Alessandra Mocali

A Sensitive Spectrophotometric Method for the Determination of Superoxide Dismutase Activity in Tissue Extracts

Superoxide dismutase (EC 1.15.1.1) has been assayed by a spectrophotometric method based on the inhibition of a superoxide-driven NADH oxidation. The assay consists of a purely chemical reaction sequence which involves EDTA, Mn(II), mercaptoethanol, and molecular oxygen, requiring neither auxiliary enzymes nor sophisticated equipment. The method is very flexible and rapid and is applicable with high sensitivity to the determination of both pure and crude superoxide dismutase preparations. The decrease of the rate of NADH oxidation is a function of enzyme concentration, and saturation levels are attainable. Fifty percent inhibition, corresponding to one unit of the enzyme, is produced by approximately 15 ng of pure superoxide dismutase. Experiments on rat liver cytosol have shown the specificity of the method for superoxide dismutase. Moreover, common cellular components do not interfere with the measurement, except for hemoglobin when present at relatively high concentrations. The assay is performed at physiological pH and is unaffected by catalase.

Determination of superoxide dismutase activity by purely chemical system based on NAD(P)H oxidation.

Publisher Summary This chapter discusses the superoxide dismutase (SOD) activity by purely chemical system based on nicotinamide adenine dinucleotide phosphate (NADPH) oxidation. Most of the currently employed methods for the assay of SOD activity in tissue extracts are based on the ability of these enzymes to inhibit a superoxide-driven reaction. The extent to which the rate of reaction is reduced can be taken as an indirect measurement of enzyme activity. The generation of superoxide can be achieved by either enzymatic or nonenzymatic systems; subsequently, a suitable detection method, whether colorimetric, polarographic, or luminometric, according to different approaches must be devised. Essential requirements for any assay are the sensitivity, reliability, and simplicity of the procedure so that it can be easily performed in the laboratory without the aid of expensive equipment and reagents. The chapter discusses method that allows the determination of minute amounts of SODs, such as 2 ng, that are far below the detection limit of most employed methods. Moreover, the usual detectors like nitro blue tetrazolium (NBT), cytochrome, or other chromogenic substrates, which are reduced by superoxide, might also be electron acceptors for reducing agents known to occur in biological samples. This fact will explain the difficulties, often encountered with these assays, in attaining saturation levels and reproducible titration curves. The method described in the chapter relies on the oxidation of NADPH, and this makes the detection less prone to interferences by aspecific reduction from cellular components.

Increased plasma levels of soluble CD40, together with the decrease of TGFβ1, as possible differential markers of Alzheimer disease

Alzheimers disease (AD) is a progressive neurodegenerative illness and the most frequent cause of dementia in the elderly. The identification of activated microglia within neuritic plaques, coupled with the presence of numerous inflammatory proteins, suggests that inflammation is an integral part of the pathogenetic process in AD. In the present paper we have investigated the levels of circulating inflammatory mediators as potential AD biomarkers concentrating essentially on (a) soluble CD40 (sCD40), a member of the tumor necrosis factor receptor superfamily lacking the membrane-associated endodomain by alternative splicing, and (b) transforming growth factor (TGF)-beta 1, a cytokine deeply involved in AD and playing a protective role on CNS. Decrease of TGF-beta1 in AD patients could enhance the effects of pro-inflammatory cytokines produced by activated microglia as well as the expression of factors, such as the CD40/CD40 ligand complex, by microglia and astrocytes. Total venous blood samples were obtained from 33 patients with clinical diagnosis of possible late-onset AD, 40 healthy age-matched and 11 healthy young individuals. A significant increase of sCD40 levels plasma of AD patients versus healthy controls was measured, concomitantly with a decrease in TGF-beta1 concentration. These variations, however, showed no correlation with the expression of ApoE epsilon 4 allele, which was determined in order to assess the different frequency of this risk factor between AD and control groups. Since no comparable modifications were detected in patients affected by Parkinsons disease or non-AD-based dementia, we propose that sCD40 and TGF-beta1 plasma levels might represent possible differential biomarkers of AD, and be useful pre-mortem to support the clinical diagnosis of late-onset AD.

Protective Effects of Resveratrol Against Senescence-Associated Changes in Cultured Human Fibroblasts

Recent research has focused on natural compounds possibly endowed with antiaging effects. Resveratrol is a stilbene compound produced by different plants with many biologic activities, including an antiaging effect, which has been demonstrated both in vitro in eukaryotic cells and in vivo in mice. We studied the effect of resveratrol on cultured human MRC5 fibroblasts, a widely used in vitro model in aging studies. The chronic treatment of MRC5 cells until senescence with 5 μM resveratrol induced a small increase in the total number of replications completed by the cultures at senescence, showed protective effects against DNA oxidative damage, and reduced senescence-associated increases in nuclear size and DNA content. A reduction in the levels of acetylated forms of H3 and H4 histones and p53 protein was also found.

Altered cholesterol ester cycle in skin fibroblasts from patients with Alzheimer's disease.

Intracellular cholesterol metabolism was reported to modulate amyloid-beta (Abeta) generation in Alzheimers disease (AD). Results presented herein demonstrated that, like brain cells, cultured skin fibroblasts from AD patients contained more cholesterol esters than fibroblasts from healthy subjects. Particularly, Oil Red-O, Nile Red, and filipin staining highlighted higher levels of neutral lipids which responded to inhibitors of acyl-coenzyme A:cholesterol acyl-transferase (ACAT-1), associated with an increase in free cholesterol. ACAT-1 mRNA levels increased significantly in AD fibroblasts, whereas those of sterol regulatory element binding protein-2, neutral cholesterol ester hydrolase, and ATP-binding cassette transporter member 1 were markedly down-regulated. Instead, mRNA levels of low-density lipoprotein receptor, hydroxy-methyl-glutaryl-coenzyme A reductase, caveolin-1, and amyloid-beta protein precursor (AbetaPP) were virtually unchanged. Notably, mRNA levels of both beta-site AbetaPP-cleaving enzyme 1 (BACE1) and neprilysin were significantly down-regulated. An increase in Abeta(40) and Abeta(42) immunostaining and a decrease in BACE1 active form were also found in AD versus control fibroblasts. Altogether, these findings support the hypothesis that the derangement of cholesterol homeostasis is a systemic alteration involving central but also peripheral cells of AD patients, and point to cholesterol ester levels in AD fibroblasts as an additional metabolic hallmark useful in the laboratory and clinical practice.

Accumulation of neutral lipids in peripheral blood mononuclear cells as a distinctive trait of Alzheimer patients and asymptomatic subjects at risk of disease

BackgroundAlzheimers disease is the most common progressive neurodegenerative disease. In recent years, numerous progresses in the discovery of novel Alzheimers disease molecular biomarkers in brain as well as in biological fluids have been made. Among them, those involving lipid metabolism are emerging as potential candidates. In particular, an accumulation of neutral lipids was recently found by us in skin fibroblasts from Alzheimers disease patients. Therefore, with the aim to assess whether peripheral alterations in cholesterol homeostasis might be relevant in Alzheimers disease development and progression, in the present study we analyzed lipid metabolism in plasma and peripheral blood mononuclear cells from Alzheimers disease patients and from their first-degree relatives.MethodsBlood samples were obtained from 93 patients with probable Alzheimers disease and from 91 of their first-degree relatives. As controls we utilized 57, cognitively normal, over-65 year-old volunteers and 113 blood donors aged 21-66 years, respectively. Data are reported as mean ± standard error. Statistical calculations were performed using the statistical analysis software Origin 8.0 version. Data analysis was done using the Student t-test and the Pearson test.ResultsData reported here show high neutral lipid levels and increased ACAT-1 protein in about 85% of peripheral blood mononuclear cells freshly isolated (ex vivo) from patients with probable sporadic Alzheimers disease compared to about 7% of cognitively normal age-matched controls. A significant reduction in high density lipoprotein-cholesterol levels in plasma from Alzheimers disease blood samples was also observed. Additionally, correlation analyses reveal a negative correlation between high density lipoprotein-cholesterol and cognitive capacity, as determined by Mini Mental State Examination, as well as between high density lipoprotein-cholesterol and neutral lipid accumulation. We observed great variability in the neutral lipid-peripheral blood mononuclear cells data and in plasma lipid analysis of the subjects enrolled as Alzheimers disease-first-degree relatives. However, about 30% of them tend to display a peripheral metabolic cholesterol pattern similar to that exhibited by Alzheimers disease patients.ConclusionWe suggest that neutral lipid-peripheral blood mononuclear cells and plasma high density lipoprotein-cholesterol determinations might be of interest to outline a distinctive metabolic profile applying to both Alzheimers disease patients and asymptomatic subjects at higher risk of disease.

Comparative levels of DNA breaks and sensitivity to oxidative stress in aged and senescent human fibroblasts: a distinctive pattern for centenarians.

Basal and H2O2-induced DNA breaks as well as DNA repair activity and efficacy of the antioxygenic system were determined in human dermal fibroblasts explanted from either (i) young donors and passaged serially to reach replicative senescence or (ii) young, old and centenarian donors and shortly propagated in culture. These fibroblasts have been employed as an in vitro and ex vivo model, respectively, to evaluate comparatively DNA integrity during senescence (increasing population doubling levels) and aging (increasing donor age). Constitutive levels of DNA total strand breaks, as determined by the alkaline extraction procedure, changed moderately among the different cell lines, which exhibited, however, significant differences in the amount of either single or double strand breaks. The former decreased along with both aging and senescence; the latter augmented during senescence while being virtually steady during aging. Moreover, fibroblasts from centenarians showed to be less sensitive to H2O2-induced DNA damage than otherex vivo fibroblasts. This feature could not account for either increased DNA repair activity or higher efficacy of the antioxygenic system and pointed, instead, to an intrinsic nuclear stability which might be typical of centenarian fibroblasts and potentially functional to longevity.

CYSTEINE PROTEINASES ARE RESPONSIBLE FOR CHARACTERISTIC TRANSKETOLASE ALTERATIONS IN ALZHEIMER FIBROBLASTS

Cultured fibroblasts from patients affected by Alzheimers disease (AD) exhibited peculiar alterations of the enzyme transketolase (TK). Abnormalities (dubbed alkaline bands, ab) consisted of enzyme forms having unusually high pI and were proposed as a marker of the disease in living patients. The mechanisms of TK‐ab expression were investigated with the use of cysteine proteinase inhibitors and purified preparations of either rat liver or human cysteine proteinases. The cysteine proteinase inhibitors N‐acetyl‐leu‐leu‐norleucinal (ALLN), L‐trans‐Epoxy‐succinyl‐leucylamido(4‐guanidino)butane (E‐64), and egg white cystatin added to AD cells just prior to extraction abolished TK abnormalities. Moreover, 1 day incubation of AD cultures with either ALLN (10 μg/ml), NH4Cl (10 mM), or KCl (30 mM) prevented TK‐ab generation, due, presumably, to an impairment of lysosomal functions. Isolated rat liver cysteine proteinases were able to degrade TK in normal extracts and reproduce the characteristic TK‐ab of AD fibroblasts. Moreover, pure human cathepsin H was also shown to partially induce an Alzheimer‐like TK pattern and cleave normal TK to a 35 kDa fragment as spontaneously occurring in AD fibroblasts. The explanation of mechanisms of TK‐ab formation provided evidence for an underlying imbalance of proteolysis in AD fibroblasts due to a relative increase/derangement of the cysteine proteinases cathepsins which might be also involved in the reported abnormal processing of multiple cellular components. J. Cell. Physiol. 172:63–68, 1997.

Superoxide-driven NAD(P)H oxidation induced by EDTA-manganese complex and mercaptoethanol.

A purely chemical system for NAD(P)H oxidation to biologically active NAD(P)+ has been developed and characterized. Suitable amounts of EDTA, manganous ions and mercaptoethanol, combined at physiological pH, induce nucleotide oxidation through a chain length also involving molecular oxygen, which eventually undergoes quantitative reduction to hydrogen peroxide. Mn2+ is specifically required for activity, while both EDTA and mercaptoethanol can be replaced by analogs. Optimal molar ratios of chelator/metal ion (2:1) yield an active coordination compound which catalyzes thiol autoxidation to thiyl radical. The latter is further oxidized to disulfide by molecular oxygen whose one-electron reduction generates superoxide radical. Superoxide dismutase (SOD) inhibits both thiol oxidation and oxygen consumption as well as oxidation of NAD(P)H if present in the mixture. A tentative scheme for the chain length occurring in the system is proposed according to stoichiometry of reactions involved. Two steps appear of special importance in nucleotide oxidation: (a) the supposed transient formation of NAD(P). from the reaction between NAD(P)H and thiyl radicals; (b) the oxidation of the reduced complex by superoxide to keep thiol oxidation cycling.

Chronic Resveratrol Treatment Ameliorates Cell Adhesion and Mitigates the Inflammatory Phenotype in Senescent Human Fibroblasts

We evaluated the effect of resveratrol on the senescence-associated secretory phenotype (SASP) and on adhesion-related processes in cultured human MRC5 fibroblasts. Presenescent cultures were chronically treated with or without 5 µM resveratrol. The development of SASP in MRC5 fibroblasts approaching senescence was significantly attenuated by resveratrol treatment, which reduced both gene expression and release of proinflammatory cytokines. Although to a lesser extent, 1 µM resveratrol proved to be effective on cytokine gene expression. Cell spreading capacity and plating efficiency were strikingly increased and accompanied by recovery of type I collagen expression to presenescent levels. As p16(INK4a) protein expression was not significantly modified, and based on our previous data, we propose that resveratrol does not affect fibroblast replicative senescence, but improves tissue maintenance and repair during normal cellular aging. Considering these low concentrations proved effective in vitro, translation of these data to human research on inflammation-related pathologies can be envisaged.