Ladislav Dory

Hyperbaric Oxygen Reduces the Progression and Accelerates the Regression of Atherosclerosis in Rabbits

We studied the effect of hyperbaric oxygen (HBO) treatment on the extent of diet-induced accumulation of lipid oxidation products in rabbit plasma and tissues, on plasma paraoxonase activity, and on the extent of progression and regression of atherosclerotic lesions in the rabbit aorta. HBO treatment of cholesterol-fed rabbits dramatically reduces the development of arterial lesions despite having little or no effect on plasma or individual lipoprotein cholesterol concentrations. Compared with no treatment in cholesterol-fed animals, HBO treatment also substantially reduces the accumulation of lipid oxidation products (conjugated dienes, trienes, and thiobarbituric acid-reactive substances) in plasma, in the low density lipoprotein and high density lipoprotein fractions of plasma, in the liver, and in the aortic tissues. In addition, HBO treatment prevents the decrease in plasma paraoxonase activity observed in rabbits fed cholesterol-rich diets. Similarly, in regression studies, HBO treatment has no effect on the rate of plasma (or lipoprotein) cholesterol decline but significantly accelerates aortic lesion regression compared with no treatment. Direct measures of aortic cholesterol content support these morphological observations. On the basis of these results, we conclude that repeated, but relatively short, exposure to HBO induces an antioxidant defense mechanism(s) that is responsible for retarding the development or accelerating the regression of atherosclerotic lesions.

Extracellular Superoxide Dismutase Inhibits Innate Immune Responses and Clearance of an Intracellular Bacterial Infection

Reactive oxygen species and reactive nitrogen species play important roles during immune responses to bacterial pathogens. Extracellular superoxide dismutase (ecSOD) regulates extracellular concentrations of reactive oxygen species and reactive nitrogen species and contributes to tissue protection during inflammatory insults. The participation of ecSOD in immune responses seems therefore intuitive, yet is poorly understood. In the current study, we used mice with varying levels of ecSOD activity to investigate the involvement of this enzyme in immune responses against Listeria monocytogenes. Surprisingly, our data demonstrate that despite enhanced neutrophil recruitment to the liver, ecSOD activity negatively affected host survival and bacterial clearance. Increased ecSOD activity was accompanied by decreased colocalization of neutrophils with bacteria, as well as increased neutrophil apoptosis, which reduced overall and neutrophil-specific TNF-α production. Liver leukocytes from mice lacking ecSOD produced equivalent NO· compared with liver leukocytes from mice expressing ecSOD. However, during infection, there were higher levels of peroxynitrite (NO3·−) in livers from mice lacking ecSOD compared with livers from mice expressing ecSOD. Neutrophil depletion studies revealed that high levels of ecSOD activity resulted in neutrophils with limited protective capacity, whereas neutrophils from mice lacking ecSOD provided superior protection compared with neutrophils from wild-type mice. Taken together, our data demonstrate that ecSOD activity reduces innate immune responses during bacterial infection and provides a potential target for therapeutic intervention.

Hyperbaric oxygen treatment attenuates the pro-inflammatory and immune responses in apolipoprotein E knockout mice

Chronic hyperbaric oxygen (HBO) therapy significantly attenuates atherosclerosis in New Zealand white rabbits as well as the apoE knockout (KO) mice, independent of plasma lipid concentrations and lipoprotein profiles. Because atherosclerosis has many features of a chronic inflammatory disease, in which both cell-mediated and humoral immune responses participate, we examined the effect of HBO treatment on various aspects of the immune response. We now demonstrate that in apoE KO mice, HBO treatment significantly reduces the circulating levels of antibodies to (MDA)LDL, both in the IgG and IgM class, as well as the delayed-type hypersensitivity (DTH) response to oxLDL challenge. Furthermore, HBO treatment results in a profound attenuation in the production of pro-inflammatory cytokines in response to an inflammatory stimulus (LPS), which is accompanied by a marked increase in the constitutive production of the anti-inflammatory cytokine IL-10 by spleen cells, independent of antigen specificity, as indicated by polyclonal activation of T cells. Our results demonstrate that HBO treatment results in the dampening of T and B cell-mediated responses to oxLDL or inflammatory stimuli.

High cholesterol diet down regulates the activity of activator protein-1 but not nuclear factor-kappa B in rabbit brain.

Cardiovascular risk factors and alterations in cholesterol metabolism are implicated in the pathogenesis of Alzheimers dementia (AD). The hypercholesterolemic rabbit model of atheroslerosis and AD was utilized in this study to examine oxidative stress related changes in the brain. The high cholesterol diet induced dramatic increases in plasma and liver cholesterol concentrations, but brain cholesterol levels remained constant. Similar effects have been found regarding lipid oxidation products. The amounts of conjugated dienes, trienes and thiobarbituric acid reactive substances (TBARS) significantly increased in the plasma of cholesterol treated animals while the brain cortex showed no signs of increased lipid peroxidation. The oxidative damage sensitive nuclear transcription factor kappa B (NF-kappaB) and activator protein-1 (AP-1) diverged in their responses. Accordingly, the AP-1 DNA binding activity decreased by more than 50% in brain nuclear protein extracts while the NF-kappaB binding activity remained unaltered by the hypercholesterol diet. These results indicate that despite the relative resistance of the central nervous system to dietary manipulation of its lipid composition and lipid peroxidation products, chronic dietary intake of cholesterol can alter the function of certain proteins involved in regulation of gene expression in the brain.

Interstitial fluid (peripheral lymph) lipoproteins

Publisher Summary This chapter discusses the studies of interstitial fluid lipoproteins and their metabolism may provide the important link between tissue culture studies and in vivo studies of plasma lipoprotein metabolism. Perinodal peripheral lymph is an accepted model of interstitial fluid. The chapter also presents techniques, which allow collection of perinodal peripheral lymph in quantities sufficient for analytical or metabolic studies of interstitial fluid. The dog as an experimental model offers advantages in ease of surgical procedures, quantities of fluid obtained, and a well-characterized plasma lipoprotein profile. The experimental designs and data presented are examples of the potentially important information that can be obtained from studies of peripheral (or deep muscle) lymph lipoproteins. The chapter provides a link between studies on plasma lipoprotein metabolism and tissue culture studies using peripheral cell cultures (such as macrophage, smooth muscle cells, or endothelial cells) and thus provide an important contribution to the understanding of the function of lipoproteins.

Extracellular superoxide dismutase polymorphism in mice

Objective—In this study, we describe a previously unrecognized murine extracellular superoxide dismutase (ecSOD) allele and examine its distribution among various strains and its effect on the ecSOD phenotype. Methods and Results—Polymerase chain reaction analysis of genomic and cDNA from apolipoprotein E/LDLR−/− mice indicates the presence of 2 distinct transcripts for this enzyme independent of the extent of atherosclerosis or age. Sequencing and genotyping analyses reveal the presence of 2 alleles for ecSOD. One is a short variant with a 10-base pair deletion in the 3′UTR, accompanied by a single nucleotide substitution (position 61) found in the 129P3/J strain of mice. By contrast, all other strains examined carry the long form. Both free and heparin-releasable ecSOD activities in the 129P3/J strain are more than 3-fold higher than those in the C57Bl/6 mice. Corresponding differences in plasma enzyme mass are observed by immunoblotting. A clear allele dose effect can be observed in F2 hybrids of these 2 strains; free and total ecSOD activities in mice homozygous for the short allele are twice those of mice homozygous for the long allele, with the heterozygote values in between. Conclusions—These data clearly demonstrate the allele-specific effects on the ecSOD phenotype independent of other strain-specific factors and underline the need for backcrossing of genetically modified mice.

Extracellular Superoxide Dismutase Enhances Recruitment of Immature Neutrophils to the Liver.

ABSTRACT Listeria monocytogenes is a Gram-positive intracellular pathogen that causes spontaneous abortion in pregnant women, as well as septicemia, meningitis, and gastroenteritis, primarily in immunocompromised individuals. Although L. monocytogenes can usually be effectively treated with antibiotics, there is still around a 25% mortality rate with individuals who develop clinical listeriosis. Neutrophils are innate immune cells required for the clearance of pathogenic organisms, including L. monocytogenes. The diverse roles of neutrophils during both infectious and noninfectious inflammation have recently gained much attention. However, the impact of reactive oxygen species, and the enzymes that control their production, on neutrophil recruitment and function is not well understood. Using congenic mice with varying levels of extracellular superoxide dismutase (ecSOD) activity, we have recently shown that the presence of ecSOD decreases clearance of L. monocytogenes while increasing the recruitment of neutrophils that are not protective in the liver. The data presented here show that ecSOD activity does not lead to a cell-intrinsic increase in neutrophil-homing potential or a decrease in protection against L. monocytogenes. Instead, ecSOD activity enhances the production of neutrophil-attracting factors and protects hyaluronic acid (HA) from damage. Furthermore, neutrophils from the livers of ecSOD-expressing mice have decreased intracellular and surface-bound myeloperoxidase, are less capable of killing phagocytosed L. monocytogenes, and have decreased oxidative burst. Collectively, our data reveal that ecSOD activity modulates neutrophil recruitment and function in a cell-extrinsic fashion, highlighting the importance of the enzyme in protecting tissues from oxidative damage.

Fatty acids alter time dependent loss of apolipoprotein E expression by primary cultures of rat hepatocytes

Although the phenomenon of intracellular apolipoprotein E (apoE) degradation has been reported in other cell types, the fate of newly synthesized apoE in the liver is not well understood. In the present study, we examined the expression (the balance of synthesis, secretion, and degradation) of apoE in primary cultures of rat hepatocytes and compared it with albumin, a typical secretory protein. Synthesis and secretion of [(35)S]apoE was diminished in primary hepatocytes cultured for more than 2 days, in agreement with an observed decrease in apoE mRNA. Cells cultured for 1 day and labeled for up to 4 hours secreted total protein, apoE, and albumin, linearly. The apparent rates of synthesis for apoE and albumin were similar (1,158 vs. 1,334 dpm/mg/min) but rates of their secretion differed significantly (225 vs. 1,159 dpm/mg/min). Pulse-chase experiments indicated that cell-associated [(35)S]albumin was secreted without degradation, whereas significant quantities of newly synthesized apoE were degraded. The overall synthesis and secretion of total proteins, including secretion of apoE, was enhanced by oleic acid (1 mmol/L). However, this effect may not be limited to oleic acid because other fatty acids showed a similar effect on apoE mRNA abundance. In control cells, apoE was found to associate with high density lipoproteins predominantly, although the fraction associated with very low density lipoprotein was increased in hepatocytes incubated with oleic acid. Overall, the findings from this study suggest that the level of apoE expression by primary hepatocytes is dependent on the age of the culture. The study also indicates that the phenomenon of apoE degradation occurs in primary hepatocytes.