Global ETD Search

61	Activated Protein C Ameliorates Tubular Mitochondrial Reactive Oxygen Species and Inflammation in Diabetic Kidney Disease Rana, Rajiv, Manoharan, Jayakumar, Gupta, Anubhuti, Gupta, Dheerendra, Elwakiel, Ahmed, Khawaja, Hamzah, Fatima, Sameen, Zimmermann, Silke, Singh, Kunal, Ambreen, Saira, Gahdi, Ihsan, Biemann, Ronald, Jiang, Shihai, Shahzad, Khurrum, Kohli, Shrey, Isermann, Berend 01 November 2023 (has links) Diabetic kidney disease (DKD) is an emerging pandemic, paralleling the worldwide increase in obesity and diabetes mellitus. DKD is now the most frequent cause of end-stage renal disease and is associated with an excessive risk of cardiovascular morbidity and mortality. DKD is a consequence of systemic endothelial dysfunction. The endothelial-dependent cytoprotective coagulation protease activated protein C (aPC) ameliorates glomerular damage in DKD, in part by reducing mitochondrial ROS generation in glomerular cells. Whether aPC reduces mitochondrial ROS generation in the tubular compartment remains unknown. Here, we conducted expression profiling of kidneys in diabetic mice (wild-type and mice with increased plasma levels of aPC, APChigh mice). The top induced pathways were related to metabolism and in particular to oxidoreductase activity. In tubular cells, aPC maintained the expression of genes related to the electron transport chain, PGC1-α expression, and mitochondrial mass. These effects were associated with reduced mitochondrial ROS generation. Likewise, NLRP3 inflammasome activation and sterile inflammation, which are known to be linked to excess ROS generation in DKD, were reduced in diabetic APChigh mice. Thus, aPC reduces mitochondrial ROS generation in tubular cells and dampens the associated renal sterile inflammation. These studies support approaches harnessing the cytoprotective effects of aPC in DKD. info:eu-repo/classification/ddc/610 ddc:610
62	Cinética celular na endometriose profunda infiltrativa de reto-sigmoide: estudo anátomo-clínico / Cell kinetics in deep infiltrating endometriosis of rectosigmoid: an anatomoclinical study Bassi, Marco Antonio 13 September 2011 (has links) INTRODUÇÃO: A endometriose, uma doença benigna, tem características invasivas com potencial proliferativo. O desenvolvimento das lesões pode ocorrer em decorrência de crescimento celular glandular e/ou estromal ou de alterações na cinética celular. Cinética celular refere-se ao equilíbrio entre a morte celular, ou apoptose, e a proliferação celular, que pode ser avaliada pela expressão de fatores de crescimento como, por exemplo, a topoisomerase 2-alfa (TOP2A). Também influenciam a cinética celular oncoproteínas como p53 e c-erB2, conhecidas por interferir na apoptose, podendo resultar em oncogênese. OBJETIVOS: O objetivo principal deste estudo foi comparar a cinética celular da endometriose infiltrativa de retosigmoide com a do endométrio eutópico de pacientes sem endometriose. Para tanto, foi avaliada a expressão de apoptose e de TOP2A bem como das oncoproteínas p53 e c-erB2. MÉTODOS: Foram obtidas amostras de lesões de endometriose envolvendo o reto-sigmoide de 60 mulheres com a doença e amostras de endométrio eutópico de 20 mulheres sem endometriose. A expressão de TOP2A e das proteínas p53 e c-erB2 foram quantificadas por técnica imuno-histoquímica. Método TUNEL foi utilizado para analisar os padrões de apoptose, que resultaram em índice de apoptose (IA). Índice de proliferação celular (IP) foi determinado a partir do nível de expressão de TOP2A. Índice de renovação celular (IRC) foi calculado pela razão entre IP e IA. As análises imuno-histoquímicas foram realizadas tanto no tecido endometrial como um todo, quanto nos componentes estromal e glandular separadamente. Coeficiente de Correlação de Spearman foi aplicado para identificar eventuais correlações entre variáveis clínicas, morfológicas (tamanho, quantidade e nível de invasão das lesões) e experimentais. RESULTADOS: Na análise da amostra do tecido como um todo, não foram evidenciadas diferenças entre os grupos experimental e controle em relação ao IA (p = 0,389). Por outro lado, o IP foi significativamente maior nas amostras-controle (p < 0,001). Na avaliação em que se sepaxii raram as células estromais dos componentes glandulares, tanto o IP quanto o IRC foram significativamente maiores no grupo-controle em comparação com o grupo experimental (IP estromal: p = 0,006; IP glandular: p = 0,001; IRC estromal: p =0,032; IRC glandular: p = 0,007). Nas pacientes com endometriose, foi encontrada correlação entre IP e IRC glandular e o número de lesões (p = 0,003). Também foi observada correlação entre o IRC glandular e o tamanho das lesões (p = 0,006). Não houve diferença entre os grupos no que se refere à expressão de p53 e cerB2. CONCLUSÕES: A cinética celular se mostrou alterada em pacientes com endometriose do reto-sigmoide, conforme demonstrado pela redução nos níveis e na frequência de TOP2A, e pelos IP e IRC mais baixos; entretanto, apoptose e as expressões de p53 e c-erB2 se mostraram inalteradas / BACKGROUND: Endometriosis, a benign disease, has invasive features with its proliferative potential. Development of lesions may occur due to stromal and/or glandular cell growth and to alterations in cellular kinetics. Cellular kinetics involves a balance between the regulation of cell death, or apoptosis, and cell growth, that can be evaluated by the expression of growth factors, such as topoisomerase 2- alpha (TOP2A). Oncoproteins, such as p53 and c-erB2, known to affect apoptosis resulting in oncogenesis, also influence cellular kinetics. OBJECTIVES: The main objective of this study was to compare the cellular kinetics in deep endometriosis involving the recto-sigmoid to eutopic endometrium from patients without endometriosis. Apoptosis and TOP2A expression were primarily evaluated, as well as p53 and c-erB2 expression. METHODS: Study samples were obtained from endometriosis lesions involving the recto-sigmoid in 60 women, and control samples were obtained from eutopic endometrium from 20 women without endometriosis. The expression of TOP-2A, p53 and c-erB2 proteins were quantified using immuno-histochemistry. TUNEL method was used in the analysis of apoptosis patterns, and the apoptosis index (AI) was derived. The proliferation index (PI) was derived from the level of expression of TOP-2A. Cellular renew index (CRI) was calculated from the ratio of the PI and AI. Immunohistochemical analyses were performed in two ways: on the tissue collectively, and on the stromal and glandular components separately. Spearmans correlation coefficient was used to identify the correlation between clinical, morphological (size, number and level of invasion of lesions) and the study variables. RESULTS: When looked at collectively, there was no difference in the AI between study and control groups (p = 0.389). PI, however, was noted to be significantly higher in the control samples (p < 0.001). When evaluating the stromal cells separately from the glandular components, the PI and CRI were both significantly xiv higher in the control group compared to the study group (Study stromal PI vs control stromal PI; p = 0.006; Study glandular PI vs study glandular PI; p = 0.001; Study stromal CRI vs control stromal CRI; p = 0.032; study glandular CRI vs control glandular CRI; p = 0.007). In patients with endometriosis, a correlation was found between glandular PI, CRI and number of lesions (p = 0.003). The same result was observed in the analysis of stromal CRI and lesion size (p = 0.006). There was no difference in expression of p53 and c-erB2 between groups. CONCLUSIONS: Cellular kinetics is altered in endometriosis of the recto-sigmoid, as shown by the decrease in the levels and frequency of TOP2A expression, and lower PI and CRI; however, apoptosis and p53 and c-erB2 expression were unaffected Apoptose Apoptosis Bowel DNA topoisomerase type II DNA topoisomerases tipo II Endometriose Endometriosis Genes p53 Genes p53 Intestino grosso Protein c-erbB-2 Proteína c-erbB-2
63	Cinética celular na endometriose profunda infiltrativa de reto-sigmoide: estudo anátomo-clínico / Cell kinetics in deep infiltrating endometriosis of rectosigmoid: an anatomoclinical study Marco Antonio Bassi 13 September 2011 (has links) INTRODUÇÃO: A endometriose, uma doença benigna, tem características invasivas com potencial proliferativo. O desenvolvimento das lesões pode ocorrer em decorrência de crescimento celular glandular e/ou estromal ou de alterações na cinética celular. Cinética celular refere-se ao equilíbrio entre a morte celular, ou apoptose, e a proliferação celular, que pode ser avaliada pela expressão de fatores de crescimento como, por exemplo, a topoisomerase 2-alfa (TOP2A). Também influenciam a cinética celular oncoproteínas como p53 e c-erB2, conhecidas por interferir na apoptose, podendo resultar em oncogênese. OBJETIVOS: O objetivo principal deste estudo foi comparar a cinética celular da endometriose infiltrativa de retosigmoide com a do endométrio eutópico de pacientes sem endometriose. Para tanto, foi avaliada a expressão de apoptose e de TOP2A bem como das oncoproteínas p53 e c-erB2. MÉTODOS: Foram obtidas amostras de lesões de endometriose envolvendo o reto-sigmoide de 60 mulheres com a doença e amostras de endométrio eutópico de 20 mulheres sem endometriose. A expressão de TOP2A e das proteínas p53 e c-erB2 foram quantificadas por técnica imuno-histoquímica. Método TUNEL foi utilizado para analisar os padrões de apoptose, que resultaram em índice de apoptose (IA). Índice de proliferação celular (IP) foi determinado a partir do nível de expressão de TOP2A. Índice de renovação celular (IRC) foi calculado pela razão entre IP e IA. As análises imuno-histoquímicas foram realizadas tanto no tecido endometrial como um todo, quanto nos componentes estromal e glandular separadamente. Coeficiente de Correlação de Spearman foi aplicado para identificar eventuais correlações entre variáveis clínicas, morfológicas (tamanho, quantidade e nível de invasão das lesões) e experimentais. RESULTADOS: Na análise da amostra do tecido como um todo, não foram evidenciadas diferenças entre os grupos experimental e controle em relação ao IA (p = 0,389). Por outro lado, o IP foi significativamente maior nas amostras-controle (p < 0,001). Na avaliação em que se sepaxii raram as células estromais dos componentes glandulares, tanto o IP quanto o IRC foram significativamente maiores no grupo-controle em comparação com o grupo experimental (IP estromal: p = 0,006; IP glandular: p = 0,001; IRC estromal: p =0,032; IRC glandular: p = 0,007). Nas pacientes com endometriose, foi encontrada correlação entre IP e IRC glandular e o número de lesões (p = 0,003). Também foi observada correlação entre o IRC glandular e o tamanho das lesões (p = 0,006). Não houve diferença entre os grupos no que se refere à expressão de p53 e cerB2. CONCLUSÕES: A cinética celular se mostrou alterada em pacientes com endometriose do reto-sigmoide, conforme demonstrado pela redução nos níveis e na frequência de TOP2A, e pelos IP e IRC mais baixos; entretanto, apoptose e as expressões de p53 e c-erB2 se mostraram inalteradas / BACKGROUND: Endometriosis, a benign disease, has invasive features with its proliferative potential. Development of lesions may occur due to stromal and/or glandular cell growth and to alterations in cellular kinetics. Cellular kinetics involves a balance between the regulation of cell death, or apoptosis, and cell growth, that can be evaluated by the expression of growth factors, such as topoisomerase 2- alpha (TOP2A). Oncoproteins, such as p53 and c-erB2, known to affect apoptosis resulting in oncogenesis, also influence cellular kinetics. OBJECTIVES: The main objective of this study was to compare the cellular kinetics in deep endometriosis involving the recto-sigmoid to eutopic endometrium from patients without endometriosis. Apoptosis and TOP2A expression were primarily evaluated, as well as p53 and c-erB2 expression. METHODS: Study samples were obtained from endometriosis lesions involving the recto-sigmoid in 60 women, and control samples were obtained from eutopic endometrium from 20 women without endometriosis. The expression of TOP-2A, p53 and c-erB2 proteins were quantified using immuno-histochemistry. TUNEL method was used in the analysis of apoptosis patterns, and the apoptosis index (AI) was derived. The proliferation index (PI) was derived from the level of expression of TOP-2A. Cellular renew index (CRI) was calculated from the ratio of the PI and AI. Immunohistochemical analyses were performed in two ways: on the tissue collectively, and on the stromal and glandular components separately. Spearmans correlation coefficient was used to identify the correlation between clinical, morphological (size, number and level of invasion of lesions) and the study variables. RESULTS: When looked at collectively, there was no difference in the AI between study and control groups (p = 0.389). PI, however, was noted to be significantly higher in the control samples (p < 0.001). When evaluating the stromal cells separately from the glandular components, the PI and CRI were both significantly xiv higher in the control group compared to the study group (Study stromal PI vs control stromal PI; p = 0.006; Study glandular PI vs study glandular PI; p = 0.001; Study stromal CRI vs control stromal CRI; p = 0.032; study glandular CRI vs control glandular CRI; p = 0.007). In patients with endometriosis, a correlation was found between glandular PI, CRI and number of lesions (p = 0.003). The same result was observed in the analysis of stromal CRI and lesion size (p = 0.006). There was no difference in expression of p53 and c-erB2 between groups. CONCLUSIONS: Cellular kinetics is altered in endometriosis of the recto-sigmoid, as shown by the decrease in the levels and frequency of TOP2A expression, and lower PI and CRI; however, apoptosis and p53 and c-erB2 expression were unaffected Apoptose DNA topoisomerases tipo II Endometriose Genes p53 Intestino grosso Proteína c-erbB-2 Apoptosis Bowel DNA topoisomerase type II Endometriosis Genes p53 Protein c-erbB-2
64	Stem cell factor induced signal transduction / Lennartsson, Johan. January 2002 (has links) Diss. (sammanfattning) Uppsala : Univ., 2002. / Härtill 4 uppsatser.
65	Microparticules membranaires au cours des états septiques graves : aspects cellulaires, physiopathologiques et cliniques / Menbrane microparticles during severe septic challenge : cellular, pathophysiological and clinical aspects Delabranche, Xavier 12 July 2013 (has links) Ce travail porte sur le rôle des microparticules procoagulantes (MPs) générées par les cellules vasculaires en réponse à un état septique. Après une introduction rappelant la structure et les propriétés des microparticules et la réponse del’hôte à un agent pathogène, en particulier en terme d’activation de la coagulation, nous rapportons nos travauxexpérimentaux et cliniques. Le premier travail a été réalisé sur un modèle cellulaire de vésiculation induite par le LPS. Il nous a permis de caractériser le transfert du complexe CD14/TLR4 à différents types cellulaires in-vitro dépourvus du récepteur au LPS. Ainsi, les MPs monocytaires pourraient avoir un rôle d’amplification de la réponse inflammatoire mais aussi dans la réponse anti-inflammatoire secondaire en participant à l’apoptose lymphocytaire. Le second travail aété réalisé chez l’animal. Après induction d’un choc septique, nous avons observé une amélioration hémodynamique enréponse à la perfusion de protéine C activée associée à une modulation du phénotype des MPs. Réinjectées à des ratsnaïfs, les MPs issues des rats septiques traités par protéine C activée développaient une moindre vasoplégie. Enfin, nous avons réalisé une étude prospective sur 100 patients en choc septique. Nous avons ainsi pu caractériser la présence d’une concentration élevée de microparticules procoagulantes, avec une variation phénotypique en présence de coagulation intravasculaire disséminée (CIVD) : réduction du contingent plaquettaire au profit des MPs d’origine leucocytaires qui deviennent prépondérantes et témoignent d’une activation leucocytaire accrue, et surtout une activation des cellules endothéliales avec génération de MPs porteuses d’endogline (CD105). En analyse multivariée,CD105+-MPs étaient fortement associée à la CIVD et pourraient constituer un marqueur précoce de l’atteinte endothéliale au cours du choc septique. / This work focused on procoagulant microparticles shed after vascular cells stress during sepsis. The first part gives an overview on MPs and host response during pathogen challenge. The first lab experimental work confirms direct and functional transfer of CD14/TLR4 LPS sensor by MPs shed to target cells after monocytic THP-1 challenge by LPS.CD14-MPs amplify LPS-induced apoptosis in monocytes but also prompted lymphocyte apoptosis and could play a role in secondary anti-inflammatory response. Then, septic shock was induced in rats after caecal ligature and puncture.Activated protein C (APC) infusion improved haemodynamic parameters and alter septic microparticular content. Infused in naïve rats, APC-treated MPs were associated with reduced hypotension and inflammatory response, confirming cytoprotective effect of both APC and APC-induced MPs. Finally, we performed a clinical prospective study in 3 medical ICU in France. Patients referred for septic shock had an increased level of circulating procoagulant MPs regardless disseminated intravascular coagulopathy (DIC) diagnosis. Nevertheless, DIC patients evidenced a specific pattern with lower platelet-MPs, increased leucocyte-MPs and specific endothelial cells activation with endoglin (CD105) shedding. In multiple logistic regression analysis, CD105-MPs were strongly associated with DIC and were evidenced before DIC diagnosis according to routine laboratory assays. Microparticules Choc septique Coagulation intravasculaire disséminée Protéine C activée Endothélium Hémostase Inflammation Procoagulant microparticles shed Lymphocyte apoptosis Septic shock Activated protein C Disseminated intravascular coagulopathy 572.8 612.1 616.1
66	The interaction between cholesterol and surfactant protein-c in lung surfactant Gomez Gil, Leticia 07 July 2009 (has links) The presence of cholesterol is critical in defining a dynamic lateral structure in pulmonary <p>surfactant membranes, including the segregation of fluid-ordered and fluid-disordered phases. <p>However, an excess of cholesterol has been associated with impaired surface activity both in <p>surfactant models and in surfactant from injured lungs. It has also been reported that surfactant <p>protein SP-C interacts with cholesterol in lipid/protein interfacial films. In the present study, we <p>have analyzed the effect of SP-C on the thermodynamic properties of phospholipid membranes <p>containing cholesterol and on the ability of lipid/protein complexes containing surfactant <p>proteins and cholesterol to form and re-spread interfacial films capable of producing very low <p>surface tensions upon repetitive compression-expansion cycling. We have also analyzed the effect of cholesterol on the <p>structure, orientation and dynamic properties of SP-C embedded in physiologically relevant <p>model membranes. <p><p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Chimie Sciences de l'ingénieur Lungs -- Physiology Cholesterol Membrane proteins Protein C Poumons -- Physiologie Cholestérol Protéines membranaires Protéine C cholesterol SP-C Lung surfactant
67	Study Of Rpb4, A Component Of RNA Polymerase II As A Coordinator Of Transcription Initiation And Elongation In S. Cerevisiae Deshpande, Swati January 2013 (has links) (PDF) RNA polymerase II (Pol II) is the enzyme responsible for the synthesis of all mRNAs in eukaryotic cells. As the central component of the eukaryotic transcription machinery, Pol II is the final target of transcription regulatory pathways. While the role for different Pol II associated proteins, co-activators and general transcription factors (GTFs) in regulation of transcription in response to different stimuli is well studied, a similar role for some subunits of the core Pol II is only now being recognized. The studies reported in this thesis address the role of the fourth largest subunit of Pol II, Rpb4, in transcription and stress response using Saccharomyces cerevisiae as the model system. Rpb4 is closely associated with another smaller subunit, Rpb7 and forms a dissociable complex (Edwards et al. 1991). The rpb4 null mutant is viable but is unable to survive at extreme temperatures (>34ºC and <12ºC) (Woychik and Young, 1989). This mutant has also been shown to be defective in activated transcription and unable to respond adequately to several stress conditions (Pillai et al. 2001; Sampath and Sadhale, 2005). In spite of wealth of available information, the exact role of Rpb4 in transcription process remains poorly understood. In the present work, we have used genetic, molecular and biochemical approaches to understand the role of Rpb4 as described in three different parts below: I. Role of Rpb4 in various pathways related to Transcription Elongation The genome-wide recruitment study of RNA pol II in presence and absence of Rpb4 has indicated role of Rpb4 in transcription elongation (Verma-Gaur et al. 2008). However, a recent proteomics based report has argued against it (Mosley et al. 2013). To address this conflict and understand Rpb4 functions, we monitored recruitment of RNA pol II on a few individual long genes in wild type and rpb4∆ cells. It was observed that RNA pol II recruitment on genes with longer coding regions is not significantly affected in rpb4∆ as compared to wild type thus ruling out role of Rpb4 in transcription elongation of these genes. However, our genetic interaction studies have shown a strong interaction (synthetic lethality) between RPB4 and the PAF1 and SPT4 genes, the products of which code for well-known transcription elongation factors. The studies based on Rpb4 overexpression in mutants for elongation factors, 6-Azauracil sensitivity of cells, effect of Dst1 overexpression in rpb4∆ cells and mitotic recombination rate in rpb4∆ cells have indicated functional interactions of Rpb4 with many of the transcription elongation factors. II. Studies on Genetic and Functional Interactions of Rpb4 with SAGA Complex in Promoter- Specific Transcription Initiation To carry out transcription, RNA pol II depends on several general transcription factors, mediators, activators, co-activators and chromatin remodeling complexes. In the present study, we explored the genetic and functional relationships between Rpb4 and the SAGA complex of transcription machinery, to gain some insight on the role of Rpb4 during transcription. Our chromatin immunoprecipitation data suggest that RNA pol II does not associate with promoters of heat shock genes during transcription activation of these heat stress induced genes in absence of Rpb4. SAGA coactivator complex is required for RNA pol II recruitment and transcription activation of these genes (Zanton and Pugh, 2004). However, recruitment of the SAGA complex at promoters of these heat shock genes was not affected in rpb4∆ cells after heat stress. Our genetic interaction analysis between RPB4 and components of SAGA complex (spt20∆) showed synthetic lethality indicating that fully functional Rpb4 and SAGA complex are required for cellular functions in the absence of heat stress and the simultaneous deletion of factors in the two complexes leads to cell death. III. Role of Rpb4 in phosphorylation cycles of Rpb1-CTD The C-Terminal Domain (CTD) of Rpb1 protein of RNA pol II undergoes several rounds of phosphorylation cycles at Ser-2 and Ser-5 residues on its heptad repeats during transcription. These phosphorylation marks are to be erased before the start of next round of transcription. Using protein pull down assay, we observed that hyperphosphorylated form of Rpb1 is reduced in rpb4∆ as compared to that seen in wild type cells among the free RNA pol II molecules. The level of Rpb2 protein was unaffected in both wild type and rpb4∆. These preliminary data hints at role of Rpb4 in the regulation of Rpb1 phosphorylation. Yeast Genetics RNA Polymerase Saccharomyces cerevisiae RNA Transcription Rpb4 RNA Polymerase II Genetic Transcription Rpb1-CTD RNA Pol II Biochemical Genetics
68	Les microparticules dans le choc septique, marqueurs pathogènes et cibles thérapeutiques potentielles / Microparticles in septic shock, pathogenic biomarkers and potential therapeutic targets Helms, Julie 30 June 2014 (has links) Le choc septique est caractérisé par une intense activation cellulaire marquée par une génération excessive de microparticules (MPs), libérées dans l’espace extracellulaire suite à un remaniement de la membrane plasmique. Les MPs participeraient à la dysfonction cardiovasculaire et à la coagulopathie du choc septique. Nous avons exploré l’intérêt des MPs circulantes comme marqueurs pathogènes, en étudiant l’effet d’acides gras exogènes sur le remodelage de la membrane plasmique et la genèse des MPs, in-vitro dans un modèle de cellules en culture stimulées par une endotoxine et in vivo chez le rat septique. Nous avons ensuite caractérisé l’activation cellulaire du choc septique chez l’homme, en utilisant les MPs circulantes comme témoins de la dysfonction du compartiment vasculaire, puis montré la place des MPs comme cibles thérapeutiques potentielles au cours du choc septique, par leur modulation pharmacologique dans un modèle de choc septique chez le rat.Nous montrons ainsi l’intérêt des MPs comme un nouvel outil dans l’exploration de nouvelles pistes physiopathologiques du choc septique et comme cibles pharmacologiquement modulables à des fins éventuellement thérapeutiques. / Septic shock is characterized by an intense cell activation marked by an excessive generation of microparticles (MPs), released into the extracellular space after plasma membrane remodeling. MPs take part in cardiovascular dysfunction and coagulopathy of septic shock. We investigated the role of circulating MPs as pathogenic markers, by studying the effects of exogenous fatty acids on plasma membrane remodeling and MP generation, in vitro with cultured cells stimulated by an endotoxin and and in vivo in septic rats. We have then characterized the cellular activation of septic shock in humans, using circulating MPs as evidence of vascular dysfunction and shown the place of MPs as potential therapeutic targets, through their pharmacological modulation in a rat model of septic shock.We have therefore shown the interest of MPs as a new tool to explore septic shock pathophysiology and as therapeutic targets than can be pharmacologically modulated. Microparticules Choc septique Coagulation intravasculaire disséminée Protéine C activée Endothélium Inflammation Hémostase Microparticles Septic shock Disseminated intravascular coagulation Activated protein C Endothelium Inflammation Hemostasis 572.8 612.1 616.1
69	Elucidating the interaction of Borrelia burgdorferi OspC with phagocytes in the establishment of lyme borreliosis Carrasco, Sebastian Eduardo 20 March 2015 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Lyme disease, the most prevalent vector-borne illness in the United States, is a multisystem inflammatory disorder caused by infection with the spirochete Borrelia burgdorferi (Bb). This spirochete is maintained in nature through an enzootic cycle involving ticks and small mammals. The Bb genome encodes a large number of surface lipoproteins, many of which are expressed during mammalian infection. One of these lipoproteins is the major outer surface protein C (OspC) whose production is induced during transmission as spirochetes transition from ticks to mammals. OspC is required for Bb to establish infection in mice and has been proposed to facilitate evasion of innate immunity. However, the exact biological function of OspC remains elusive. Our studies show the ospC-deficient spirochete could not establish infection in NOD-scid IL2rÎ³null mice that lack B cells, T cells, NK cells, and lytic complement, whereas the wild-type spirochete was fully infectious in these mice. The ospC mutant also could not establish infection in SCID and C3H mice that were transiently neutropenic during the first 48 h post-challenge. However, depletion of F4/80+ phagocytes at the skin-site of inoculation in SCID mice allowed the ospC mutant to establish infection in vivo. In phagocyte-depleted SCID mice, the ospC mutant was capable to colonize the joints and triggered neutrophilia during dissemination in a similar pattern as wild-type bacteria. We then constructed GFP-expressing Bb strains to evaluate the interaction of the ospC mutant with phagocytes. Using flow cytometry and fluorometric assay for phagocytosis, we found that phagocytosis of GFP-expressing ospC mutant spirochetes by murine peritoneal macrophages and human THP-1 cells was significantly higher than parental wild-type Bb strains, suggesting that OspC has an anti-phagocytic property. This enhancement in phagocytosis was not mediated by MARCO and CD36 scavenger receptors and was not associated with changes in mRNA levels of TNFÎ±, IL-1Î², and IL-10. Phagocytosis assays with HL60 neutrophil-like cells showed that uptake of Bb strains was independent to OspC. Together, our findings reveal that F4/80+ phagocytes are important for clearance of the ospC mutant, and suggest that OspC promotes spirochetes' evasion of macrophages in the skin of mice during early Lyme borreliosis. Borrelia burgdorferi EF-Tu Infection Lyme disease OspC Phagocytes Lyme disease Borrelia burgdorferi -- Research Protein C Lyme disease -- Molecular aspects Relapsing fever Spirochetes -- Molecular aspects Bacteria
70	Thrombosis and Inflammation: A Dynamic Interplay and the Role of Glycosaminoglycans and Activated Protein C Kohli, Shrey, Shahzad, Khurrum, Jouppila, Annukka, Holthöfer, Harry, Isermann, Berend, Lassila, Riitta 08 June 2023 (has links) Hemostasis, thrombosis, and inflammation are tightly interconnected processes which may give rise to thrombo-inflammation, involved in infectious and non-infectious acute and chronic diseases, including cardiovascular diseases (CVD). Traditionally, due to its hemostatic role, blood coagulation is isolated from the inflammation, and its critical contribution in the progressing CVD is underrated, until the full occlusion of a critical vessel occurs. Underlying vascular injury exposes extracellular matrix to deposit platelets and inflammatory cells. Platelets being key effector cells, bridge all the three key processes (hemostasis, thrombosis, and inflammation) associated with thrombo-inflammation. Under physiological conditions, platelets remain in an inert state despite the proximity to the endothelium and other cells which are decorated with glycosaminoglycan (GAG)-rich glycocalyx (GAGs). A pathological insult to the endothelium results in an imbalanced blood coagulation system hallmarked by increased thrombin generation due to losses of anticoagulant and cytoprotective mechanisms, i.e., the endothelial GAGs enhancing antithrombin, tissue factor pathwayinhibitor (TFPI) and thrombomodulin-protein C system. Moreover, the loss of GAGs promotes the release of mediators, such as von Willebrand factor (VWF), platelet factor 4 (PF4), and P-selectin, both locally on vascular surfaces and to circulation, further enhancing the adhesion of platelets to the affected sites. Platelet-neutrophil interaction and formation of neutrophil extracellular traps foster thrombo-inflammatory mechanisms exacerbating the cardiovascular disease course. Therefore, therapies which not only target the clotting mechanisms but simultaneously or independently convey potent cytoprotective effects hemming the inflammatory mechanisms are expected to provide clinical benefits. In this regard, we review the cytoprotective protease activated protein C (aPC) and its strong anti-inflammatory effects thereby preventing the ensuing thrombotic complications in CVD. Furthermore, restoring GAGlike vasculo-protection, such as providing heparin-proteoglycan mimetics to improve regulation of platelet and coagulation activity and to suppress of endothelial perturbance and leukocyte-derived pro-inflammatory cytokines, may provide a path to alleviate thrombo-inflammatory disorders in the future. The vascular tissue-modeled heparin proteoglycan mimic, antiplatelet and anticoagulant compound (APAC), dual antiplatelet and anticoagulant, is an injury-targeting and locally acting arterial antithrombotic which downplays collagen- and thrombin-induced and complement-induced activation and protects from organ injury. info:eu-repo/classification/ddc/610 ddc:610

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