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Free cell formation

There are four modes of asexual reproduction, viz. Fission, Gemmation, Free Cell Formation and Rejuvenescence. [Pg.70]

Free Cell Formation.—This is a type of reproduction in which the nucleus and protoplasm become separated into two or more masses each of which forms a cell wall about itself. Seen in formation of ascospores within ascus of Ascomycetes and spores within spore cases of molds. [Pg.71]

Fig. 4-3 Schematic representation of the partial current densities in corrosion in free corrosion (a-c) and with cell formation with foreign cathodic structures (d). Fig. 4-3 Schematic representation of the partial current densities in corrosion in free corrosion (a-c) and with cell formation with foreign cathodic structures (d).
DOX, as EPI seems to form fewer amounts of ROS and secondary alcohol metabolite, (ii) encapsulation of anthracyclines in uncoated or pegylated liposomes that ensure a good drug delivery to the tumor but not to the heart, (iii) conjugation of anthracyclines with chemical moieties that are selectively recognized by the tumor cells, (iv) coadministration of dexrazoxane, an iron chelator that diminishes the disturbances of iron metabolism and free radical formation in the heart, and (v) administration of anthracyclines by slow infusion rather than 5-10 min bolus (Table 1). Pharmacological interventions with antioxidants have also been considered, but the available clinical studies do not attest to an efficacy of this strategy. [Pg.95]

High antioxidative activity carvedilol has been shown in isolated rat heart mitochondria [297] and in the protection against myocardial injury in postischemic rat hearts [281]. Carvedilol also preserved tissue GSL content and diminished peroxynitrite-induced tissue injury in hypercholesterolemic rabbits [298]. Habon et al. [299] showed that carvedilol significantly decreased the ischemia-reperfusion-stimulated free radical formation and lipid peroxidation in rat hearts. Very small I50 values have been obtained for the metabolite of carvedilol SB 211475 in the iron-ascorbate-initiated lipid peroxidation of brain homogenate (0.28 pmol D1), mouse macrophage-stimulated LDL oxidation (0.043 pmol I 1), the hydroxyl-initiated lipid peroxidation of bovine pulmonary artery endothelial cells (0.15 pmol U1), the cell damage measured by LDL release (0.16 pmol l-1), and the promotion of cell survival (0.13 pmol l-1) [300]. SB 211475 also inhibited superoxide production by PMA-stimulated human neutrophils. [Pg.885]

Some other examples of free radical formation in various pathologies are discussed below. (Of course, they are only few examples among many others, which can be found in literature.) Mitochondrial diseases are associated with superoxide overproduction [428] and cytochrome c release [429], For example, mitochondrial superoxide production apparently contributes to hippocampal pathology produced by kainate [430]. It has been found that erythrocytes from iron deficiency anemia are more susceptible to oxidative stress than normal cells but have a good capacity for recovery [431]. The beneficial effects of treatment of iron deficiency anemia with iron dextran and iron polymaltose complexes have been shown [432,433]. [Pg.945]

Dermal toxicity due to JP-8 may also be attributed to increased free radical formation that may be involved in the development of skin sensitization [45], Following dermal exposure to JP-8, increasing levels of oxidative species are observed [46], In vitro studies with rat lung epithelial cells demonstrated that JP-8-induced cell death is inhibited by exogenous glutathione or the thiol-containing antioxidant N-acetyl-cysteine... [Pg.229]

How does UV-induced free radical formation activate immune suppression Some have suggested that UV-induced cytokine production is involved. Because both DNA damage and oxidative stress can activate transcription of the cytokines that activate immune suppression,23>24one of the problems faced by investigators in the field was to divorce the effects of DNA damage from membrane oxidation. One approach was to look at the activation of transcription factors in UV-irradiated enucleated cells. Devary and colleagues25 observed that both NF-kB and AP-1 were activated in enucleated... [Pg.262]

As seen in equations (32)-(34), the forward adsorptive flux depends upon the concentration of free cell surface carriers. Unfortunately, there is only limited information in the literature on determinations of carrier concentrations for the uptake of trace metals. In principle, graphical and numerical methods can be used to determine carrier numbers and the equilibrium constant, As, corresponding to the formation of M — Rcen following measurement of [M] and (M —Rceii. For example, a (Scatchard) plot of (M — RCeii /[M] versus (M — RCeii should yield a straight line with a slope equal to the reciprocal of the dissociation constant and abscissa-intercept equal to the total carrier numbers (e.g. [186]). [Pg.476]

Erdmann K, Grosser N, Schipporeit K, Schroder H. (2006) The ACE inhibitory dipeptide Met-Tyr diminishes free radical formation in human endothehal cells via induction of heme oxygenase-1 and ferritin. J Nutr 136 2148-2152. [Pg.219]

Detection of Radical Anion by ESR Spectroscopy. The ESR measurements of the rate of free radical formation by electron transfer from fluorene to nitroaromatics were obtained by use of the flow system and U-type mixing cells described previously (18, 20). Concentrations were estimated by comparison of the total area of overmodulated first-derivative spectra with solutions of diphenylpicrylhydrazyl under identical solvent and instrumental conditions. Relative concentrations within a given experiment are considered accurate to within a few per cent, while absolute concentrations are considered to be accurate to 30%. [Pg.211]

The anthracycline antibiotics, which include doxorubicin, daunorubicin, bleomycin, and mitomycin C, inhibit DNA and RNA synthesis. Doxorubicin also interfers with topoisomerase II (a DNA gyrase), the activity of which is markedly increased in proliferating cells. Structurally related to doxorubicin are epirubicin and mitozantrone. The cytotoxic antibiotics are used to treat leukaemias and lymphomas and also for solid tumours in the breast, lung, thyroid and ovary. Cardiotoxicity is the major dose-limiting factor, with arrhythmias and myocardial depression (Bacon and Nuzzo 1993). The chronic phase of cardiotoxicity is a dose-dependent cardiomyopathy that leads to congestive heart failure in 2-10% of patients. Myocardial injury is the result of oxygen free radical formation. Children are particularly sensitive to these cardiotoxic reactions and may require a heart transplant in their later years. Epirubicin is less cardiotoxic than doxorubicin. [Pg.249]

What are the possible adverse consequences of accumulation of the A(3 protein It may cause inflammation by activation of microglia,1157 which may cause damage by release of NO.1206 A(3 may induce death of neurons by apoptosis.1201 1207-1209 A defect in protesomal degradation may be a factor.1208 Both Ap and the prion protein may promote oxidative damage. The brain derives most of its energy from oxidative metabolism, a major source of damaging radicals. Mitochondria are found in dendrites as well as cell bodies.1210 Methionine residues in glycine-rich parts of the AP and prion proteins are suspected as centers of free radical formation.1202 1211... [Pg.1814]

Wojcik A, Opalka B, Obe G (1999) Analysis of inversions and sister chromatide exchanges in chromosome 3 of human lymphocytes exposed to X-rays. Mutagenesis 14 633-637 Wojcik A, von Sonntag C, Obe G (2003) Application of the biotin-dUTP chromosome-labelling tech-nigue to study the role of 5-bromo-2 -deoxyuridine in the formation of UV-induced sister chromatid exchanges in CHO cells. J Photochem Photobiol B Biol 69 139-144 Wu JC, Kozarich JW, Stubbe J (1983) The mechanism of free base formation from DNA by bleomycin. J Biol Chem 258 4694-4697... [Pg.481]

Free radicals are formed in biochemical reactions providing organism cells with vital functions . Negative impact of various environmental factors may lead to excessive free radical formation and as a result to an... [Pg.655]

Hirai A, Kino T, Tokinaga K, Tahara K, Tamura Y, Yoshida S. Regulation of sterol carrier protein 2 (SCP2) gene expression in rat peritoneal macrophages during foam cell formation. A key role for free cholesterol content. J Clin Invest 1994 94 2215-2223. [Pg.104]

Sinha, B.K. et al. (1989) Adriamycin activation and oxygen free radical formation in human breast tumor cells protective role of glutathione peroxidase in adriamycin resistance, Cancer Res. 49, 3844-3848. [Pg.425]

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See also in sourсe #XX -- [ Pg.71 ]



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