Extracellular Bactericidal Functions of Porcine Neutrophils

Scapinello, Sarah Elizabeth

12 January 2010

Neutrophils are one of the main effector cells of innate immunity and were shown to kill bacteria by phagocytosis more than 100 years ago. Neutrophils are also capable of antimicrobial activity by producing extracellular structures named neutrophil extracellular traps (NETs). This thesis is an investigation of porcine neutrophils and their ability to produce NETs, as well as the antimicrobial ability of secretions from activated porcine neutrophils in combating a variety of common porcine pathogens. Porcine neutrophils were found to produce NET-like structures, and secretions from activated neutrophils were found to possess variable bactericidal activity against common pathogens of swine. Antimicrobial proteins dependent on elastase activity were shown to be partially responsible for the bactericidal activities of activated neutrophils. Several antimicrobial proteins and peptides were identified via proteomic techniques. This work allows for better understanding of innate immunity in swine, and identification of potential targets for addressing porcine health. / Ontario Ministry of Agriculture Food & Rural Affairs, Ontario Pork, Natural Sciences and Engineering Research Council of Canada

Neutrophil Extracellular Traps

Pigs

Host Defence Peptides

Cathelicidin

Bacterial Killing

Extracellular Killing

Innate Immunity

Neutrophil

Properdin Binds Pseudomnas aeruginosa and is Required for Neutrophil Extracellular Trap Mediated Activation of Complement Alternative Pathway

Yuen, Joshua

11 December 2013

Neutrophils play an important, yet poorly understood role, in complement mediated pathologies. Here we identified that neutrophils contain key components from the complement alternative pathway: properdin (CFP), complement component 3 (C3), complement factor B (CFB), and complement factor H (CFH). Activation of neutrophils resulted in secretion of these complement components. When neutrophils are further activated to form neutrophil extracellular traps (NETs), CFP is deposited onto the surfaces of the NETs. In addition, CFP is able to bind to Pseudomonas aeruginosa, an opportunistic bacterium which can activate neutrophils to form NETs. Furthermore, NETs activate complement and increase formation of the terminal complement complex. The activation of complement on NETs can be initiated through multiple pathways, however, activation of the alternative pathway is dependent on CFP. This mechanism, potentially required for effective host defense, may also contribute to complement activation and disease.

Complement

Neutrophil

Neutrophil Extracellular Traps

Alternative Pathway

Properdin

Pseudomonas aeruginosa

0982

0379

0410

Properdin Binds Pseudomnas aeruginosa and is Required for Neutrophil Extracellular Trap Mediated Activation of Complement Alternative Pathway

Yuen, Joshua

11 December 2013

Neutrophils play an important, yet poorly understood role, in complement mediated pathologies. Here we identified that neutrophils contain key components from the complement alternative pathway: properdin (CFP), complement component 3 (C3), complement factor B (CFB), and complement factor H (CFH). Activation of neutrophils resulted in secretion of these complement components. When neutrophils are further activated to form neutrophil extracellular traps (NETs), CFP is deposited onto the surfaces of the NETs. In addition, CFP is able to bind to Pseudomonas aeruginosa, an opportunistic bacterium which can activate neutrophils to form NETs. Furthermore, NETs activate complement and increase formation of the terminal complement complex. The activation of complement on NETs can be initiated through multiple pathways, however, activation of the alternative pathway is dependent on CFP. This mechanism, potentially required for effective host defense, may also contribute to complement activation and disease.

Complement

Neutrophil

Neutrophil Extracellular Traps

Alternative Pathway

Properdin

Pseudomonas aeruginosa

0982

0379

0410

Serum Neutrophil Extracellular Trap Levels Predict Thrombotic Microangiopathy after Allogeneic Stem Cell Transplantation / 血清中の好中球細胞外トラップ増加は、同種造血幹細胞移植後の血栓性微小血管障害の発症を予測する

Arai, Yasuyuki

23 March 2015

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第18857号 / 医博第3968号 / 新制||医||1008(附属図書館) / 31808 / 京都大学大学院医学研究科医学専攻 / (主査)教授 前川 平, 教授 江藤 浩之, 教授 河本 宏 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Neutrophil extracellular traps

Thrombotic microangiopathy

Allogeneic stem cell transplantation

Predictive biomarker

Adverse event

490

Effects of Glycosaminoglycans on DNase-Mediated Degradation of DNA, DNA-Histone Complexes, and NETs

Sohrabipour, Sahar

January 2020

Neutrophil extracellular traps (NETs) are a link between infection and coagulation in sepsis. The major structural component of NETs is nucleosomes, consisting of DNA and histones. NETs not only act as a scaffold to trap platelets, but NET components also promote coagulation and impair fibrinolysis. Thus, removal of extracellular DNA by DNases may be a potential therapeutic strategy for sepsis. Since heparin is used for thromboprophylaxis in sepsis and may also be a potential anti-sepsis therapy, we investigated the mechanisms by which various forms of heparins modulate DNase function. There are two types of DNases in vivo: DNase I (produced by exocrine and endocrine glands) and DNase1L3 (secreted by immune cells). DNase I cleaves free DNA, whereas DNase1L3 preferentially cleaves DNA in complex with proteins such as histones. In this study, we investigated how DNase I and DNase1L3 activities are modulated by the following heparins: unfractionated heparin (UFH), enoxaparin (a low-molecular-weight heparin), Vasoflux (a low-molecular-weight, non-anticoagulant heparin), and fondaparinux (the pentasaccharide unit). Using agarose gel experiments, we showed that UFH, enoxaparin, and Vasoflux enhance the ability of DNase I to digest DNA-histone complexes (presumably by displacing DNA from histones), whereas fondaparinux does not. These findings are consistent with the KD values of the binding of heparin variants to histones, with fondaparinux having >1000-fold lower affinity for histones compared to the other heparins. Taken together, our data suggests that the ability of heparin to enhance DNase I-mediated digestion of DNA-histone complexes is size-dependent and independent of the pentasaccharide region of heparin. With respect to DNase1L3, we observed that it is able to digest histone-bound DNA, and that all heparins, except fondaparinux, inhibited DNase1L3-mediated digestion of histone-bound DNA. Next, we visualized the degradation of NETs by fluorescence microscopy. DNase I (± heparin variants) completely degraded NETs, presumably by digesting extracellular chromatin at histone-free linker regions, thereby releasing nucleosome units. DNase1L3 also degraded NETs, but not as effectively as DNase I, and was inhibited by all heparins except fondaparinux. Finally, we showed that DNase I levels are decreased and DNase1L3 levels are elevated in septic patients. Taken together, our findings demonstrate that heparin modulates the function of DNases, and that endogenous DNase levels are altered in sepsis pathophysiology. / Thesis / Master of Science (MSc) / Sepsis, a life-threatening condition due to hyperactivation of the immune system in response to infection, results in widespread inflammation and blood clotting. During sepsis, immune cells release sticky strands of DNA that block blood vessels and damage organs. Two different enzymes in the blood (DNase I and DNase1L3) can digest these DNA strands, and may represent a new class of anti-sepsis drugs. Our goal was to determine how heparins, commonly used blood thinners, alter the function of these enzymes. We found that (a) larger-sized heparins improved the activity of DNase I towards DNA-histone complexes and do not require any specific portion of heparin, (b) DNase I is more efficient than DNase1L3 in digesting DNA strands released from immune cells, and (c) levels of DNase I and DNase1L3 are altered in septic patients. Taken together, our studies provide new insights into how these enzymes function.

Sepsis

Neutrophil Extracellular Traps (NETs)

Extracellular DNA

DNA-Histone Complexes

DNase I

DNase1L3

Glycosaminoglycans

Harnessing Systems Bioengineering Approaches to Study Microbe-Microbe and Host-Microbe Interactions in Health and Disease

Datla, Udaya Sree

22 March 2024

The core of the dissertation lies in developing two novel systems bioengineering approaches, a synthetic Escherichia coli killer-prey microecology, and a combined infection-inflammation NET-array system, to investigate the role of the mechanochemical complexity of the microenvironment in driving the microbe-microbe and host-microbe interactions, respectively. Herein, the first part of the dissertation includes designing and engineering a synthetic E. coli killer-prey microecological system where we quantified the quorum-sensing mediated interactions between the engineered killer and prey E. coli bacterial strains plated on nutrient-rich media. In this work, we developed the plate assay followed by plasmid sequencing and computational modeling that emphasizes the concept of the constant evolution of species or acquired resistance in the prey E. coli, in the vicinity of the killer strain. We designed the microecological system such that the killer cells (dotted at the center of the plate) constitutively produce and secrete AHL quorum-sensing molecules into the microenvironment. AHL then diffuses into the prey cells (spread throughout the plate) and upregulates the expression of a protein that lyses the prey. Through time-lapse imaging on petri plates automated using a scanner, we recorded the "kill wave" that originates outside the killer colony and travels outward as the prey dies. We found that the prey population density surrounding the killer decreased in comparison to other locations on the plate far from the killer. However, some of the prey colonies evolve to be resistant to the effects of AHL secreted by the killer. These prey colonies resistant to the killer were then selected and confirmed by plasmid sequencing. Using this empirical data, we developed the first ecological model emphasizing the concept of the constant evolution of species, where the survival of the prey species is dependent on the location (distance from the killer) or the evolution of resistance. The importance of this work lies in the context of the evolution of antibiotic-resistant bacterial strains and in understanding the communication between the microbial consortia, such as in the gut microbiome. Further, the second part of the dissertation includes quantifying the interactions between immune cells (primary healthy human neutrophils) and motile Pseudomonas aeruginosa bacteria in an inflammation-rich microenvironment. Neutrophils, being the first responding immune cells to infection, defend by deploying various defense mechanisms either by phagocytosing and killing the pathogen intracellularly or through a suicidal mechanism of releasing their DNA to the extracellular space in the form of Neutrophil Extracellular Traps (NETs) to trap the invading pathogens. Although the release of NETs is originally considered a protective mechanism, it is shown to increase the inflammation levels in the host if unchecked, ultimately resulting in end-organ damage (especially lung and kidney damage), as with the severe cases of sepsis and COVID-19. In our work, we developed a combined infection-inflammation NET-array system integrated with a live imaging assay to quantify the spatiotemporal dynamics of NET release in response to P. aeruginosa infection in an inflammatory milieu at a single-cell resolution. Importantly, we found increased NET release to P. aeruginosa PAO1 when challenged with inflammatory mediators tumor necrosis factor-α (TNF-α) and interleukin-6 (IL-6), but not leukotriene B4 (LTB4), compared to the infection alone. Our device platform is unique in that the nanoliter well-assisted individual neutrophil trapping enables us to quantify NET release with single-cell precision. Besides, incorporating confined side loops in the device helped us study the role of mechanical confinement on NET release, showing reduced NET release from neutrophils confined in the side loops compared to the relatively wider chambers of our microsystem. In summary, our work emphasizes the importance of studying the heterogeneity of NET release in host defense and inflammation. In the future, our system can be used for screening novel neutrophil-based immunotherapies and serve as a valuable research tool in precision medicine. / Doctor of Philosophy / The microenvironment plays a vital role in shaping the interactions within microbes and between the host and the microbes. Microbes use quorum-sensing-based chemical signaling to adapt to the environmental stresses in a microecology (be it a soil microecology or the gut microbiome). They communicate with each other with the help of these chemicals to regulate their population density (to mutual benefit in the case of a biofilm formation or to compete for resources in the case of a predator-prey model). In the first part of the dissertation, we utilize this quorum-sensing approach to study the spatiotemporal dynamics of the interactions between two engineered killer and prey Escherichia coli bacterial strains on a nutrient-rich agar plate in real-time. We designed the microecological system such that the killer cells (dotted at the center of the plate) constitutively produce and secrete AHL quorum-sensing molecules into the microenvironment. AHL then diffuses into the prey cells (spread throughout the plate) and upregulates the expression of a protein that lyses the prey. We found that the prey population density surrounding the killer decreased in comparison to other locations on the plate far from the killer. Further, through sequencing, we found that some of the prey colonies acquired resistance to the effects of AHL secreted by the killer. We then developed a computational model that recapitulates our experimental results, emphasizing the concept of the constant evolution of species or acquired resistance. The importance of this work lies in using experimental and computational approaches to better understand the evolution of multidrug-resistant (MDR) bacterial strains. Next, we investigated the interactions between primary human neutrophils (first responding immune cell type to infection) and motile Pseudomonas aeruginosa bacteria in the second part of the dissertation, explicitly focusing on quantifying neutrophil extracellular traps (NETs) release. With increasing concerns regarding the role of the dysregulated NET release in exaggerated inflammatory responses in the host, it is imperative to quantify NET release precisely at a single-cell level in a controlled microenvironment. To this end, we engineered a combined infection-inflammation NET-array device with 1024 nanoliter wells per device and achieved single-cell level trapping of neutrophils in these wells. Our device platform is unique in that the individual wells of the device have constricted side loops, which helps us better understand the role of mechanical confinement on NET release from an engineering standpoint. We then used the NET-array system to quantify the spatiotemporal dynamics of NET release to P. aeruginosa in an inflammatory mediator-rich microenvironment. Importantly, we found heightened NET release to Pseudomonas aeruginosa PAO1 when challenged with inflammatory mediators tumor necrosis factor-α (TNF-α) and interleukin-6 (IL-6), but not leukotriene B4 (LTB4), compared to the infection alone. We also demonstrated reduced NET release from neutrophils confined in the side loops compared to the relatively wider chambers of our combined infection-inflammation microsystem. Especially with the increasing complexity of the intercellular cues at the site of infection, by integrating our microfluidic method with the conventional reductionist approaches, we can better solve the intricate puzzles of the immune cell decision-making processes at a single-cell level. Our study highlights the importance of fine-tuning NET release in controlling pathological neutrophil-driven inflammation.

Synthetic microecology

Acquired resistance

Escherichia coli

Pseudomonas aeruginosa

Neutrophil extracellular traps

NET-array device

Infection

Inflammation

Characterisation of chromatin extracellular traps in rainbow trout (Oncorhynchus mykiss)

Van, Andre P.

January 2018

One of the greatest challenges in finfish aquaculture is combating losses caused by infectious bacterial diseases, and a better understanding of the interactions between the host immune system and pathogens is essential for developing new methods to manage infections and outbreaks. Extracellular traps (ETs) are decondensed nuclear chromatin released by neutrophils into the extracellular matrix that can ensnare and kill microbes. Since the discovery of ETs in humans, these innate immune effectors have been characterised across the animal kingdom, including in some fish species, though their existence the salmonids has yet to be confirmed. Therefore, the aim of this thesis was to confirm and characterise the release of ETs in the rainbow trout (Oncorhynchus mykiss) and investigate the interaction of these structures with fish pathogenic bacteria. To do this, a triple-layer Percoll gradient technique was employed to give highly enriched cell suspensions of polymorphonuclear cells (PMNs) derived from head-kidney tissue preparations. Treatment of PMN-enriched cell suspensions with the nucleic-acid-specific stain, SYTOX Green, revealed the presence of ET-like structures that had been released without stimulation. These ET-like structures were confirmed by immunostaining techniques to contain the diagnostic proteinaceous markers of ETs: neutrophil elastase, myeloperoxidase and the H2A histone. Previously characterised inhibitors and inducers of ET release from phagocytic immune cells in other animals confirmed that calcium ionophore (CaI), flagellin, and cytochalasin D shared similar activities for ET-release by rainbow trout PMNs. However, interestingly, as the common ET-inducer phorbol-myristate acetate (PMA) and ET-inhibitor diphenyleneiodonium (DPI) did not exert their expected potency in ET release assays with the PMNs, perhaps indicating that these fish cells are less dependent on NADPH oxidase signalling for ET release compared to mammals and most invertebrate species. The PMN-derived ETs were demonstrated to bind to and trap the extracellular nuclease-deficient bacterial fish pathogen, Vibrio anguillarum (Vib 87) when co-cultured. Finally, extracellular nuclease activity produced by a V. anguillarum isolate (Vib 6) during culture was able to degrade ETs released by rainbow trout PMNs in a dose-dependent manner. Moreover, viable colony counts, fluorescent and phase contrast microscopy demonstrated that V. anguillarum Vib 6 eluded trapping by ETs, while an extracellular nuclease-deficient isolate did not. These observations are consistent with the suggestion that nucleases are a microbial virulence factor during host infection. Confirming the existence and antimicrobial potential of extracellular traps released by rainbow trout PMNs may provide a platform towards the development of novel therapeutics to reduce mortalities in finfish aquaculture caused by infectious microbial pathogens.

Ação da vitamina D sobre mecanismos bactericidas de neutrófilos humanos desafiados com diferentes cepas de Staphylococcus aureus

Della Coletta, Amanda Manoel.

January 2019

Orientador: Luciane Alarcão Dias-Melicio / Resumo: Recentemente, a deficiência de vitamina D vem se tornando um problema de abrangência mundial em virtude de hábitos rotineiros da população, como o trabalho por períodos prolongados em ambientes fechados e diminuição da exposição solar. Trabalhos recentes demonstram que a vitamina D age não somente na homeostase do cálcio, mas também na regulação do sistema imune. Diante da multiplicidade de funções dessa vitamina, sua deficiência tem sido associada ao risco de desenvolvimento de uma série de doenças, entre elas doenças infecciosas como as causadas por S. aureus. As infecções por essa bactéria têm trazido expressiva preocupação para a população humana em decorrência do aumento da prevalência de cepas resistentes aos fármacos antibacterianos, dificultando, dessa maneira, o tratamento e contribuindo para a busca de métodos alternativos para combater esse tipo de infecção. Além disso, o S. aureus conta com um potente arsenal de fatores de virulência que contribuem para a evasão da resposta imune do hospedeiro. Nesse contexto, torna-se importante avaliar se a vitamina D pode modular os efeitos bactericidas de neutrófilos humanos através de mecanismos intra e extracelulares, favorecendo, portanto, o combate a infecções, especialmente aquelas causadas por microrganismos resistentes aos principais tratamentos. Dessa maneira, nós demonstramos que neutrófilos tratados com vitamina D e desafiados com duas cepas de S. aureus tiveram um aumento nas taxas de fagocitose e atividade bacteric... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: In the last years, vitamin D deficiency has become a worldwide problem due to routine population habits, such as prolonged work indoors and increased use of sunscreen/decreased sun exposure in attempt to avoid high rates of skin cancer. Recent studies demonstrated that vitamin D acts not only on calcium homeostasis, but also on the regulation and function of the immune system. Facing the countless functions of vitamin D, its deficiency has been associated with the risk of development of many diseases, including infectious diseases such as those caused by S. aureus. Infections caused by these bacteria have brought significant concern to the human population due to the increased prevalence of strains resistant to antibiotics, thus making it difficult to treat and contributing to the search for alternative methods to combat this type of infection. In addition, S. aureus have a variety of virulence factors, which confer the ability to evade host immune responses. In this context, it is important to evaluate whether vitamin D can modulate the bactericidal effects of human neutrophils through intra- and extracellular mechanisms, such as phagocytosis, bacterial killing and release of Neutrophil Extracellular Traps (NETs), thus contributing to the response against infections, especially those caused by microorganisms resistant to the main treatments. Thus, we demonstrated that neutrophils treated with Vitamin D and challenged with two strains of S. aureus had an increase in phagocyti... (Complete abstract click electronic access below) / Doutor

Atividade Bactericida

Fagocitose.

Vitamina D.

Staphylococcus aureus.

Bactericidal Activity

Phagocytosis

Neutrophil Extracellular Traps (NETs)

Vitamin D

Aspectos epidemiológicos da leishmaniose visceral em Sergipe e liberação de redes extracelulares de neutrófilos em cães e humanos na infecção por Leishmania infantum / Epidemiological aspects of visceral leishmaniasis in Sergipe and release of extracellular networks of neutrophils in dogs and humans on infection with Leishmania infantum

Campos, Roseane Nunes de Santana

06 June 2016

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Visceral Leishmaniasis (VL) is a serious infectious disease and is increasing geographical expansion and urbanization. patterns of transmission of the disease are altered due to human actions. The dog is considered the main reservoir of the parasite. The development of the disease depends in part on the host immune system. Neutrophils are considered the first line of defense against pathogens and important agents in the control of LV. These cells have an additional mechanism to eliminate microorganisms that occur with the release of extracellular networks (Neutrophil Extracellular Traps -NETs). This work has two overall objectives, the first being an epidemiological study of LV in Sergipe and the second evaluation of NETs formation in human neutrophils and dogs with LV stimulated with L. infantum, so this thesis was divided into chapters, for better understanding. Epidemiological evaluation were used SINAN data and serosurveys canines Zoonosis Aracaju-SE. A descriptive analysis of the data and construction of distribution maps of disease was performed. Sergipe Aracaju and from 2008 to 2014 the incidence rate in humans with LV increased and the percentage of infected dogs has doubled in the capital. The percentage of cases positive for human VL by sex, according to the age of the patient group, showed that over 15 years the disease affects more males. The spatial distribution analysis allowed to view areas of the city with the highest concentration of human and canine VL. The neighborhoods located in poor areas or growing areas were those with the highest incidence of the disease in humans and dogs. The results show that presents endemicity for human and canine VL. In order to evaluate the formation of NETs were used human groups: Control; LV treated and positive DTH. The dogs were divided into control; Asymptomatic and symptomatic. Neutrophils were isolated from patients with LV University Hospital / UFS and dogs diagnosed with VT by Zoonoses were incubated with and without stimulation of parasite and NETs measures in the supernatant of the cultures after 90 minutes. The parasitic load determined after 24 and 48 hours of interaction with neutrophils treated by the limiting dilution technique. In the evaluation of NETs induction of human neutrophils and release dogs with LV greater amount of NETs when stimulated with L. infantum. When compared between the groups individuals positive DTH release fewer NETs stimulated or not with the parasite. At 24 and 48 hours LV treated subjects have a higher parasite load and showed positive DTH fewer parasite than the other groups tested. Dogs with LV release signals greater amount of NETs when stimulated with L. infantum and have higher parasitic load after 48 hours. It is observed that the release of NETs and control of parasitic load by neutrophils varies according to the clinical form of the LV, in humans and dogs. / A Leishmaniose Visceral (LV) é uma doença infecciosa grave e está em crescente expansão geográfica e urbanização. Os padrões de transmissão da doença são alterados devido às ações antrópicas. O cão é considerado o principal reservatório do parasito. O desenvolvimento da doença depende em parte do sistema imune do hospedeiro. Os neutrófilos são considerados a primeira linha de defesa do organismo contra agentes patogênicos e importantes no controle da LV. Estas células têm um mecanismo adicional para eliminar microorganismos que ocorre com a liberação de redes extracelulares (Neutrophil Extracelular Traps -NETs). Este trabalho teve dois objetivos gerais, sendo o primeiro um estudo epidemiológico da LV em Sergipe e o segundo a avaliação da formação de NETs em neutrófilos de humanos e cães com LV estimulados com L. infantum, assim essa tese foi dividida em capítulos, para melhor compreensão. Na avaliação epidemiológica foram utilizados dados do SINAN e inquéritos sorológicos caninos do Zoonoses de Aracaju-SE. Foi realizada uma análise descritiva dos dados e construção de mapas de distribuição da doença. Em Sergipe e Aracaju de 2008 a 2014 o coeficiente de incidência em humanos com LV aumentou e o percentual de cães infectados dobrou na capital. A porcentagem de casos positivos para LV humana por sexo, de acordo com a faixa etária do paciente, mostrou que acima de 15 anos a doença acomete mais o sexo masculino. A análise de distribuição espacial permitiu visualizar áreas da cidade com maior concentração de LV humana e canina. Os bairros situados em áreas com situação econômica desfavorável ou em zonas de expansão foram os que apresentaram maior incidência da doença em humanos e cães. Os resultados demonstram que apresenta caráter endêmico para a LV humana e canina. Com a finalidade de avaliar a formação de NETs foram utilizados grupos humanos: Controle; Tratados LV e DTH positivos. Os cães foram divididos em: Controle; Assintomáticos e sintomáticos. Foram isolados neutrófilos de pacientes com LV do Hospital Universitário/UFS e de cães diagnosticados com LV pelo Zoonoses foram incubadas, com e sem estímulo do parasito e NETs medidas no sobrenadante das culturas após 90 minutos. A Carga parasitária determinada após 24 e 48 horas de interação com neutrófilos tratados, através da técnica de diluição limitante. Na avaliação da indução de NETs, os neutrófilos de humanos e cães com LV liberam maior quantidade de NETs quando estimulados com L. infantum. Quando comparado entre os grupos indivíduos DTH positivos liberam menor quantidade de NETs estimulados ou não com o parasito. Em 24 e 48 horas indivíduos tratados com LV apresentam maior carga parasitária e os DTH positivos demonstraram menor quantidade do parasito do que os outros grupos testados. Os cães com sinais de LV liberam maior quantidade de NETs quando estimulados com L. infantum e apresentam maior carga parasitária após 48 horas. Observa-se que a liberação de NETs e o controle da carga parasitária através dos neutrófilos variam de acordo com a forma clínica da LV, em humanos e cães.

Ciências da saúde

Leishmaniose visceral

Perfil epidemiológico

Canis familiaris

Armadilhas extracelulares

Visceral leishmaniasis

Epidemiological profile

Canis familiaris

Extracellular traps

CIENCIAS DA SAUDE

Effects of Vasoflux on DNA-Histone Complexes in Vitro and on Organ Function and Survival Outcome in a Murine Model of Sepsis

Sharma, Neha

January 2018

Sepsis is life-threatening organ dysfunction produced by a dysregulated host response to infection in which neutrophils release neutrophil extracellular traps (NETs). NETs consist of DNA, histones, and antimicrobial peptides which kill pathogens. However, DNA and histones also exert damage by activating the intrinsic pathway of coagulation and inducing endothelial cell death, respectively. AADH, a 15kDa non-anticoagulant unfractionated heparin (UFH), prevents histone-mediated cytotoxicity in vitro and improves survival in septic mice. We explored the effectiveness of Vasoflux, a 5.5kDa low-molecular-weight-heparin as an anti-sepsis treatment as compared to enoxaparin and UFH. Vasoflux has reduced anticoagulant functions and hence reduces the risk of bleeding as compared to enoxaparin or UFH. We showed that UFH, enoxaparin, or Vasoflux at concentrations of up to 13.3uM, 40uM, or 40uM, neutralize histone-mediated cytotoxicity. These results suggest that these glycosaminoglycans (GAGs) are able to neutralize histone-mediated cytotoxicity independent of the AT-binding pentasaccharide. To quantitate the binding affinity between GAGs and histones, surface plasmon resonance was conducted. UFH is a more potent inhibitor of histone-mediated cytotoxicity compared to Vasoflux as UFH has a 10-fold greater binding affinity to histones compared to Vasoflux. To translate our in vitro findings to in vivo, Vasoflux, enoxaparin, and UFH were administered in a murine model of sepsis. Vasoflux at 8mg/kg - 50mg/kg reduced survival and exhibited damage in the lung, liver, and kidney in septic mice compared to 10 mg/kg of UFH or 8mg/kg of enoxaparin. This may be due to Vasoflux and UFH disrupting the DNA-histone complex, thereby releasing free procoagulant DNA. This is evident by our gel electrophoresis experiments, where addition of 1uM Vasoflux or 3.3uM UFH to DNA-histone complexes lead to histone dissociation from DNA. UFH bound to histones may be able to inhibit DNA-mediated thrombin generation, as it retains its anticoagulant properties, demonstrated by UFH-histone complexes attenuating DNA and TF-mediated thrombin generation. In contrast, Vasoflux may not neutralize the procoagulant DNA leading to a hypercoagulable state in the mice. Our study may have important clinical implications as there is an ongoing trial, HALO, which will administer intravenous UFH to patients suspected to have septic shock to reduce mortality. Based on our results, future clinical trials should consider the antithrombin-dependent anticoagulant activity of UFH being used as a sepsis treatment. / Thesis / Master of Science (MSc) / Sepsis is a life threatening condition caused by the body’s extreme response to microbial infection of the blood, whereby neutrophils release traps composed of cell-free DNA (cfDNA), histones, and antimicrobial proteins. In addition to fighting off infections, these traps also exert harmful effects like triggering clotting and killing host cells. Currently, no specific anti-septic drugs exist. Studies have shown that DNase1 (a recombinant protein that digests double stranded cfDNA) or a modified form of heparin (neutralizes histones) improves survival in septic mice. Our goal was to explore the protective effects of Vasoflux, (a non-anticoagulant heparin) and DNase1 in a mouse model of sepsis. We hypothesize that the combined therapy of DNase1 and Vasoflux will improve survival. We found that Vasoflux has minimal blood thinning activity and can prevent histones from killing cells. However, Vasoflux administered into septic mice worsened organ damage and decreased survival. We hypothesize that this damage may be due to Vasoflux’s ability to displace histones from histone-DNA complexes, thereby releasing free DNA, which promotes excessive blood clotting in sepsis.

Sepsis

Neutrophil Extracellular Traps (NETs)

Cell-free DNA (cfDNA)

Cecal Ligation and Puncture (CLP)

Murine model

Unfractionated heparin (UFH)

Vasoflux

Histones