Global ETD Search

241	Influência do ácido indol-3-acético na capacidade fagocitária e na integridade celular de neutrófilos de ratos / Influence of indole-3-acetic acid supplementation on the bacterial killing and cellular integrity on rats neutrophils Poliana de Paula Brito 15 September 2006 (has links) O Ácido Indol Acético (AIA) é um hormônio, denominado auxina e há uma correlação direta entre o efeito citotóxico do AIA e da atividade da peroxidase nas células animais. Os Neutrófilos apresentam uma alta atividade de peroxidase e o AIA gera uma mudança ultra-estrutural e morte destas células em cultura. Entretanto, estudos in vivo mostram que a administração de AIA em baixas doses não promove um efeito prooxidante em neutrófilos e esta suplementação aumenta o englobamento de partículas de Zymosan por estas células. No presente estudo foram avaliados os efeitos da administração do AIA na capacidade fagocitária e na integridade celular de neutrófilos de ratos, observando os seguintes parâmetros: i) capacidade fagocitária englobamento e morte de Staphylococcus aureus; ii) integridade celular integridade da membrana plasmática, fragmentação de DNA e potencial transmembrana mitocondrial e iii) atividade de mieloperoxidase. O tratamento aplicado com AIA não apresentou alteração significante na capacidade de englobamento e morte de S. aureus pelos neutrófilos quando aos controles. A integridade celular e atividade de mieloperoxidase nos neutrófilos não foram alteradas pela suplementação com AIA comparadas aos controles. A administração de AIA em baixas doses não mostrou efeito na morte de S. aureus pelos neutrófilos o mesmo também não alterou a integridade celular e a atividade da mieloperoxidase destas células. / Indole acetic acid is (IAA) a hormone termed auxins and there is a direct correlation between the cytotoxic effect of IAA and the peroxidase activity of the animal cells. Neutrophils present a higher peroxidase activity and the IAA leads to marked ultra structural changes and death on these cells in culture. However studies in vivo show that IAA administration at low doses does not promoting a prooxidant effect on neutrophil and this supplementation to increase of the engulfment of Zymosan particles by these cells. In present study were evaluated the effect of IAA administration in the phagocytic capacity and cellular integrity on rats neutrophils from the following parameters: i) phagocytic capacity engulfment and killing of the Staphylococcus aureus; ii) cellular integrity plasma membrane integrity, DNA fragmentation and mitochondrial transmembrane potential and iii) myeloperoxidase activity. The IAA treatment imposed did not show another significant alteration in the S. aureus engulfment and killing capacity by neutrophils to compare with controls. The cellular integrity and myeloperoxidase activity in the neutrophils did not have alteration by IAA supplementation to compare with the controls. In conclusion the IAA administration at low doses did not show effective action in S. aureus killing by neutrophils and the same time as did not alter the cellular integrity and myeloperoxidase activity by this cell. Staphylococcus aureus auxina fagocitose fragmentação de DNA mieloperoxidase Staphylococcus aureus auxin DNA fragmentation myeloperoxidase phagocytosis
242	Efeitos da clofazimina e claritromicina sobre os sistemas hematológico, hemostático e bioquímico de ratos Wistar / Clofazimine and clarithromycin effects on the hematological, hemostatic and biochemical systems of Wistar rats. Flávia Aparecida Paina 28 June 2011 (has links) Claritromicina e clofazimina são utilizadas no tratamento da hanseníase e em infecções causadas pelo complexo Mycobacterium avium, comuns em portadores do HIV. Devido à escassez de dados sobre a toxicidade de esquemas terapêuticos que associam estes fármacos, este estudo teve por objetivo avaliar os efeitos adversos desta terapia, em ratos machos Wistar, por meio da determinação de parâmetros hematológicos, hemostáticos e bioquímicos e correlação destes parâmetros com a dose e concentração plasmática dos medicamentos, em regime de doses únicas e múltiplas. Para tanto foram realizados: a) contagem global e específica de leucócitos (método manual) e ensaios de fagocitose e burst oxidativo de neutrófilos (citometria de fluxo); b) contagem de plaquetas (método manual), tempo de protrombina, tempo de tromboplastina parcial ativada, níveis plasmáticos dos fatores VII e X (método automatizado); c) níveis séricos de gama-glutamiltransferase (método cinéticocolorimétrico) e bilirrubinas total e direta (método colorimétrico); d) concentrações plasmáticas dos fármacos (Cromatografia Líquida de Alta Eficiência). Não houve diferenças entre as concentrações plasmáticas dos fármacos administrados em monoterapia ou politerapia. Entretanto, tanto clofazimina como claritromicina tiveram redução das concentrações plasmáticas em regime de doses múltiplas, quando comparadas à dose única. Houve aumento do número de leucócitos (dose múltipla) e de células polimorfonucleares (doses única e múltipla) nos grupos tratados com claritromicina em monoterapia ou associada à clofazimina, e redução das células mononucleares, em doses única e múltipla, nos mesmos grupos. Os fármacos parecem inverter a proporção entre células mono e polimorfonucleares. Observou-se aumento do burst oxidativo nos animais tratados com os fármacos tanto em monoterapia como em regime de politerapia. Entretanto, não houve diferença entre os tratamentos com os fármacos em relação ao controle DMSO, em dose única. Em doses múltiplas, os tratamentos com clofazimina e claritromicina em monoterapia ou politerapia estimularam o aumento do burst oxidativo (p < 0,0001) em relação ao controle DMSO. Não foram verificadas diferenças na fagocitose entre os grupos tratados e controle, tanto em dose única como em doses múltiplas. Tempo de protrombina e tempo de tromboplastina parcial ativada não foram alterados com o uso dos fármacos. Os fatores VII e X da coagulação tiveram aumento de suas atividades quando os ratos foram tratados em regime de dose múltipla com claritromicina, em regime de mono e politerapia. Houve perda de cerca de 8 % do peso de ratos tratados com clofazimina e 18 % daqueles tratados com claritromicina ou com a associação dos dois fármacos, no esquema de doses múltiplas, entretanto não houve diferença entre os grupos quando foram avaliados os níveis de gama-glutamiltransferase e bilirrubinas total e direta. Concluindo, clofazimina e claritromicina provocam alterações hematológicas, hemostáticas e bioquímicas e os resultados de concentração plasmática são valiosos para avaliação de efeitos adversos em estudos comparativos de monoterapia e politerapia entre os medicamentos. / Clarithromycin and clofazimine have been used to treat leprosy and infections caused by Mycobacterium avium complex in HIV patients. Because there are few data about the toxicity of treatment regimens involving these drugs, this study aimed to evaluate the adverse effects of this therapy in male Wistar rats through the determination of hematological, haemostatic and biochemical parameters and correlate them with the dose and plasma concentrations of drugs, under a single and multiple dose regimen. Evaluation was performed as follows: a) Global and specific count of leukocytes (manual method), phagocytosis and oxidative burst of neutrophils assays (flow cytometry), b) platelet count (manual method), prothrombin time, activated partial thromboplastin time, plasma levels of factors VII and X (automated method), c) Gamma-glutamyltransferase (kinetic-colorimetric method) and total and direct bilirubin serum levels (colorimetric method), d) plasma concentrations of drugs (High-Performance Liquid Chromatography). There were no differences between plasma concentrations of the drugs administered in monotherapy or polytherapy. However, the concentrations of both clofazimine and clarithromycin have decreased in plasma in multiple dose regimen compared to single dose. There was an increase in the number of leukocytes (multiple dose) and polymorphonuclear cells (single and multiple doses) in the groups treated with clarithromycin in monotherapy or in association with clofazimine, and a decrease in the number of mononuclear cells in single and multiple doses, in the same groups. Both drugs seemed to reverse the proportion between mononuclear and polymorphonuclear cells. The oxidative burst was observed in animals treated with drugs in polytherapy or in monotherapy, however there was no difference between the treatment with drugs and the control with DMSO in single dose. In multiple doses, treatment with clofazimine and clarithromycin in monotherapy or polytherapy stimulated the increase of oxidative burst (p <0.0001) compared to control. There were no differences in phagocytosis between the treated and control groups in single and multiple doses. Prothrombin time and activated partial thromboplastin time have not changed with the use drugs. In contrast, the activities of factors VII and X of coagulation have increased when rats were treated with multiple doses regimes with clarithromycin alone or in association with clofazimine. There was weight loss of 8% in rats treated with clofazimine and 18% in those treated with clarithromycin or with association of the drugs in the multiple doses regimen. However, there was no difference between the groups when gammaglutamyltransferase and total and direct bilirubin levels were analyzed. Therefore, clofazimine and clarithromycin induce hematological, hemostatic and biochemical changes and the results of plasma concentration is valuable for assessing adverse effects in comparative studies of monotherapy and polytherapy of these drugs. alterações hemostáticas. burst oxidativo claritromicina clofazimina fagocitose leucócitos clarithromycin clofazimine hemostatic abnormalities. leukocytes oxidative burst phagocytosis
243	Extração, purificação e avaliação da atividade fagocítica do equinocromo em ouriços-do-mar Lytechinus variegatus (Lamarck, 1816). / Extraction, purification and evaluation of the phagocytic activity of echinochrome in the sea urchins Lytechinus variegatus (Lamarck, 1816). Andrews Krupinski Emerenciano 27 June 2014 (has links) Em ouriços, os esferulócitos vermelhos são responsáveis pela biossíntese do equinocromo, um pigmento naftaquinônico considerado antioxidante e bactericida, no entanto seu papel na resposta imune permanece pouco elucidado. O presente trabalho avaliou a reposta imune inata de ouriços-do-mar Lytechinus variegatus, através da atividade fagocítica frente a diferentes concentrações de equinocromo (50 e 100 µg/ml). Para tanto, o equinocromo foi extraído e purificado por RP-HPLC. Nossos resultados demonstraram que o equinocromo em ambas as concentrações modula positivamente a fagocitose, aumentando a quantidade de células fagocitando. A concentração de 50 µg/ml foi capaz de ativar os amebócitos fagocíticos (AF), e aumentar a quantidade de AF com quatro ou mais leveduras fagocitadas. Já na concentração de 100 µg/ml, além da ativação dos AF, aumentou também, a quantidade de AF com uma, duas, quatro ou mais leveduras fagocitadas, sugerindo uma atuação dose-dependente. Desta forma, os dados apresentados demonstram que o equinocromo exerce um importante papel na resposta imune. / The biosynthesis of echinochrome is mediated by red sphere cell. This naphthoquinonic e pigment presents antioxidant and bactericidal characteristics. However, the echinochrome role in immune response remains unclear. In this study, we evaluated the innate immune response of the sea urchin Lytechinus variegatus. To this purpose, the echinochrome was extracted and purified by RP-HPLC. Finally, phagocytic amoebocytes were exposed to different concentrations of echinochrome (50 and 100 mg/ml), when phagocytic activity was analysed. Here, we showed that echinochrome positively modulate phagocytosis, increasing the number of phagocytizing cells. The concentration of 50 mg/ml activated phagocytic amoebocytes (AF), and increased the number of AF containing four or more phagocytosed yeasts. For the other hand, at 100 mg/ml exposure, the activation of AF also increased the number of AF with one, two, four or more yeast phagocytosed, suggesting a dose-dependent activity. Thus, the data presented demonstrated that echinochrome plays an important role in the immune response. Lytechinus variegatus Equinocromo Fagocitose Imunidade inata Ouriço-do-mar Lytechinus variegatus Echinochrome Innate immunity Phagocytosis Sea urchin
244	Microglial responses to ethanol exposure in a mouse model of fetal alcohol syndrome Ahlers, Katelin Eloyce 01 December 2014 (has links) Fetal alcohol exposure is the most common known cause of preventable mental retardation, yet we know little about how microglia respond to, or are affected by, alcohol in vivo. Using an acute (single day) model of moderate (3 g/kg) to severe (5 g/kg) alcohol exposure in postnatal day (P) 7 or P8 mice we have found that alcohol-induced cortical neuroapoptosis is closely correlated in space and time with the appearance of activated microglia near dead cells. Microglia found in close proximity to dying neurons selectively engulfed those that were in later stages of apoptosis. Remarkably, most dead cells were cleared and microglia began to deactivate within 1-2 days of the initial insult. Coincident with microglial activation and deactivation, in the 5 g/kg alcohol model, there was a transient but substantial increase in pro-inflammatory factor (PIFs) expression. Work in BAX-null mice demonstrated that microglial activation and PIF expression were linked to BAX-dependent neuroapoptosis. As such, the level of microglial activation scaled with alcohol-induced cell death. Therefore, acute alcohol exposure in the developing cortex causes transient microglial activation and mobilization, promoting clearance of dead cells and tissue recovery. Moreover, cortical microglia show a remarkable capacity to rapidly deactivate following even severe neurodegenerative insults in the developing brain. Given that alcohol exposure on either P7 or P8 induced comparable levels of neuroapoptosis and microglial activation, we hypothesized that alcohol exposure on two sequential days (P7 and P8) would exacerbate neuroapoptosis and extend microglial activation. Instead, we found that the period of neuroapoptosis and microglial activation was similar after one day of alcohol exposure on P7 or after two days of exposure on P7 and P8. This was true for both the moderate and severe alcohol paradigms. Potentially, the low levels of cell death produced by the second day of injection may be due to neuroprotective mechanisms elicited by the first day of alcohol injection. In support of this idea, a preliminary microarray analysis of cortical gene expression 12 and 24 h after 5 g/kg alcohol exposure shows a decrease in expression of several pro-apoptotic factors and an increase in the expression of pro-survival factors, including neurotrophins. Of particular interest, BDNF, which has previously been shown to inhibit alcohol-induced neuroapoptosis, showed an eight-fold increase in expression at 24 h following 5 g/kg alcohol exposure and in situ hybridization showed strong BDNF expression near cortical regions with high levels of cell death. Future studies will be needed to extend the analysis of microglial activation states in this two-day injection model and to further explore the possibility that BDNF expression by microglia enacts neuroprotective mechanisms against a second insult. Finally, work in cell culture has suggested that chronic alcohol exposure may potentiate or inhibit microglial phagocytosis of dead cells. These studies raise the possibility that alcohol may directly affect microglial mobility which is important for their surveillance and synaptic remodeling functions. Therefore, we measured the effect of increasing doses of alcohol (0, 0.25, 0.5 and 1%) on microglial migration, branch motility, and morphology in dissociated BV-2 cell cultures and in acutely isolated neonatal (P5-6) brain slices. The results indicate that alcohol dose-dependently inhibits microglial migration and ruffling in cell culture, but in brain slices even high alcohol concentrations (0.5%) only reduce microglial branch motility by ~2%. When combined with our evidence for efficient microglial phagocytic clearance of dead cells in the neonatal cortex, these data suggest that while there is a measurable effect of acute alcohol exposure on microglial mobility, it does not impede microglia from performing their surveillance and phagocytic functions in vivo. Apoptosis Development Fetal Alcohol Spectrum Disorders Migration Phagocytosis Protective Mechanism Biology
245	Eaters of the Dead: How Glial Cells Respond to and Engulf Degenerating Axons in the CNS: A Dissertation Ziegenfuss, Jennifer S. 11 June 2012 (has links) Glia, whose name derives from the original Greek word, meaning “glue,” have long been understood to be cells that play an important functional role in the nutritive and structural support of the central nervous system, yet their full involvement has been historically undervalued. Despite the strong evidence that glial reactions to cellular debris govern the health of the nervous system, the specific properties of damaged axonal debris and the mechanisms by which glia sense them, morphologically adapt to their presence, and initiate phagocytosis for clearance, have remained poorly understood. The work presented in this thesis was aimed at addressing this fundamental gap in our understanding of the role for glia in neurodegenerative processes. I demonstrate that the cellular machinery responsible for the phagocytosis of apoptotic cell corpses is well conserved from worms to mammals. Draper is a key component of the glial response machinery and I am able to show here, for the first time, that it signals through Drosophila Shark, a non-receptor tyrosine kinase similar to mammalian Syk and Zap-70. Shark binds Draper through an immunoreceptor tyrosine-based activation motif (ITAM) in the Draper intracellular domain. I show that Shark activity is essential for Draper-mediated signaling events in vivo, including the recruitment of glial membranes to axons undergoing Wallerian degeneration. I further show that the Src family kinase (SFK) Src42A can markedly increase Draper phosphorylation and is essential for glial phagocytic activity. Therefore I propose that ligand-dependent Draper receptor activation initiates the Src42A-dependent tyrosine phosphorylation of Draper, the association of Shark and the subsequent downstream activation of the Draper pathway. I observed that these Draper-Src42A-Shark interactions are strikingly similar to mammalian immunoreceptor-SFK-Syk signaling events in myeloid and lymphoid cells. Thus, Draper appears to be an ancient immunoreceptor with an extracellular domain tuned to modified-self antigens and an intracellular domain that promotes phagocytosis through an ITAM domain-SFK-Syk-mediated signaling cascade. I have further identified the Drosophila guanine-nucleotide exchange factor (GEF) complex Crk/Mbc/dCed-12, and the small GTPase Rac1 as novel modulators of glial clearance of axonal debris. I am able to demonstrate that Crk/Mbc/dCed-12 and Rac1 function in a non-redundant fashion with the Draper pathway to promote a distinct step in the clearance of axonal debris. Whereas Draper signaling is required early during glial responses, promoting glial activation and extension of glial membranes to degenerating axons, the Crk/Mbc/dCed-12 complex functions at later stages of glial response, promoting the actual phagocytosis of axonal debris. Finally, many interesting mutants have been identified in primary screens for genes active in neurons that are required for axon fragmentation or clearance by glia, and genes potentially active in glia that orchestrate clearance of fragmented axons. The further characterization of these genes will likely unlock the mystery surrounding “eat me” and “find me” cues hypothesized to be released or exposed by neurons undergoing degeneration. Illuminating these important glial pathways could lead to a novel therapeutic approach to brain trauma or other neurodegenerative conditions by providing a druggable means of inducing early attenuation of the glial response to injury down to levels less damaging to the brain. Taken together, my combined work identifies new components of the glial engulfment machinery and shows that glial activation, phagocytosis of axonal debris, and the termination of glial responses to injury are genetically separable events mediated by distinct signaling pathways. Neuroglia Axons Phagocytosis Nerve Degeneration Cells Circulatory and Respiratory Physiology Hemic and Immune Systems Nervous System Neuroscience and Neurobiology
246	Axonal Regrowth of Olfactory Sensory Neurons After Chemical Ablation and Removal of Axonal Debris by Microglia Chapman, Rudy 01 August 2020 (has links) Olfactory sensory neurons (OSNs) are contained within the olfactory epithelium (OE) and are responsible for detecting odorant molecules in the air. The exposure of OSNs to the external environment is necessary for their function, but it also leaves them exposed to potentially harmful elements and thus results in a high turnover rate. Despite the high turnover, the olfactory sense is maintained throughout life through the division of a population of stem cells that produce new OSNs both during normal turnover and after an injury occurs in the OE. When new OSNs are born, they must extend axons from the OE to the olfactory bulb (OB) where they make specific synaptic contacts. To determine the timeline of axon extension in normal turnover and after a methimazole-induced injury, we used fate-tracing utilizing an inducible Cre-LoxP model in which a fluorescent reporter was expressed by neuronal precursors and subsequently used to track axonal growth as the OSNs matured. Our results show that axon extension in both conditions follow the same timeline. However, markers of synaptic connectivity in the OB were delayed after injury. The delay in synaptic connectivity was also corroborated with delays in olfactory behavior after injury, which took 40 days to recover to control levels. Additionally, we investigated the process of removal of axonal debris created after an injury. Immunohistochemical analysis after injury indicated upregulation of IBA1+ cells within the 3 olfactory nerve layer of the OB, suggesting a role of microglia in this process. These microglia also showed an activated morphology and some had very large cell bodies with multiple nuclei. Furthermore, qPCR analysis of post-injury OB tissue shows upregulation of the CD11b receptor that is expressed on microglia. Our results have also shown upregulation of components of the complement pathway after injury, which is suggestive of a mechanism that underlies axonal debris removal after injury in the OB. Taken together, these results shed light on the process by which the olfactory system is able to recover after injury and could lead to discovery of mechanisms that could translate to treatments for injuries in other areas of the nervous system. olfactory sensory neurons regeneration axon microglia phagocytosis Laboratory and Basic Science Research Molecular and Cellular Neuroscience Systems Neuroscience
247	Interakce Borrelia sp. s buňkami HL-60 a monocyty a kultivace Anaplasma phagocytophilum na buňkách HL-60 / Interaction of Borrelia sp. with HL-60 cells and monocytes and cultivation of Anaplasma phagocytophilum in HL-60 cell culture Marková, Lucie January 2011 (has links) Borrelia burgdorferi sensu lato and Anaplasma phagocytophilum are causative agents of Lyme disease and human granulocytic anaplasmosis. Their common vector in Europe are the ticks from the genus Ixodes. In our work, we focused on interaction of innate immune cells with the causative agent of Lyme diseases, that are insubstitutable in their function in the early phase of the disease. Anaplasma phagocytophilum is hard to cultivate, the only possibility is to cultivate it in cell cultures. Successful cultivation of Anaplasma phagocytophilum acquired from patients in our geographic area is crucial for following experiments and for diagnostics too. In our experiments, we used validated cell cultures of HL-60 cells, canine monocytes DH82 and murine monocytes P388D1. During our studies of interaction of the causative agent of Lyme diseases with cells, we used two strains of different species Borrelia. Borrelia garinii M192 and Borrelia burgdorferi sensu stricto B31. These strains vary in virulence. The strain M192 is virulent, but the strain B31 lost its virulence by passages. We specialised in study of morphological changes using light microscopy (observation of dyed and fixed preparates and observation in dark field), eventually by transmision electron microscopy. During our experiments, we concluded that HL-60...
248	β-Glucan Size Controls Dectin-1-Mediated Immune Responses in Human Dendritic Cells by Regulating IL-1β Production Elder, Matthew J., Webster, Steve J., Chee, Ronnie, Williams, David L., Hill Gaston, J. S., Goodall, Jane C. 07 July 2017 (has links) Dectin-1/CLEC7A is a pattern recognition receptor that recognizes β-1,3 glucans, and its stimulation initiates signaling events characterized by the production of inflammatory cytokines from human dendritic cells (DCs) required for antifungal immunity. β-glucans differ greatly in size, structure, and ability to activate effector immune responses from DC; as such, small particulate β-glucans are thought to be poor activators of innate immunity. We show that β-glucan particle size is a critical factor contributing to the secretion of cytokines from human DC; large β-glucan-stimulated DC generate significantly more IL-1β, IL-6, and IL-23 compared to those stimulated with the smaller β-glucans. In marked contrast, the secretion of TSLP and CCL22 were found to be insensitive to β-glucan particle size. Furthermore, we show that the capacity to induce phagocytosis, and the relative IL-1β production determined by β-glucan size, regulates the composition of the cytokine milieu generated from DC. This suggests that β-glucan particle size is critically important in orchestrating the nature of the immune response to fungi. dectin-1 dendritic cell IL-1β phagocytosis reactive oxygen species β-glucan Surgery
249	Vav1 and PI3k Are Required for Phagocytosis of β-Glucan and Subsequent Superoxide Generation by Microglia Shah, Vaibhav B., Ozment-Skelton, Tammy R., Williams, David L., Keshvara, Lakhu 01 May 2009 (has links) Microglia are the resident innate immune cells that are critical for innate and adaptive immune responses within the CNS. They recognize and are activated by pathogen-associated molecular patterns (PAMPs) present on the surface of pathogens. β-glucans, the major PAMP present within fungal cell walls, are recognized by Dectin-1, which mediates numerous intracellular events invoked by β-glucans in various immune cells. Previously, we showed that Dectin-1 mediates phagocytosis of β-glucan and subsequent superoxide production in microglia. Here, we report that the guanine nucleotide exchange factor Vav1 as well as phosphoinositide-3 kinase (PI3K) are downstream mediators of what is now recognized as the Dectin-1 signaling pathway. Both Vav1 and PI3K are activated upon stimulation of microglia with β-glucans, and the two proteins are required for phagocytosis of the glucan particles and for subsequent superoxide production. We also show that Vav1 functions upstream of PI3K and is required for activation of PI3K. Together, our results provide an important insight into the mechanistic aspects of microglial activation in response to β-glucans. cell surface molecules fungal microglia neuroimmunology phagocytosis reactive oxygen species signal transduction Surgery
250	Cellular mechanism of neutrophil chemotaxis: the role of CA<sup>+2</sup>, as viewed with the fluorescent dye, FURA-2, in the polarization of human polymorphonuclear leukocytes following stimulation with the chemoattractant, F-Methionyl-Leucyl-Phenylalanine: a thesis Scanlon, Mary 01 April 1987 (has links) The mechanism by which a cell translates a spatially oriented, extracellular signal into a change in morphology and behavior is the key to understanding many biological processes. In order to investigate this general phenomenon, I have studied the chemotactic response of human polymorphonuclear leukocytes (PMN's) to f-methionyl-leucyl-phenylalanine (fMLP). Stimulation of PMN's with fMLP produces a plethora of intracellular events, including increases in cytosolic Ca+2. PMN's are also morphologically and behaviorally polarized by stimulation with chemoattractant; the membrane components and cytosolic organelles of polarized PMN's become asymmetrically distributed. Polarization and subsequent orientation of PMN's in the direction of fMLP are steps which precede and are necessary for chemotaxis. I have chosen to examine the role of Ca+2, a ubiquitous second messenger, in the polarization of PMN's to fMLP. To accomplish this goal, Ca+2 has been measured in resting and polarized PMN's, utilizing the intracellular fluorescence of the Ca+2-sensitive dye, fura-2. Initial experiments have revealed a Ca+2-insensitive form of fura-2 associated with PMN's which, if uncorrected, would lead to erroneous measurements of [Ca+2]. I have suggested putative sources for the Ca+2-insensitive fluorescence in PMN's and have presented two methods for accurate calculation of [Ca+2] in spite of the additional component of fluorescence. As measured from the cell-associated fluorescence of fura-2, [Ca+2] increases without a detectable lag upon addition of fMLP to PMN's in suspension. The rise in [Ca+2] is associated with an increase in the percentage of cells which polarize to fMLP. The increases in [Ca+2] and in polarization are both directly related to increases in the concentration of chemoattractant. Inhibition of the rise in [Ca+2], by exposure of the human donor to aspirin or addition of EGTA to isolated cells, results in a concommitant reduction in the percentage of cells which polarize to fMLP. These findings are consistent with the hypothesis that Ca+2 acts as a second messenger in the pathway of transduction of the extracellular signal which results in polarization. However, addition of ionomycin, the Ca+2-selective ionophore, to PMN's did not induce polarization either in the presence or in the absence of fMLP. This result suggests that increases Ca+2, which appear to be necessary for polarization, are locally distributed within the fMLP-stimulated PMN. Examination of the subcellular distribution of Ca+2 using the digital imaging microscope reveals that Ca+2 is not uniformly distributed in the polarized PMN. Cells polarized by stimulation with fMLP often exhibit regional differences in [Ca+2] from front to tail. The magnitude and direction of the intracellular gradient varies among cells and suggests that within individual cells, the heterogeneity of [Ca+2] varies temporally and spatially as the cell chemotaxes. The results of the experiments conducted in this dissertation suggest that Ca+2 plays an important role as second messenger in fMLP-stimulated PMN's. I suggest that the morphological polarity of the chemotactic PMN is dependent upon the establishment and maintenance of an intracellular Ca+2 gradient. Phagocytosis Neutrophils Chemotaxis, Leukocyte Academic Dissertations Life Sciences Medicine and Health Sciences

Search results