and lower concentrations in its roots when compared to Agamax. This observation displayed that Agamax had inherent mechanisms which it used to localize vanadium in its roots and which assisted in its tolerance to the vanadium stress. The oxidative state was determined by doing assays for the specific reactive oxygen species namely hydrogen peroxide and superoxide. It was observed that vanadium treated Garnet leaves had higher reactive oxygen species (ROS) production when compared to the Agamax treated leaves. In-gel native PAGE activity gels were conducted to determine the antioxidant profile for the two cultivars which were exposed to vanadium. The antioxidant enzymes which were under investigation were ascorbate peroxide (APX), superoxide dismutase (SOD) and glutathione-dependent peroxidases (GPX-like) as these enzymes are known to be responsible for controlling the ROS produced in the plants. The GPX-like profile consisted of three isoforms. No isoforms were inhibited by vanadium treatments but one isoform had increased activity in both the Garnet and Agamax treated samples. The SOD profile for Garnet consisted of six isoforms xv and Agamax had seven isoforms. One isoform which was visualized in both Agamax as well as Garnet was inhibited by vanadium treatments. Agamax also had two isoforms which were up-regulated however the corresponding isoforms in Garnet showed no change. The Ascorbate peroxidase profile consisted of seven isoforms for both Garnet and Agamax. No isoforms were inhibited by vanadium treatment. Three isoforms were up-regulated in Garnet and Agamax under vanadium treatments. Here, it is illustrated that Garnet lacked certain mechanisms found in Agamax (and thus experienced more cell death, yield and chlorophyll loss) and performed worst under high vanadium concentrations. Although Garnet increased the activity of some of its antioxidant isoforms in response to increasing ROS levels it was not adequate to maintain a normal oxidative homeostasis. This disruption in oxidative homeostasis lead to plant damage. Agamax was observed to produce less ROS than Garnet and was able to control the ROS produced more effectively than Garnet and thus less damage was observed in Agamax. / Magister Scientiae - MSc

Antioxidant enzymes

Ascorbate peroxidase

Biomass

Cell death

Heavy metal

Hydrogen peroxide

Hypertolerant

Lipid peroxidation

Reactive oxygen species

Superoxide

Superoxide dismutase

Vanadium

Preparation, stability and in vitro evaluation of liposomes containing chloroquine / Stephnie Nieuwoudt

Nieuwoudt, Stephnie

January 2010

Malaria is currently a huge treat worldwide, as far as infections are concerned, and is responsible for thousands of deaths per annum. The dilemma associated with the development of anti–malarial drug resistance over the past few decades should be addressed as a matter of urgency. Novel drug delivery systems should be developed in order to employ new and existing anti–malarial drugs in the treatment and management of malaria. The aim of these delivery systems should include an improvement in the efficacy, specificity, acceptability and therapeutic index of anti–malarial drugs. Previous studies have suggested that liposomes have the ability to encapsulate, protect and to promote the sustained release of anti–malarial drugs. Two liposome formulations, namely liposomes and chloroquine entrapped in liposomes, were formulated during this thesis and evaluated by conducting a stability study and an in vitro study with the main focus on cell viability. The stability study consisted of a series of stability tests regarding the stability of nine liposome and nine chloroquine entrapped in liposome formulations over a period of twelve weeks. The in vitro study included three assays such as a reactive oxygen species assay, a lipid peroxidation assay and a hemolysis assay. The aims of these studies included the manufacturing of liposomes, the incorporation of chloroquine into liposomes, the determination of the stability of the formulations as well as the evaluation of the possible in vitro toxicity of liposomes. Results obtained from these studies revealed that liposomes remained more stable over the stability study period in comparison to chloroquine entrapped in liposomes. The entrapment of chloroquine within liposomes was possible, although the initial entrapment efficiency (%) of 14.55 % was much too low. The production of reactive oxygen species occurred to a small extent in the red blood cells and the infected red blood cells. Equal amounts of reactive oxygen species (%) was observed within both the red blood cells and the infected red blood cells with a maximum value of 23.27 % in the presence of the chloroquine entrapped in liposomes at varying concentrations. Red blood cells experienced the highest degree of lipid peroxidation (%) in the presence of chloroquine, at varying concentrations, entrapped in liposomes. The maximum amount of lipid peroxidation (%) was 79.61 %. No significant degree of hemolysis (%) was observed in the red blood cells neither in the presence of the liposomes nor in the presence of the chloroquine entrapped in liposomes at varying concentrations. It can be concluded that liposomes are a more stable formulation and have less toxic effects on red blood cells and infected red blood cells in comparison to the chloroquine entrapped in liposome formulations. Future studies should investigate the possibility of a more stable and less toxic chloroquine entrapped in liposome formulation. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2011.

Malaria

Liposomes

Chloroquine (CQ)

Reactive oxygen species (ROS)

Lipid peroxidation (LP)

Hemolysis

Liposome

Chlorokien (CQ)

Reaktiewe suurstof spesies (ROS)

Lipied peroksidasie (LP)

Hemolise

Preparation, stability and in vitro evaluation of liposomes containing amodiaquine / Jacques C. Scholtz

Scholtz, Jacques Coenraad

January 2010

Malaria is a curable disease that claims nearly one million lives each year. Problems with the treatment of malaria arise as resistance spreads and new treatment options are becoming less effective. The need for new treatments are of the utmost importance. Liposomes combined with antimalarials are a new avenue for research as liposomes can increase the efficacy of drugs against pathogens, as well as decreasing toxicity. Amodiaquine is a drug with known toxicity issues, but has proven to be effective and is, therefore, a prime candidate to be incorporated into the liposomal drug delivery system. The aim of this study was to prepare, characterize and evaluate the toxicity of the liposomes with incorporated amodiaquine. The solubility of amodiaquine was determined and liposomes formulated with, and without, amodiaquine entrapped. Accelerated stability studies (at 5 'C, 25 'C with relative humidity of 60% and 40 'C with a relative humidity of 40%) were conducted during which the size, pH, morphology and the entrapment efficacy was determined. The toxicity was determined in vitro by analysing the levels of reactive oxidative species and lipid peroxidation caused by the formulations to erythrocytes infected with P. falciparum as well as uninfected erythrocytes with flow cytometry. The solubility study of amodiaquine in different pH buffers showed that amodiaquine was more soluble at lower pH values. Solubility in solution with pH 4.5 was 36.3359 ± 0.7904mg/ml when compared to the solubility at pH 6.8, which was 15.6052 ± 1.1126 mg/ml. A buffer with a pH of 6 was used to ensure adequate solubility and acceptable compatibility with cells. Liposomes with incorporated amodiaquine were formulated with entrapment efficacies starting at 29.038 ± 2.599% and increasing to 51.914 ± 1.683%. The accelerated stability studies showed the median sizes and span values remained constant for both liposome and amodiaquine incorporated liposomes at 5 'C. The higher temperatures, i.e. 25 'C and 40 'C, displayed increases in the median size, and decreases in the span for both formulations. The conclusion can, therefore, be made that both liposome and amodiaquine incorporated liposomes are stable at lower temperatures. The entrapment efficacy increased from initial values to nearly 100% during the course of the stability study. This was attributed to amodiaquine precipitating from the solution. The pH values of the liposomes and amodiaquine incorporated liposomes remained constant for each formulation; though the amodiaquine incorporated liposomes had a lower starting pH, the formulations are both thought to be stable in terms of the pH. Toxicity studies revealed low levels of reactive oxygen species as well as low levels of lipid peroxidation for both liposome and amodiaquine incorporated liposomes, on both erythrocyte and Plasmodium infected erythrocytes. From the toxicity studies it can be concluded that liposomes and amodiaquine incorporated liposomes are not toxic to erythrocytes and infected erythrocytes. It was concluded that liposomes incorporating amodiaquine could possibly be used as a treatment option for malaria. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2011.

Malaria

Liposomes

Amodiaquine

Plasmodium falciparum

Stability

Toxicity

Entrapment efficacy

Size determination

Reactive oxygen species

Lipid peroxidation

Liposome

Amodiakien

Stabiliteit

Toksisiteit

Inkorporerings effektiwiteit

Groottebepaling

Reaktiewe suurstof spesies

Lipied peroksidasie

The Effect of Macrophage-secreted Factors on Preadipocyte Survival

Molgat, André

10 January 2013

Adipose tissue (AT) expansion and remodeling that maintains healthy function relies on stromal preadipocytes capable of differentiating into new adipocytes (adipogenesis). During chronic positive energy balance, a relative deficit in adipogenesis, from either a decrease in preadipocyte number or their capacity to differentiate, leads to excessive adipocyte hypertrophy and AT dysfunction. AT contains macrophages whose number and activation state is dynamically regulated with changes in AT mass. This study aims to investigate the effect of macrophage-secreted factors on preadipocyte survival. To assess the effect of macrophage-secreted factors on preadipocytes, murine 3T3-L1 preadipocytes or human primary preadipocytes were incubated with macrophage-conditioned medium (MacCM), prepared from either murine (J774A.1, RAW264.7, bone marrow-derived) or human (THP-1, monocyte-derived) macrophage models, respectively. MacCM inhibited preadipocyte apoptosis and activated pro-survival signaling in both preadipocyte models. Inhibition of PDGFR, Akt, or ERK1/2 reduced the pro-survival effect of MacCM in 3T3-L1 preadipocytes. Inhibition of reactive oxygen species (ROS) generation, or enhancement of ROS clearance, reduced MacCM-dependent 3T3-L1 preadipocyte survival. Whereas anti-inflammatory activated macrophages retained the ability to prevent preadipocyte apoptosis, pro-inflammatory activated macrophages did not. TNF-α immunoneutralization restored the survival activity of pro-inflammatory MacCM on 3T3-L1 preadipocytes. These studies reveal a novel pro-survival effect of MacCM on preadipocytes, and identify signaling molecules (PDGF, Akt, ERK1/2, and ROS) that underlie this action. Macrophage activation was found to regulate the pro-survival activity of MacCM. These in vitro cell culture studies are consistent with a model in which the extent of preadipocyte apoptosis in vivo may determine preadipocyte number and the ability of AT to expand while maintaining healthy function during chronic positive energy balance.

adipocyte

preadipocyte

metabolism

adipose tissue

fat

macrophage

inflammation

PDGF

TNFalpha

apoptosis

reactive oxygen species

platelet-derived growth factor

tumor-necrosis factor alpha

Preparation, stability and in vitro evaluation of liposomes containing chloroquine / Stephnie Nieuwoudt

Nieuwoudt, Stephnie

January 2010

Malaria is currently a huge treat worldwide, as far as infections are concerned, and is responsible for thousands of deaths per annum. The dilemma associated with the development of anti–malarial drug resistance over the past few decades should be addressed as a matter of urgency. Novel drug delivery systems should be developed in order to employ new and existing anti–malarial drugs in the treatment and management of malaria. The aim of these delivery systems should include an improvement in the efficacy, specificity, acceptability and therapeutic index of anti–malarial drugs. Previous studies have suggested that liposomes have the ability to encapsulate, protect and to promote the sustained release of anti–malarial drugs. Two liposome formulations, namely liposomes and chloroquine entrapped in liposomes, were formulated during this thesis and evaluated by conducting a stability study and an in vitro study with the main focus on cell viability. The stability study consisted of a series of stability tests regarding the stability of nine liposome and nine chloroquine entrapped in liposome formulations over a period of twelve weeks. The in vitro study included three assays such as a reactive oxygen species assay, a lipid peroxidation assay and a hemolysis assay. The aims of these studies included the manufacturing of liposomes, the incorporation of chloroquine into liposomes, the determination of the stability of the formulations as well as the evaluation of the possible in vitro toxicity of liposomes. Results obtained from these studies revealed that liposomes remained more stable over the stability study period in comparison to chloroquine entrapped in liposomes. The entrapment of chloroquine within liposomes was possible, although the initial entrapment efficiency (%) of 14.55 % was much too low. The production of reactive oxygen species occurred to a small extent in the red blood cells and the infected red blood cells. Equal amounts of reactive oxygen species (%) was observed within both the red blood cells and the infected red blood cells with a maximum value of 23.27 % in the presence of the chloroquine entrapped in liposomes at varying concentrations. Red blood cells experienced the highest degree of lipid peroxidation (%) in the presence of chloroquine, at varying concentrations, entrapped in liposomes. The maximum amount of lipid peroxidation (%) was 79.61 %. No significant degree of hemolysis (%) was observed in the red blood cells neither in the presence of the liposomes nor in the presence of the chloroquine entrapped in liposomes at varying concentrations. It can be concluded that liposomes are a more stable formulation and have less toxic effects on red blood cells and infected red blood cells in comparison to the chloroquine entrapped in liposome formulations. Future studies should investigate the possibility of a more stable and less toxic chloroquine entrapped in liposome formulation. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2011.

Malaria

Liposomes

Chloroquine (CQ)

Reactive oxygen species (ROS)

Lipid peroxidation (LP)

Hemolysis

Liposome

Chlorokien (CQ)

Reaktiewe suurstof spesies (ROS)

Lipied peroksidasie (LP)

Hemolise

Preparation, stability and in vitro evaluation of liposomes containing amodiaquine / Jacques C. Scholtz

Scholtz, Jacques Coenraad

January 2010

Malaria is a curable disease that claims nearly one million lives each year. Problems with the treatment of malaria arise as resistance spreads and new treatment options are becoming less effective. The need for new treatments are of the utmost importance. Liposomes combined with antimalarials are a new avenue for research as liposomes can increase the efficacy of drugs against pathogens, as well as decreasing toxicity. Amodiaquine is a drug with known toxicity issues, but has proven to be effective and is, therefore, a prime candidate to be incorporated into the liposomal drug delivery system. The aim of this study was to prepare, characterize and evaluate the toxicity of the liposomes with incorporated amodiaquine. The solubility of amodiaquine was determined and liposomes formulated with, and without, amodiaquine entrapped. Accelerated stability studies (at 5 'C, 25 'C with relative humidity of 60% and 40 'C with a relative humidity of 40%) were conducted during which the size, pH, morphology and the entrapment efficacy was determined. The toxicity was determined in vitro by analysing the levels of reactive oxidative species and lipid peroxidation caused by the formulations to erythrocytes infected with P. falciparum as well as uninfected erythrocytes with flow cytometry. The solubility study of amodiaquine in different pH buffers showed that amodiaquine was more soluble at lower pH values. Solubility in solution with pH 4.5 was 36.3359 ± 0.7904mg/ml when compared to the solubility at pH 6.8, which was 15.6052 ± 1.1126 mg/ml. A buffer with a pH of 6 was used to ensure adequate solubility and acceptable compatibility with cells. Liposomes with incorporated amodiaquine were formulated with entrapment efficacies starting at 29.038 ± 2.599% and increasing to 51.914 ± 1.683%. The accelerated stability studies showed the median sizes and span values remained constant for both liposome and amodiaquine incorporated liposomes at 5 'C. The higher temperatures, i.e. 25 'C and 40 'C, displayed increases in the median size, and decreases in the span for both formulations. The conclusion can, therefore, be made that both liposome and amodiaquine incorporated liposomes are stable at lower temperatures. The entrapment efficacy increased from initial values to nearly 100% during the course of the stability study. This was attributed to amodiaquine precipitating from the solution. The pH values of the liposomes and amodiaquine incorporated liposomes remained constant for each formulation; though the amodiaquine incorporated liposomes had a lower starting pH, the formulations are both thought to be stable in terms of the pH. Toxicity studies revealed low levels of reactive oxygen species as well as low levels of lipid peroxidation for both liposome and amodiaquine incorporated liposomes, on both erythrocyte and Plasmodium infected erythrocytes. From the toxicity studies it can be concluded that liposomes and amodiaquine incorporated liposomes are not toxic to erythrocytes and infected erythrocytes. It was concluded that liposomes incorporating amodiaquine could possibly be used as a treatment option for malaria. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2011.

Malaria

Liposomes

Amodiaquine

Plasmodium falciparum

Stability

Toxicity

Entrapment efficacy

Size determination

Reactive oxygen species

Lipid peroxidation

Liposome

Amodiakien

Stabiliteit

Toksisiteit

Inkorporerings effektiwiteit

Groottebepaling

Reaktiewe suurstof spesies

Lipied peroksidasie

Sergančiųjų priedančio audinių uždegimu neutrofilų oksidacinės funkcijos bei kraujo redukcinių savybių tyrimas / The oxidative function of neutrophils and the reduction properties of blood in patients with periodontitis

Žilinskas, Juozas, Žilinskas, Juozs

25 October 2011

Pirmą kartą atliktas asmenų grupių, turinčių skirtingą neutrofilų funkcinį aktyvumą (sergančių priedančio audinių uždegimu ir sveikų asmenų), lyginamasis periferinio kraujo neaktyvintų ir aktyvintų neutrofilų oksidacinės funkcijos tyrimas. Tyrimams buvo panaudoti labai jautrūs nuo luminolo ir lucigenino priklausomos chemiliuminescencijos metodai. Pirmą kartą įrodytas homeopatinio preparato Traumeel S antioksidacinis poveikis in vitro, reikšmingai mažinantis sergančiųjų priedančio audinių uždegimu kraujo neutrofilų generuojamo superoksido anijono kiekį. Pirmą kartą tirtas sergančių priedančio audinių uždegimu ir sveikų asmenų periferinio kraujo, plazmos ir serumo redukcinis potencialas, įvertinant homeopatinio preparato Traumeel S poveikį redukciniam potencialui in vitro. Tyrimų rezultatai papildo žinias ir apie priedančio audinių uždegimo patogenezę. / For the first time, a complex comparative study was performed on the oxidative function of non-activated and activated neutrophils of peripheral blood from subject with differing functional activity of neutrophils (i.e. patients with periodontitis and healthy subjects). The study employed two very sensitive techniques – luminol-dependent and lucigenin-dependent chemiluminescence. For the first time, the study showed that the homeopathic medication Traumeel S had antioxidant effect in vitro, i.e. it significantly reduced superoxide anion levels generated by blood neutrophils in patients with periodontitis. The results of the study also complemented knowledge about the pathogenesis of periodontal inflammation. This finding may have a significant clinical implementation.

Odontology

Periferinis kraujas

Neutrofilai

Traumeel S

Aktyvios deguonies formos

Priedančio audinių uždegimas

Peripheral blood

Neutrophils

Traumeel S

Reactive oxygen species

Patients with periodontitis

Redox regulation of protein tyrosine phosphatases in cell membrane receptor-mediated signal transduction

Salsman, Scott J.

January 2005

Thesis (Ph. D.)--University of Oklahoma. / Bibliography: leaves 135-155.