Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026916 (MAC)
 5,226 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Volatile anesthetics inhibit phagocytic cell function, yet little is known about their effects on target tissues or on the target tissue response to stimulated phagocytes. Experiments were performed to determine how exposure to halothane and isoflurane changes rat pulmonary artery endothelial cell (RPAEC) viability in response to the toxic oxygen metabolites produced by stimulated phagocytic cells. RPAECs were grown in monolayer culture. The monolayers were treated with phorbol myristate acetate (PMA) -stimulated human neutrophils at an effector-to-target ratio of 20:1 after equilibration with 0.4% or 1.7% halothane or 0.7% or 2.8% isoflurane. As measured by percent-specific release of incorporated 51Cr label (mean +/- SE), cytotoxicity in the presence of 1.7% halothane (75.3 +/- 3.4%) was significantly greater (P less than 0.02) than cytotoxicity in 5% CO2 in air (44.7 +/- 3.3%) and in 0.4% halothane (57.3 +/- 4.7%). Also, cytotoxicity in 1.7% halothane was significantly greater than in 0.4% halothane (P less than 0.02). The authors found that RPAECs incubated in isoflurane exhibited significantly greater release of 51Cr than cells incubated in the MAC equivalent concentrations of halothane: 78.2 +/- 2.6% in 0.7% isoflurane (P = 0.0004) and 83.8 +/- 1% in 2.8% isoflurane (P = 0.005). Because early neutrophil cytotoxicity has been found to be mediated primarily by hydroxyl radical (HO.) and hydrogen peroxide (H2O2), the authors measured H2O2 production by similar numbers of PMA-stimulated neutrophils under similar exposure conditions. In carrier gas, PMA-stimulated neutrophils produced 20.5 +/- 1.3 nmol H2O2.10(6) cells-1.h-1. At the higher concentrations of halothane, H2O2 production actually was inhibited in comparison with carrier gas (15.4 +/- 1.4 nmol H2O2.10(6) cells-1.h-1 in 1.7% halothane and 16.8 +/- 0.8 in 2.8% halothane), but the degree of inhibition did not reach statistical significance. In isoflurane, however, H2O2 production was not different from that seen in carrier gas. In other experiments, the monolayers were treated with 0, 200, 500, and 1,000 microM H2O2 after equilibration with 0.4%, 1.7%, and 2.8% halothane or 0.7%, 2.8%, and 5% isoflurane in 5% CO2 in air. Efficiency of replating was used to measure degree of injury. Both halothane and isoflurane enhance the sensitivity of the RPAEC monolayers to injury by H2O2. The sensitizing effect of halothane was reversed by removing the anesthetic. Halothane and isoflurane thus enhance RPAEC sensitivity to injury by both H2O2 and PMA-stimulated neutrophils. In increasing RPAEC sensitivity to injury by oxygen metabolites, halothane and isoflurane may be inhibiting processes involved in intracellular antioxidant defenses.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Halothane and isoflurane increase pulmonary artery endothelial cell sensitivity to oxidant-mediated injury. 204 60

In this study, we evaluated the roles of reactive oxygen intermediates (ROI), reactive nitrogen intermediates (RNI), and free fatty acids (FFA) as effectors of the macrophage-mediated host defence mechanism against Mycobacterium avium complex (MAC). First, M. avium (three strains) and M. intracellulare (two strains) were treated with the H2O2-Fe2+-mediated halogenation system, acidified NaNO2-derived RNI, or FFA (linolenic acid) in sodium acetate buffer pH 5.5, and then counted for the number of residual colony-forming units (CFU) of organisms. Although these effectors exerted strong bactericidal activity against the MAC, the susceptibility of test organisms markedly varied from strain to strain. There was no significant relationship between the degree of resistance of a given MAC strain to these effectors and its virulence in mice, indicating that ROI, RNI, and FFA each alone are not decisive as the effector components of the host defence mechanism against the MAC. Second, the increase in ROI-producing ability in murine peritoneal macrophages due to tumour necrosis factor-alpha (TNF-alpha) treatment was not accompanied by parallel potentiation of anti-MAC activity of the same macrophage population. This excludes the possibility that ROI play a central role in macrophage-mediated killing and inhibition of MAC organisms. Third, anti-MAC activity of BAM3 macrophage cell line was not significantly attenuated by N(G)-monomethyl-L-arginine (NO synthase-inhibitor causing reduction of RNI production) or by quinacrine (phospholipase A2-inhibitor causing reduction of FFA release), indicating that RNI and FFA each alone do not play crucial roles in the expression of macrophage antimicrobial activity against the MAC. The present findings suggest important roles of collaborating actions of various antimicrobial effectors and/or the participation of other kinds of effectors in macrophage-mediated killing and inhibition of MAC organisms.
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PMID:Effector molecules of the host defence mechanism against Mycobacterium avium complex: the evidence showing that reactive oxygen intermediates, reactive nitrogen intermediates, and free fatty acids each alone are not decisive in expression of macrophage antimicrobial activity against the parasites. 927 19

We studied microbicidal activities of reactive nitrogen intermediates (RNI), free fatty acids (FFA), and reactive oxygen intermediates (ROI) against Mycobacterium avium complex (MAC) and the mode of macrophage (mphi) production of these effectors. (1) Intracellular growth of MAC in murine peritoneal mphis was accelerated by scavengers for ROI or RNI and inhibitors of nitric oxide synthase or phospholipase A2, indicating roles of ROI, RNI, and FFA in mphi anti-MAC functions. (2) Acidified NaNO2-derived RNI, FFA (linolenic and arachidonic acids), and the H2O2-mediated halogenation system exhibited a significant anti-MAC bactericidal activity. The combination of RNI with FFA showed a synergistic effect. However, the H2O2-halogenation system in combination with either RNI or FFA showed an antagonism. When Listeria monocytogenes (Lm) was used as a target organism, the combinations of RNI + FFA and RNI + H2O2-halogenation gave a synergistic effect, whereas FFA + H2O2-halogenation showed an antagonism in exerting bactericidal activity. In addition, when ROI generated by the xanthine oxidase-acetaldehyde system was combined with RNI, anti-Lm but not anti-MAC activity was potentiated. (3) ROI production by murine peritoneal mphis was observed immediately after contact with MAC organisms (MAC stimulation) and ceased within 2 h. FFA release was seen 1-24 h after MAC stimulation. RNI production was initiated from 3 h and increased during the first 36 h and continued at least for 4 days. These findings suggest that RNI and FFA rather than ROI are important effectors of anti-MAC functions of mphis, and the collaborating action of RNI with FFA temporarily participates in mphi-mediated killing of MAC in the relatively early phase after MAC stimulation.
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PMID:Effector molecules in expression of the antimicrobial activity of macrophages against Mycobacterium avium complex: roles of reactive nitrogen intermediates, reactive oxygen intermediates, and free fatty acids. 940 Aug 21

In order to know profiles of the antimicrobial action of some microbicidal effector molecules against Mycobacterium avium complex (MAC) and M. tuberculosis (MTB), profiles of collaborating effects among reactive nitrogen intermediates (RNI), free fatty acids (FFA), and reactive oxygen intermediates (ROI) were studied, RNI and FFA exerted synergistic effects in killing MAC and MTB, while the combination of ROI (H2O2-mediated halogenation system) with FFA conversely caused antagonism. The combination of RNI with ROI displayed additive effects in killing MTB, whereas the same combination showed antagonistic effects against MAC. Murine peritoneal macrophages (M phi s) produced and/or released these three antimicrobial effectors in the order ROI, FFA, and RNI in response to cellular stimulation induced by their contact with MAC or MTB organisms. These findings indicate that the collaborating effect of RNI with FFA is crucial for M phi-mediated intracellular killing of MAC and MTB. Secondly, we examined the modes of bacterial growth of MAC and MTB in murine peritoneal M phi s and A-549 type II alveolar epithelial cell line. The growth rate of these organisms was much larger in A-549 cells than in M phi s. In addition, the growth rate of high-virulence MAC (N-260 strain) was significantly larger than that of low-virulence MAC (N-444 strain), when they were residing in M phi or A-549 cells. Although a high virulence MTB (strain Kurono) also showed much more rapid growth in M phi s than did low-virulence MTB (strain H37Ra), such a phenomenon was not observed for their intracellular growth in A-549 cells. MTB exhibited strong cytotoxic effects against M phi s but not against A-549 cells when resided in these cells. On the other hand, MAC organisms did not cause cytotoxicity even in M phi s. Although MAC and MTB infections caused significant increase in RNI production by M phi s but not by A-549 cells, there was no significant relationship between the degree of M phi RNI production by a given mycobacterial organism and its virulence. These findings indicate some important roles of type II alveolar epithelial cells as a target cell for primary invasion and transient growth of mycobacterial organisms in the host lungs.
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PMID:[Nontuberculous mycobacteriosis; the present status and in the future. Mechanisms of host resistance to Mycobacterium avium complex and Mycobacterium tuberculosis infection]. 954 99

Acephate (AT) is an organophosphate (OP) insecticide. Due to their reputation for low environmental persistence, OP pesticides are often used indiscriminately resulting in detrimental exposure to humans and other nontarget species. Although the toxicity of OP compounds is primarily through blockade of neural transmission via inhibition of acetylcholinesterase, studies have revealed histopathological alterations in the renal proximal tubules, suggesting a role for additional mechanisms in renal toxicity. It is our hypothesis that Reactive Oxygen Species (ROS) may play a role in OP-induced renal tubular injury for the following reasoning. Renal tubular cells concentrate many nephrotoxic chemicals including OPs, and renal injury from many of these compounds has been shown to arise from excessive ROS production. Furthermore, it has been established that many phosphorothiolates, which are sulfur-containing OPs and constitute the class of OP compounds to which AT belongs, are S-oxidized to highly reactive intermediates within cells and tissues. Because of these considerations, we examined whether ROS play a role in OP-induced renal tubular epithelial cell (LLC-PK1) toxicity using AT as a prototype. AT produced a concentration- and time-dependent increase in cell damage in LLC-PK1 cells, measured by lactate dehydrogenase (LDH, % of total) leakage. The cytotoxicity (LDH) induced by 2500 ppm of AT over 72 h was significantly suppressed by antioxidants 2-methylaminochroman (2-MAC) and desferrioxamine (DFO). H2O2 levels were significantly elevated following exposure of LLC-PK1 cells to 2500 ppm of AT. Malondialdehyde (MDA) formation was also significantly increased in AT-exposed cells compared to the control cells, indicating the occurrence of enhanced lipid peroxidation. 2-MAC and DFO, in addition to providing cytoprotection, inhibited AT-induced MDA generation in a significant and concentration-dependent manner. Results from this study, which is the first to explore the toxic effects of AT on renal tubular cells, demonstrate that toxic action of AT on kidney cells is partly through an ROS-mediated mechanism. Based on these direct in vitro findings, we further hypothesize that oxidant stress may play a role in the pathogenesis of AT-induced acute tubular necrosis and renal dysfunction observed in cases of AT overdoses.
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PMID:Role of oxidant stress and antioxidant protection in acephate-induced renal tubular cytotoxicity. 1004 44

Due to low toxicity to nontarget species and rapid degradation after its application, organophosphate (OP) remains a widely used class of pesticide. Suicidal or accidental overdose of OP can result in acute tubular necrosis. Experimental evidence shows little correlation between the renal tubular necrosis and the degree of OP-induced acetylcholinesterase inhibition, the main mechanism of OP's toxicity, suggesting the involvement of alternate mechanisms. Since reactive oxygen species (ROS) are known mediators of many toxin-induced renal injuries, this study was conducted to investigate whether ROS play a role in Bidrin (BD)-induced renal tubular epithelial cell (LLC-PK1) toxicity. BD is an OP insecticide formulation with dicrotophos as the active ingredient. LLC-PK1 cell death, determined by lactate dehydrogenase (LDH) release (% of total), rose concentration- and time-dependently after exposure of the cells to 1000, 1250, 1500, 1750, and 2000 ppm of BD for 6, 12, 24, and 48 h. Antioxidants 2-methylaminochroman (2-MAC; 0.3 to 2.5 microM) and desferrioxamine (DFO; 0.25 to 2 mM) reduced cell damage induced by 1250 ppm of BD over a 24-h incubation in a concentration-related manner. The greatest reductions in % LDH were produced by DFO 2 mM and 2-MAC 2.5 microM, both significantly lower than BD alone. H2O2 levels (micromol/mg protein per h) were significantly elevated after exposure to 1250 ppm of BD. Significantly increased malondialdehyde formation (nmol/mg protein) compared with control was also found in BD-exposed cells indicating enhanced lipid peroxidation. Malondialdehyde generation was significantly suppressed by 2-MAC and DFO. These results demonstrate that the organophosphate BD can cause direct tubular cytotoxicity, and implicate, at least in part, a role for ROS and accompanying lipid peroxidation in cytotoxicity. Based on these direct in vitro findings, it is hypothesized that, besides hypotension that often accompanies OP intoxication, OP-induced oxidative stress at the tubular level may play a role in the pathogenesis of acute tubular necrosis.
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PMID:Role of reactive oxygen metabolites in organophosphate-bidrin-induced renal tubular cytotoxicity. 1044 42

There has not yet been systematic studies which attempt to elucidate detailed profiles of the interaction between antimicrobial drugs and macrophage microbicidal mechanisms. We examined the effects of antisense oligo DNAs (AsDNAs) against oxyR and ahpC on the susceptibility of Mycobacterium avium complex (MAC) to the H2O2-halogenation system and combined antimycobacterial drugs [clarithromycin (CAM) + rifampicin (RFP)], both separately and in combination. It was found that AsDNA treatment of MAC did not affect the susceptibility of the organisms to any of the antimicrobial systems tested. Since the present AsDNAs did not efficiently reduce the expression of AhpC mRNA, attempts to increase bacterial uptake of AsDNAs are necessary to achieve significant increase in the drug susceptibility of MAC organisms due to AsDNA treatment.
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PMID:[Effects of antisense oligo DNA on the antimicrobial activity of reactive oxygen intermediates and antimycobacterial agents against Mycobacterium avium complex]. 1265 4

Hydroxyproline-rich glycoproteins (HRGPs) are important plant cell wall structural components, which are also involved in response to pathogen attack. In pearl millet, deposition and cross-linking of HRGPs in plant cell walls was shown to contribute to the formation of resistance barriers against the phytopathogenic oomycete Sclerospora graminicola. In the present study, the purification and characterization of HRGPs that accumulated in coleoptiles of pearl millet seedlings in response to S. graminicola inoculation has been carried out. Periodic acid Schiff's staining revealed that the purified protein was a glycoprotein. The protein to carbohydrate ratio was determined to be 95.5%:4.5% (w/w). Proline amounted for 20 mol% of the total amino acids as indicated by amino acid composition analysis. The isolated protein had a pI of 9.8 and was shown to be composed of subunits of 27, 17, and 14 kDa. Cross reactivity with the monoclonal antibody MAC 265 and the presence of the signature amino acid sequence, PVYK, strongly suggested to classify the purified glycoprotein as a member of the P/HRGPs class. In the presence of horseradish peroxidase and H2O2 the purified glycoprotein served as a substrate for oxidative cross-linking processes.
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PMID:Purification and characterization of proline/hydroxyproline-rich glycoprotein from pearl millet coleoptiles infected with downy mildew pathogen Sclerospora graminicola. 1716 28

Staphylococcus aureus subsp. anaerobius, a microaerophilic and catalase-negative bacterium, is the etiological agent of abscess disease, a specific chronic condition of sheep and goats, which is characterized by formation of necrotic lesions that are located typically in superficial lymph nodes. We constructed an isogenic mutant of S. aureus subsp. anaerobius (RDKA84) that carried a repaired and functional catalase gene from S. aureus ATCC 12600, to investigate whether the lack of catalase in S. aureus subsp. anaerobius plays a role in its physiological and pathogenic characteristics. The catalase activity had no apparent influence on the in vitro growth characteristics of RDKA84, which, like the wild-type, did not grow on aerobically incubated agar plates. Restoration of catalase activity in RDKA84 substantially increased resistance to H2O2 when analyzed in a death assay. The intracellular survival rates of the catalase-positive mutant RDKA84 in polymorphonuclear neutrophils (PMN) isolated from adult sheep were significantly higher than those of the wild-type, while no differences were found with PMN isolated from lambs. RDKA84 showed significantly lower survival rates in murine macrophages (J774A.1 cells) than the wild-type strains did, whereas, in bovine mammary epithelial cells (MAC-T), no differences in intracellular survival were observed. Interestingly, the virulence for lambs, the natural host for abscess disease, of the catalase-positive mutant RDKA84 was reduced dramatically in comparison with wild-type S. aureus subsp. anaerobius in two experimental models of infection.
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PMID:Restoring catalase activity in Staphylococcus aureus subsp. anaerobius leads to loss of pathogenicity for lambs. 2016 2

The mammary epithelial cells (MECs) of high-producing dairy cows are likely to be subject to oxidative stress (OS) due to the intensive cell metabolism. The objectives of this study were to investigate the cytoprotective effects of resveratrol against hydrogen peroxide- (H2O2-) induced OS in cultured bovine MECs (MAC-T). Pretreatment of MAC-T cells with resveratrol could rescue the decrease in cell viability and resulted in lower intracellular reactive oxygen species (ROS) accumulation after H2O2 exposure. Resveratrol helped MAC-T cells to prevent H2O2-induced endoplasmic reticulum stress and mitochondria-related cell apoptosis. Moreover, resveratrol induced mRNA expression of multiple antioxidant defense genes in MAC-T cells under normal/oxidative conditions. Nuclear factor erythroid 2-related factor 2 (Nrf2) was required for the cytoprotective effects on MAC-T cells by resveratrol, as knockdown of Nrf2 significantly abolished resveratrol-induced cytoprotective effects against OS. In addition, by using selective inhibitors, we further confirmed that the induction of Nrf2 by resveratrol was mediated through the prolonged activation of PI3K/Akt and ERK/MAPK pathways but negatively regulated by p38/MAPK pathway. Overall, resveratrol has beneficial effects on bovine MECs redox balance and may be potentially used as a therapeutic medicine against oxidative insult in lactating animals.
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PMID:Protection of Bovine Mammary Epithelial Cells from Hydrogen Peroxide-Induced Oxidative Cell Damage by Resveratrol. 2696 94


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