1,721,045 research outputs found
Studies on the NADPH oxidation by subcellular particles from phagocytosing polymorphonuclear leucocytes: evidence for the involvement of three mechanisms
No full text1. The NADPH-oxidizing activity of a 100 000 X g particulate fraction of the postnuclear supernatant obtained frm guinea-pig phagocytosing poymorphonuclear leucocytes has been assayed by simultaneous determination of oxygen consumption, NADPH oxidation and O2- generation at pH 5.5 and 7.0 and with 0.15 mM and 1 mM NADPH. 2. The measurements of oxygen consumption and NADPH oxidation gave comparable results. The stoichiometry between the oxygen consumed and the NADPH oxidized was 1:1. 3. A markedly lower enzymatic activity was observed, under all the experimental conditions used, when the O2- generation assay was employed as compared to the assays of oxygen uptake and NADPH oxidation. 4. The explanation of this difference came from the analysis of the effect of superoxide dismutase and of cytochrome c which removes O2- formed during the oxidation of NADPH. 5. Both superoxide dismutase and cytochrome c inhibited the NADPH-oxidizing reactin at pH 5.5. The inhibition was higher with 1 mM NADPH than with 0.15 mM NADPH. 6. Both superoxide dismutase and cytochrome c inhibited the NADPH-oxidizing reaction at pH 7.0 with 1 mM NADPH but less than at pH 5.5 with 1 mM NADPH. 7. The effect of superoxide dismutase at pH 7.0 with 0.15 mM NADPH was negligible. 8. In all instances the inhibitory effect of cytochrome c was greater than that of superoxide dismutase. 9. It was concluded that the NADPH-oxidizing reaction studied here is made up of three components: an enzymatic univalent reduction of O2; an enzymatic, apparently non-univalent, O2 reduction and a non-enzymatic chain reaction. 10. These three components are variably and independently affected by the experimental conditions used. For example, the chain reaction is freely operative at pH 5.5 with 1 mM NADPH but is almost absent at pH 7.0 with 0.15 mM NADPH, whereas the univalent reduction of O2 is optimal at pH 7.0 with 1 mM NADPH
A dual effect of L-1-tosylamide-2-phenylethyl chloromethyl ketone on the respiratory metabolism of guinea pig phagocytes
No full textpubblicato su:
Title(s):
Bulletin européen de physiopathologie respiratoire.
Other Title(s):
Clinical respiratory physiology, 1980-1987
Clinical respiratory physiology
Continues:
Bulletin de physio-pathologie respiratoire
Merged To :
European journal of respiratory diseases
European respiratory journa
Activation of oxygen metabolism in polymorphonuclear leucocytes : activity of soluble and membrane bound NADPH and NADH oxidases
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Evidence that TNF-induced respiratory burst of adherent PMN is mediated by integrin alpha(L)beta(2).
No full textPolymorphonuclear leukocytes (PMN) respond to tumor necrosis factor (TNF) with a respiratory burst (RB) only after adherence to surfaces coated with extracellular matrix proteins such as fibronectin and fibrinogen (permissive substrates) but not with others such as laminin or collagen (nonpermissive substrates). As PMN adherence to both types of surfaces is dependent on beta(2) integrins, we investigated the molecular basis of the different metabolic response to TNF. In particular, we evaluated the relative role of each beta(2) integrin (alpha(L)beta(2), alpha(M)beta(2), and alpha(X)beta(2)) in adherence and O(2)(-) production of PMN residing on fibronectin- and laminin-coated surfaces, which were considered as models of permissive and nonpermissive surfaces, respectively. By using alpha chain-specific monoclonal antibodies (mAb), we show that alpha(M)beta(2) and alpha(X)beta(2) mediate adherence to fibronectin and laminin; alpha(L)beta(2) is not involved in adherence to laminin and has only a minimal contribution in adherence to fibronectin. Furthermore, production of O(2)(-) in response to TNF was induced by immobilized anti-alpha(L)beta(2) but not anti-alpha(M)beta(2) or anti-alpha(X)beta(2) mAb. A strong correlation was also found between expression of alpha(L)beta(2) and TNF-induced RB on fibronectin. Lastly, PMN responded to TNF on laminin with a RB after the inclusion of alpha(L)-specific mAb in the laminin coat. Thus, we conclude that TNF-induced RB by PMN residing on fibronectin is mediated by alpha(L)beta(2) and that alpha(M)beta(2) and alpha(X)beta(2) are likely to play an ancillary role to the signaling activity of alpha(L)beta(2) by facilitating its recruitment to sites of adherence. The nonpermissiveness of laminin appears to be a consequence of its inability to act as a ligand for alpha(L)beta(2
The respiratory burst of phagocytic cells: facts and problems
No full text1. The so called "soluble" oxidase(s) are not involved in the respiratory burst of guinea pig and human granulocytes and of guinea pig peritoneal resident and elicited macrophages. 2. The activation of the oxidation of NADPH by a membrane bound NAD(P)H oxidase is the main mechanism responsible for the activation of the respiration of phagocytes. 3. The oxidase is inactive in resting cells and the activated form works on the plasma membrane. 4. More than one mechanism is operative in the oxidation of NAD(P)H by cell free particles in vitro. These mechanisms vary in relation to the conditions of assay (pH and concentration of substrate). 5. Under optimal conditions in vitro the enzymatic oxidation of NADPH practically involves the univalent pathway of oxygen reduction with stoichiometry of two nanomoles of O2 formed for one nanomole of NADPH oxidized. 6. Also in intact cells all O2 is first univalently reduced to O2 and then discharged outside the cell or in the phagocytic vacuoles. 7. The main reactions involved in the O2 balance in intact cells are the univalent reduction of O2, the dismutation of O2 to H2O2 and the degradation of the peroxide through catalatic and peroxidatic mechanisms. 8. The total oxygen univalently reduced by the activated oxidase is 2-4 folds the net oxygen consumed by the cells, depending on the mechanism of H2O2 degradation. 9. All the rate of extrarespiration is accounted for by the rate of oxidation of physiological concentration of NADPH by the membrane-bound enzyme. This adequacy can be observed only under appropriate experimental conditions, because the high activity of the oxidase is not a permanent state
Correlation between phagocytic activity and metabolic response of PMN towards different strains of Escherichia coli.
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Free radicals generation by the inflammatory cells
No full textOne of the most impressive property of the leucocytes is that of changing the oxidative metabolism during various functions. When challenged with phagocytosable particles or with membrane perturbing agents such as chemotactic factors, detergents, lectins and other ligands, granulocytes and mononuclear phagocytes undergo a dramatic increase of oxygen consumption which is associated with the production of superoxide anion (O-2), of hydrogen peroxide (H2O2) and of hydroxyl radical (OH.). These events are referred to as "respiratory burst' . Most of the functions of the inflammatory cells (killing of micro-organisms, tissue damage, amplification of the inflammatory process) are linked to the production, to the fate and to the chemical reactivity of these highly reactive compounds. The authors examine the following aspects: (i) the mechanism responsible for the respiratory burst; (ii) the conditions present in the inflammatory site that induces the metabolic activation of leucocytes; (iii) the variability of the respiratory burst in different types of leucocytes; (iv) the fate, the interrelationships and the reactivity of the intermediate products of oxygen reduction; (v) the relationships between the inflammatory process and the production of free radicals by the inflammatory cells
Heterogeneity in the distribution and morphology of microglia in the normal adult mouse brain
No full textWe have examined the distribution of microglia in the normal adult mouse brain using immunocytochemical detection of the macrophage specific plasma membrane glycoprotein F4/80. We were interested to learn whether the distribution of microglia in the adult brain is related to regional variation in the magnitude of cell death during development and resulting monocyte recruitment, or whether the adult distribution is influenced by other local microenvironmental cues. We further investigated the possibility that microglia are sensitive to their microenvironment by studying their morphology in different brain regions. Microglia are present in large numbers in all major divisions of the brain but are not uniformly distributed. There is a more than five-fold variation in the density of immunostained microglial processes between different regions. More microglia are found in gray matter than white. Particularly, densely populated areas include the hippocampus, olfactory telencephalon, basal ganglia and substantia nigra. In comparison, the less densely populated areas include fibre tracts, cerebellum and much of the brainstem. The cerebral cortex, thalamus and hypothalamus have average cell densities. There was no simple relationship between the amount of developmental cell death and the adult distribution of microglia. An estimate of the total number of microglia in the adult mouse brain, 3.5 × 106, is comparable to that found in the liver on a weight for weight basis. However, microglia possess up to twice the surface area of membrane of Kupffer cells, the large resident macrophages of the liver. The proportion of cells that were microglia varied from 5% in the cortex and corpus callosum, to 12% in the substantia nigra. Microglia vary in morphology depending on their location. They were broadly classified into three categories. Compact cells are rounded cells, sometimes with one or two short thick limbs, bearing short processes ("bristles"). They resemble Kupffer cells of the liver and are found exclusively in sites lacking a blood-brain barrier. Longitudinally branched cells are found in fibre tracts and possess several long processes which are usually aligned parallel to, or more occasionally perpendicular to, the longitudinal axis of the nerve fibres. Radially branched cells are found throughout the neuropil. They can be extremely elaborate and there is wide variation in the length and complexity of branching of the processes. There was no evidence of monocyte-like cells in the adult CNS. The systematic variation in microglial morphology provides further evidence that these cells are sensitive to their microenvironment.</p
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