Collaboration of human neutrophils and group IIA phospholipase A2 against Staphylococcus aureus

Femling, Jon Kenneth

01 January 2007

Neutrophils (PMN) and group IIA phospholipase A2 (gIIA PLA2) are components of the innate immune system mobilized to sites of invasion by microorganisms such as Staphylococcus aureus. Although accumulating coincidentally in vivo, the in vitro anti-staphylococcal activities of PMN and gIIA PLA2 have thus far been separately studied. The goal of this thesis was to study the collaborative activity of PMN and gIIA PLA2 against S. aureus. We have identified and characterized the collaboration of PMN and gIIA PLA2 against S. aureus ingested by PMN. PMN induced conversion of bacterial phosphatidylglycerol into cardiolipin, but were unable to degrade S. aureus phospholipids without gIIA PLA2. PMN reduced by 10-fold the concentration of gIIA PLA2 needed to digest bacterial phospholipids alone. In addition to increased phospholipid degradation, collaboration of PMN and gIIA PLA2 caused greater bacterial killing and greater loss of bacterial green fluorescent protein fluorescence. The collaboration of PMN and gIIA PLA2 against S. aureus is dependent on catalytic activity and is specific to gIIA PLA2 as related secretory PLA2, groups IB, V, and X, show little or no phospholipid degradation of S. aureus either alone or in the presence of PMN. Synergy of PMN and gIIA PLA2 requires a functional NADPH oxidase and phagocytosis. Although addition of gIIA PLA2 after phagocytosis causes some bacterial phospholipid degradation, the greatest effect is observed when gIIA PLA2 is added before phagocytosis. An extracellular source of H2O2 can partially restore antibacterial activities to NADPH oxidase deficient PMN including the ability to collaborate with gIIA PLA2, supporting a role for reactive oxygen species in NADPH oxidase dependent antimicrobial functions of PMN. In contrast, iberiotoxin, an inhibitor of BK potassium channels had no effect of PMN antibacterial activities. Although H2O2 partially restored antibacterial activity to NADPH oxidase deficient PMN, extracellular H2O2 was not sufficient to increase S. aureus to gIIA PLA2 activity. In summary, PMN and gIIA PLA2 collaborate against S. aureus. These findings revealed collaboration between cellular oxygen-dependent and extracellular oxygen-independent host defense systems that may be important in the ultimate resolution of S. aureus infections.

neutrophils

staphylococcus aureus

innate immunity

phospholipase

myeloperoxidase

NADPH oxidase

Microbiology

Estudo bioquímico do efeito de alguns flavonóides de Pterogyne nitens Tulasne (Fabaceae) em processos oxidativos : sistema modelo "quimicos", "enzimáticos" e "celulares" /

Vellosa, José Carlos Rebuglio.

January 2008

Orientador: Olga Maria Mascarenhas de Faria Oliveira / Banca: Sandra Aparecida de Assis / Banca: Mariza Pires de Melo / Banca: Najesh Maissar Khalil / Banca: Iguatemy Lourenço Brunetti / Resumo: A pesquisa de produtos naturais é uma fonte importante de informações para o desenvolvimento de novos fármacos que tenham ação em diferentes processos oxidativos teciduais. Estudou-se o perfil bioquímico para o mecanismo de ação antioxidante dos flavonóides kaempferol, afzelina, lespedina, pteroginoside, quercetina e isoquercetrina isolados de Pterogyne nitens. Buscou-se avaliar desde os níveis mais simples de atividade até os níveis mais complexos de interação para as atividades observadas. Nenhuma das amostras foi eficiente como scavenger de H2O2, o que se mostrou interessante na comprovação dos resultados de inibição de peroxidases observados. Mostrou-se que a variação nas estruturas dos flavonóides pode levar a diferentes padrões de atividade de acordo com o sistema avaliado, revelando assim especificidade sobre a interação estudada. A quercetina mostrou-se, em geral, o agente mais eficiente, com alteração entre as posições dos demais flavonóides. Observou-se ainda, que os flavonóides apresentam potencial lesivo contra eritrócitos e neutrófilos quando em presença de radicais livres e outras espécies reativas. Na pesquisa da ação de flavonóides e outros produtos naturais em processos oxidativos modelo deve-se buscar possíveis efeitos protetores e agressores aos sistemas biológicos traçando-se um perfil bioquímico de ação que elucide os mecanismos pelos quais tais substâncias agem. / Abstract: The research on natural products Field is na inportant source of informations to the development of new medicines wich act over tecidual oxidative processes. It was studied the biochemical profile of the antioxidant action from kaempferol, afzelin, lespedin, pterogynoside, quercetin and isoquercetrin isolated from Pterogyne nitens. It was intended to evaluate diferent interaction levels to the studied systems. None of the samples were able to act against hydrogen peroxide, what strengthens the observations on peroxidase inhibition. It was showed that chemical structural variations can lead to different activities patterns according to the studied system, revealing that exist specificity by the evaluated interaction. The flavonoid quercetin usually were the most efficient agent and the others agents had alternated position on different systems. It was observed too that the studied flavonoids were potentially lesive to the erytrocytes and neutrophils when they were put together free radicals and others reactive species. In the flavonoids and others natural products researches on model oxidative processes it must be made sought possible protective and lesive effects to biological systems by drawing the biochemical action profile of these sbstances. / Doutor

Antioxidantes.

Myeloperoxidase. eng

Pterogynoside. eng

Oxidative stress. eng

Antixodants. eng

Hypovolemic Shock as Presentation of Microscopic Polyangiitis

Pearson, Todd, Kad, Amiksha

12 April 2019

Microscopic polyangiitis (MPA) is a rare condition characterized by nonspecific symptoms of fatigue, fever, or loss of appetite and additional symptoms related to areas of involvement. The rarity of the disease and its variable presentation can delay its diagnosis in the acute setting, potentially leading to delay in effective treatment and poor outcomes. This is a case report of a 68-year-old man, who presented to the hospital after being found poorly responsive at home. He was sedated and intubated in the field and brought to the ER. He was found to be hypotensive. History revealed abdominal aortic aneurysm, but no known history of GI bleed or use of blood-thinners. Physical exam revealed rhonchi throughout both lung fields, a soft, nondistended abdomen with normoactive bowel sounds, and cool extremities with weak palpable pulses. CBC was suggestive of anemia. BUN and creatinine were elevated indicating kidney injury. CT abdomen showed no acute pathology and an intact abdominal aortic aneurysm. CT chest revealed left lower lobe atelectasis and bilateral pulmonary edema. CT head was consistent with watershed infarction. Numerous blood transfusions were given. However, slow decline in hemoglobin continued to occur. Colonoscopy was considered for possible identification of the source of bleeding, however was not performed due to the family’s wish for conservative management. Bronchoscopy was performed, revealing extensive mucus plugging and bloody plugs. He was eventually weaned off sedation but remained largely unresponsive, occasionally opening his eyes to stimuli. On hospital day 7, necrotic lesions were noted on the patient’s ear and fingers. These findings prompted serologic studies for vasculitis that resulted in positive p-ANCA and myeloperoxidase antibodies, consistent with MPA. He was started on pulse dose IV steroids resulting in modest improvement in renal parameters and hemoglobin, but no discernible change in neurological status. The patient was transitioned to comfort care and palliative extubation was performed. Four days later, the patient expired. This case illustrates the potential for hypovolemic shock as a consequence of undiagnosed vasculitis. In this case, a definite diagnosis was not made, due to inability to perform a lung biopsy because of patient being on comfort measures. However, given that he was p-ANCA and myeloperoxidase positive, along with visualized blood on bronchoscopy, a presumptive diagnosis of MPA can be made. Although this patient may not have recovered even with early immunosuppressive treatment, vasculitis should be considered as a differential diagnosis in patients presenting in hypovolemic shock, especially if history, exam and noninvasive testing are unrevealing.

Microscopic polyangiitis

Hypovolemic shock

p-ANCA

Myeloperoxidase

Vein and Artery Diseases

The Effects of Acute Exercise on Neutrophils and Plasma Oxidative Stress

Quindry, John C., Stone, William L., King, Jeff, Broeder, Craig E.

01 July 2003

Purpose: To investigate the influence of intensity versus total energy expenditure on neutrophilia and blood oxidative stress to acute exercise. Methods: Nine males (18-30 yr) completed one maximal (Max) and three submaximal exercise sessions: 1) 45 min at 10% above (LT+) lactate threshold (LT), 2) 45 min at 10% below (LT-) LT, and 3) 10% below LT until caloric expenditure equaled the 10%+ trial (LT-kcal). Blood was sampled before (PRE), immediately (POST), 1 h, and 2 h after exercise to measure neutrophils, myeloperoxidase, superoxide (O2-), neutrophil activation (O2-/neutrophils), ascorbic acid, uric acid, malondialdehyde, and lipid hydroperoxides. Results: Intensity-dependent neutrophilia occurred POST exercise with significant increases (P ≤ 0.05) after Max and LT+. A second neutrophilia wave occurred 2 h postexercise. Superoxide was elevated POST (Max) and 2 h post (Max and LT+). In contrast, O2-/neutrophils was increased at 2 h only (Max and LT +). These data indicate that immediately postexercise, total neutrophil number rather than activation best represents neutrophil-generated reactive species within blood. POST Max, ascorbic acid and uric acid were decreased indicating a blood oxidative stress occurred. Alternately, total energy expenditure was not related to any marker of neutrophilia or oxidative stress. Conclusion: Exercise intensity plays a major role in postexercise blood oxidative stress, whereas total exercise energy expenditure does not. Further, neutrophils recruited into circulation during exercise may impose a threshold dependent oxidative stress in blood plasma after exercise.

antioxidant

lipid hyroperoxide

myeloperoxidase

superoxide

white blood cell

Pediatrics

Bioconjugation Techniques and Experimental Processing of Myeloperoxidase Detection System

Wang, Daniel

02 June 2020

No description available.

Chemical Engineering

Myeloperoxidase detection

biosensor

single-use sensor

Proporční zastoupení jednotlivých subpopulací neutrofilů a jejich funkční vlastnosti v pupečníkové a periferní krvi / Proportional and functional characteristics of particular neutrophil subpopulations in umbilical cord and peripheral blood

Miková, Eliška

January 2021

Early postnatal period is characterised by generally immature phenotype of the newborn's immune system. The maturation of the immune system including setting appropriate regulatory responses is occurring during this period and encountering pioneering bacteria colonizing neonate plays an important role. In the early days after birth, the immune system of a newborn is very limited, and the adaptive part is mostly represented by antibodies transferred from the mother by cord blood (CB) in the womb and then by colostrum and mother's milk after labour. Therefore, innate immunity plays a key role in defence (against pathogens) in neonates and is largely represented by neutrophils. This study aims to better understand neutrophil biology and phenotype in umbilical CB, compared to neutrophils from peripheral blood (PB) of mothers and healthy non pregnant women (referred to as HC). The assessment of neutrophil phenotype based on surface markers was performed using flow cytometry. Expression of genes linked to antimicrobial function was measured using quantitative PCR. Functional properties of neutrophils, metabolic activity during activation and phagocytosis, and suppressive properties were assessed using the SeaHorse machine and flow cytometry, respectively. Here we confirm the presence of immature CD16low...

Role of Myeloperoxidase Mediated Oxidative Modification and Apolipoprotein Composition in High Density Lipoprotein Function

Undurti, Arundhati

January 2010

No description available.

Cellular Biology

High Density Lipoprotein

Myeloperoxidase

Cardiovascular Disease

The hydroperoxide moiety of aliphatic lipid hydroperoxides is not affected by hypochlorous acid

Zschaler, Josefin, Arnhold, Jürgen

20 November 2015

The oxidation of polyunsaturated fatty acids to the corresponding hydroperoxide by plant and animal lipoxygenases is an important step for the generation of bioactive lipid mediators. Thereby fatty acid hydroperoxide represent a common intermediate, also in human innate immune cells, like neutrophil granulocytes. In these cells a further key component is the heme protein myeloperoxidase producing HOCl as a reactive oxidant. On the basis of different investigation a reaction of the fatty acid hydroperoxide and hypochlorous acid (HOCl) could be assumed. Here, chromatographic and spectrometric analysis revealed that the hydroperoxide moiety of 15S-hydroperoxy-5Z,8Z,11Z,13E-eicosatetraenoic acid (15-HpETE) and 13S-hydroperoxy-9Z,11E-octadecadienoic acid (13-HpODE) is not affected by HOCl. No reduction of the hydroperoxide group due to a reaction with HOCl could be measured. It could be demonstrated that the double bonds of the fatty acid hydroperoxides are the major target of HOCl, present either as reagent or formed by the myeloperoxidase-hydrogen peroxide-chloride system.

Hypochlorsäure

Fettsäurehydroperoxide

Arachidonsäure

Myeloperoxidase

Lipoxygenase

Hypochlorous acid

Lipid hydroperoxides

Arachidonic acid

Myeloperoxidase

Lipoxygenase

ddc:610

ddc:612

Detection of the halogenating activity of heme peroxidases in leukocytes by aminophenyl fluorescein

Flemmig, Jörg, Remmler, Johannes, Zschaler, Josefin, Arnhold, Jürgen

14 April 2016

The formation of hypochlorous and hypobromous acids by heme peroxidases is a key property of certain immune cells. These products are not only involved in defense against pathogenic microorganisms and in regulation of inflammatory processes, but contribute also to tissue damage in certain pathologies. After a short introduction about experimental approaches for the assessment of the halogenating activity in vitro and in cell suspensions, we are focusing on novel applications of fluorescent dye systems to detect the formation of hypochlorous acid (HOCl) in leukocytes. Special attention is directed to properties and applications of the non-fluorescent dye aminophenyl fluorescein that is converted by HOCl, HOBr, and other strong oxidants to fluorescein. This dye allows the detection of the halogenating activity in samples containing free myeloperoxidase and eosinophil peroxidase as well as in intact granulocytes using fluorescence spectroscopy and flow cytometry, respectively.

Myeloperoxidase

Hypochlorsäure

Neutrophile

Aminophenyl fluorescein

eosinophile Peroxidase

hypobromige Säure

Eosinophile

myeloperoxidase

hypochlorous acid

neutrophils

aminophenyl fluorescein

eosinophil peroxidase

hypobromous acid

eosinophils

ddc:570

The hydroperoxide moiety of aliphatic lipid hydroperoxides is not affected by hypochlorous acid

Zschaler, Josefin, Arnhold, Jürgen

20 November 2015

The oxidation of polyunsaturated fatty acids to the corresponding hydroperoxide by plant and animal lipoxygenases is an important step for the generation of bioactive lipid mediators. Thereby fatty acid hydroperoxide represent a common intermediate, also in human innate immune cells, like neutrophil granulocytes. In these cells a further key component is the heme protein myeloperoxidase producing HOCl as a reactive oxidant. On the basis of different investigation a reaction of the fatty acid hydroperoxide and hypochlorous acid (HOCl) could be assumed. Here, chromatographic and spectrometric analysis revealed that the hydroperoxide moiety of 15S-hydroperoxy-5Z,8Z,11Z,13E-eicosatetraenoic acid (15-HpETE) and 13S-hydroperoxy-9Z,11E-octadecadienoic acid (13-HpODE) is not affected by HOCl. No reduction of the hydroperoxide group due to a reaction with HOCl could be measured. It could be demonstrated that the double bonds of the fatty acid hydroperoxides are the major target of HOCl, present either as reagent or formed by the myeloperoxidase-hydrogen peroxide-chloride system.

info:eu-repo/classification/ddc/610

ddc:610

info:eu-repo/classification/ddc/612

ddc:612