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Prospective evaluation of S100A12 and S100A8/A9 (calprotectin) in dogs with sepsis or the systemic inflammatory response syndromeThames, Brittany E., Barr, James W., Suchodolski, Jan S., Steiner, Jörg M., Heilmann, Romy M. 11 July 2023 (has links)
Pattern recognition receptors (e.g., S100A12 or S100A8/A9) hold promise as inflammatory biomarkers. We
prospectively determined and compared serum S100A12 and S100A8/A9 concentrations in dogs with sepsis (n = 11) or
systemic inflammatory response syndrome (SIRS; n = 8) over a 3-d period with each other, healthy controls (n = 50), and other
clinical and clinicopathologic variables. Serum S100A12 and S100A8/A9 concentrations were significantly higher in dogs
with sepsis or SIRS (all p < 0.05) at the time of hospital admission (day 1) compared to healthy controls, with no differences
between patient groups. However, septic dogs had significantly lower serum S100A12 concentrations on day 2 and day 3 (both
p < 0.05) compared to dogs with SIRS. Likewise, dogs with sepsis had significantly lower S100A8/A9 concentrations on day
2 (p < 0.05). Neither serum S100A12 nor S100A8/A9 concentrations were associated with survival to discharge. Our results
suggest a differential expression of the S100/calgranulins between dogs with sepsis and those with SIRS. Serum S100A12 or
S100A8/A9 concentration at the time of hospital admission did not differentiate dogs with sepsis from those with SIRS, but
the trend of S100/calgranulin concentrations during the following 24–48 h may be a useful surrogate marker for differentiating
sepsis from SIRS.
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Avaliação do efeito do précondicionamento isquêmico no proteoma e fosfoproteoma de neutrófilos de ratos após isquemia/reperfusão / Evaluation of the effect of ischemic preconditioning on the proteome and phosphoproteome of rat neutrophils after ischemia/reperfusionArshid, Samina 07 November 2016 (has links)
Introdução: O trauma é um fenômeno que cursa com lesão tecidual, sendo que o trauma cirúrgico (TC) apresenta a referida lesão como consequência de um ato cirúrgico. A isquemia seguida de reperfusão (IR) é um evento comum em várias condições patológicas, bem como em diversos procedimentos cirúrgicos, principalmente transplantes. É frequente o desenvolvimento de lesões teciduais locais e remotas após trauma e após a I/R, parte de um fenômeno conhecido como síndrome da resposta inflamatória sistêmica (SRIS), frequentemente seguida pela falência de múltiplos órgãos (FMO). Estudos provaram o envolvimento do neutrófilo em tais síndromes como resultado da ação de enzimas proteolíticas secretadas a partir de grânulos citoplasmáticos, radicais livres produzidos por explosão respiratória e citocinas liberadas após a infiltração nos tecidos. Nesse contexto, foi provado que o pré-condicionamento isquêmico (PCI), definido como curtos episódios de isquemia precedendo a IR, protege contra essas lesões, com menor ativação de neutrófilos. No entanto, o conhecimento a respeito dos mecanismos operantes nos neutrófilos após o trauma cirúrgico, a isquemia seguida de reperfusão ou o pré-condicionamento isquêmico, ainda são preliminares. Objetivo: Analisar com maior profundidade o impacto dessas condições (TC, IR e PCI) no proteoma e fosfoproteoma do neutrófilo. Métodos: Foi realizada a análise de parâmetros hematológicos juntamente com a análise proteômica e fosfoproteômica de neutrófilos de ratos submetidos a TC, IR e PCI, comparados ao grupo controle. A análise proteômica foi realizada em sistema de nLC-MS/MS orbitrap de alto desempenho, usando marcação com iTRAQ, enriquecimento de fosfopeptídios e pré-fracionamento por HILIC. A análise estatística baseada em clusters utilizando scripts em R mostrou proteínas com abundância relativa diferencial em todas as condições. Resultados: A avaliação dos parâmetros hematológicos antes e depois de TC, IR e IPC demonstrou alterações no número, forma e tamanho de linfócitos, hemácias, plaquetas e, principalmente, neutrófilos (granulócitos). Observou-se um claro aumento na contagem de neutrófilos após TC e IR, sendo que tal aumento foi prevenido pelo PCI. Um total de 393 proteínas foram determinadas como reguladas para abundância relativa entre o grupo controle e o grupo TC. A maioria das proteínas encontradas como reguladas em comum nos grupos TC e IR estão relacionadas à apoptose (caspase-3), motilidade celular (PAK2), transdução de sinal (IL-5, IL-6 e TNF) e degradação pelo sistema proteassoma no neutrófilo. Maior produção de espécies reativas de oxigênio e disfunção da migração direcional de neutrófilos (PKC-delta) com aumento do tempo de vida dos neutrófilos são eventos iniciais importantes que podem resultar em mais dano tecidual e em infecção. A análise proteômica de neutrófilos de ratos após PCI levou à identificação de 2437 grupos de proteínas atribuídos a 5 clusters diferentes, contendo proteínas de abundância relativa significativamente aumentada ou diminuída em IR e PCI. O estudo de vias desses clusters baseado no KEGG revelou aumento nas vias de fagocitose mediada por Fc-gama R, sinalização por quimiocinas, adesão focal e migração transendotelial, citoesqueleto de actina, metabolismo e diminuição nas vias ribossomais, de transporte de RNA, de processamento de proteínas. A regulação da fosforilação de proteínas após IR e PCI mostrou algumas vias como quimiocinas, Fc-gama, GPCR, migração celular e vias pró e antiapoptóticas, sendo que a via de splicing alternativo foi a que apresentou regulação mais evidente (p < 0.0001). A regulação da abundância, bem como da fosforilação, presença de motivos e de domínios levou à identificação de fosfatases, como Fgr, GRK2, PKC delta, ptpn6 e ptprc reguladas por IR, bem como stk38, pkn1, syk e inpp5d reguladas por PCI. A interação mais marcante entre proteínas foi demonstrada como sendo entre os receptores de Fgr e Ptp. Conclusão: Concluímos que as alterações causadas por TC, IR e PCI levaram a intenss alterações na abundância de algumas proteínas e em eventos de fosforilação em neutrófilos, levando ao efeito destrutivo observado após a IR e ao efeito protetor consequente ao PCI / Introduction: Trauma is a phenomenon that involves tissue injury, whereas the surgical trauma (ST) has such injury as a consequence of a surgery. Ischemia reperfusion is common event in many surgical procedures, especially in transplants, as well as in many pathological conditions. Local and remote tissue injuries usually develop after trauma and ischemic reperfusion, part of a phenomenon known as systemic inflammatory response syndrome, frequently followed by multiple organ failure (MOF). Studies have proven the involvement of the neutrophil in all these injuries as a result of proteolytic enzymes secreted from cytoplasmic granules, free radicals produced by respiratory burst, cytokines released after tissue infiltration. In that context, ischemic preconditioning (IPC), that are short episodes of ischemia before ischemia reperfusion, was proved to be protective against these injuries with less activation of neutrophils. However the knowledge about the underlying mechanism operating in the neutrophil after surgical trauma, ischemia reperfusion and preconditioning is preliminary. Objective: To deeply analyze the impact of these conditions (ST, IR and IPC) on the neutrophil proteome and phosphoproteome. Methodology: We did hematological analysis along proteomics and phospho proteomics through high throughput nLC-MS/MS analysis by orbitrap using iTRAQ labeling, phospho peptide enrichments, and HILIC pre-fractionation. Neutrophils from control, ST, IR and IPC conditions after extraction were processed for proteomic analysis. Statistical package using R based on cluster analysis led to the detection of differentially regulated proteins in all conditions. Results: The evaluation of the hematological parameters before and after ST, IR or IPC on blood cells stated alteration in size, number and shape of lymphocytes, RBCs, platelets and specially neutrophils (granulocytes). In the analysis, a clear increase in neutrophil count after ST and IR with such increase prevented by IPC. A total of 393 proteins were found differentially regulated between control and trauma groups. Most of the common proteins found regulated in trauma and IR seem to be related to apoptosis (caspase-3), cell motility (PAK2) and signal transduction in IL5, IL6 and TNF and proteasomal degradation in neutrophil. Higher oxygen species production and dysfunction of directional neutrophil migration (PKC delta) with increase in the life span of neutrophils are early important events that can finally result into more tissue damage and infection. The total proteomic analysis of rat neutrophils after IPC led to the identification of 2437 protein groups assigned to five different clusters with significantly up and downregulated proteins in IR and IPC. Cluster based KEGG pathways analysis revealed up-regulation of chemokine signaling, focal adhesion, leukocyte transendothelial migration, actin cytoskeleton, metabolism and Fc gamma R mediated phagocytosis, whereas downregulation in ribosome, spliceosome, RNA transport, protein processing in endoplasmic reticulum and proteasome, after intestinal ischemic preconditioning. The phosphoregulated proteins containing domains and motifs in the regulated peptides after IR and IPC led to the identification of some of important players such as chemokine, Fc gamma, GPCR, migration and pro/anti-apoptotic pathways. The phosphoproteins from alternative splicing was the pathway presenting the most remarkable regulation with a p-value of 0.0001. The regulation in expression as well as in phosphorylation, the presence of motifs and domains led to the identification of kinases and phosphatases including Fgr, GRK2, PKC delta, ptpn6 and ptprc in neutrophils after IR whereas stk38, pkn1, syk, and inpp5d in neutrophil due to IPC. The highest protein-protein interaction was shown by Fgr and Ptp receptors. Conclusion: We concluded that the changed stimulus produced after ST, IR and IPC led to the huge alteration in proteins expression and phosphorylation events in the neutrophil proteome as mentioned in our work, that leads to final destructive and protective phenotype of neutrophils respectively
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Alterações funcionais de mitocondrias hepáticas na tolerância ao lipopolissacarídeo (LPS) / Functional alterations of hepatic mitochondria in lipopolysaccharide tolerance (LPS)Silva, André Augusto Botêga 27 October 2017 (has links)
O presente estudo tem por objetivo principal avaliar as alterações funcionais precoces de mitocôndrias hepáticas de ratos wistar submetidos ao estímulo de sepse através da técnica de ligadura cecal e punção (cecal ligation and puncture-CLP) e indução de tolerância ao lipopolissacarídeo (LPS) de Escherichia coli. As mitocôndrias exercem papel na alteração do metabolismo celular de pacientes sépticos. Os objetivos do presente trabalho foram: (1) padronizar a técnica de indução a tolerância para ratos wistar com LPS de E. coli (2) avaliar a função mitocondrial fosforilativa e oxidativa; (3) quantificar DNA mitocondrial em tecido hepático de animais submetidos à CPL e tolerância; (4) verificar a expressão dos genes responsáveis pela biogênese mitocondrial e replicação do DNA mitocondrial: nuclear respiratory factor (NRF-1), mitochondrial transcription factor A (TFAM) e peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC-1alfa); (5) avaliar a função dos complexos respiratórios I e IV. Os resultados encontrados no presente estudo revelaram que: (a) a taxa de mortalidade dos animais submetidos a tolerância foi de 10% quando submetidos à dose letal de LPS, enquanto a taxa de mortalidade dos animais controle foi de 100% quando submetidos à dose letal de LPS; (b) observou-se que o grupo do controle respiratório que recebeu doses controladas de LPS e foi submetido à CLP apresentou razão igual ao grupo Controle, sugerindo que a fosforilação oxidativa se manteve igual ao basal, enquanto o grupo que foi submetido ao procedimento de CLP sem indução a tolerância apresentou piora da razão do controle respiratório em relação ao grupo controle; (c) a quantificação de DNA mitocondrial mostrou-se maior nos animais submetidos a CLP sem prévia indução a tolerância, com igual aumento da expressão dos fatores de biogênese mitocondrial em relação aos demais grupos; (d) houve diferença significativa na avaliação da funcionalidade dos complexo I, porém o complexo IV se manteve igual em todos os grupos. Concluiu-se que a indução a tolerância altera positivamente a função mitocondrial em animais submetidos à CLP / The aim of this study was to evaluate the early functional alterations of hepatic mitochondria of wistar rats submitted to the stimulation of sepsis through the technique of cecal ligation and puncture (CLP) and induction of tolerance to lipopolysaccharide (LPS) of Escherichia coli. Mitochondria play a role in altering the cellular metabolism of septic patients. The objectives of the present study were: (1) to standardize the tolerance induction technique for wistar rats with E. coli LPS (2) to evaluate the mitochondrial phosphorylation and oxidative function; (3) quantify mitochondrial DNA in hepatic tissue of animals submitted to CPL and tolerance; (4) to verify the expression of genes responsible for mitochondria biogenesis and mitochondrial DNA replication nuclear mitochondrial biogenesis (NRF-1), mitochondrial transcription factor A (TFAM) and peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC-1alpha); (5) to evaluate the function of respiratory complexes I and IV. The results found in the present study revealed that: (a) the mortality rate of the animals submitted to tolerance was 10% when submitted to the lethal dose of LPS, whereas the mortality rate of the control animals was 100% when submitted to the lethal dose of LPS; (B) it was observed that the group receiving controlled doses of LPS and submitted to CLP presented a ratio equal to the control group, suggesting that oxidative phosphorylation remained the same at baseline, whereas the group that underwent CLP procedure without induction of tolerance presented worsening of the respiratory control ratio in relation to the control group; (C) the mitochondrial DNA quantification was higher in the animals submitted to CLP without prior tolerance induction, with an equal increase in mitochondrial biogenesis factors expression in relation to the other groups; (D) there was significant difference in the evaluation of the functionality of complexes I, but no difference in complex IV in all groups. It was concluded that induction of tolerance positively alters mitochondrial function in animals submitted to CLP
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Alterações funcionais de mitocondrias hepáticas na tolerância ao lipopolissacarídeo (LPS) / Functional alterations of hepatic mitochondria in lipopolysaccharide tolerance (LPS)André Augusto Botêga Silva 27 October 2017 (has links)
O presente estudo tem por objetivo principal avaliar as alterações funcionais precoces de mitocôndrias hepáticas de ratos wistar submetidos ao estímulo de sepse através da técnica de ligadura cecal e punção (cecal ligation and puncture-CLP) e indução de tolerância ao lipopolissacarídeo (LPS) de Escherichia coli. As mitocôndrias exercem papel na alteração do metabolismo celular de pacientes sépticos. Os objetivos do presente trabalho foram: (1) padronizar a técnica de indução a tolerância para ratos wistar com LPS de E. coli (2) avaliar a função mitocondrial fosforilativa e oxidativa; (3) quantificar DNA mitocondrial em tecido hepático de animais submetidos à CPL e tolerância; (4) verificar a expressão dos genes responsáveis pela biogênese mitocondrial e replicação do DNA mitocondrial: nuclear respiratory factor (NRF-1), mitochondrial transcription factor A (TFAM) e peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC-1alfa); (5) avaliar a função dos complexos respiratórios I e IV. Os resultados encontrados no presente estudo revelaram que: (a) a taxa de mortalidade dos animais submetidos a tolerância foi de 10% quando submetidos à dose letal de LPS, enquanto a taxa de mortalidade dos animais controle foi de 100% quando submetidos à dose letal de LPS; (b) observou-se que o grupo do controle respiratório que recebeu doses controladas de LPS e foi submetido à CLP apresentou razão igual ao grupo Controle, sugerindo que a fosforilação oxidativa se manteve igual ao basal, enquanto o grupo que foi submetido ao procedimento de CLP sem indução a tolerância apresentou piora da razão do controle respiratório em relação ao grupo controle; (c) a quantificação de DNA mitocondrial mostrou-se maior nos animais submetidos a CLP sem prévia indução a tolerância, com igual aumento da expressão dos fatores de biogênese mitocondrial em relação aos demais grupos; (d) houve diferença significativa na avaliação da funcionalidade dos complexo I, porém o complexo IV se manteve igual em todos os grupos. Concluiu-se que a indução a tolerância altera positivamente a função mitocondrial em animais submetidos à CLP / The aim of this study was to evaluate the early functional alterations of hepatic mitochondria of wistar rats submitted to the stimulation of sepsis through the technique of cecal ligation and puncture (CLP) and induction of tolerance to lipopolysaccharide (LPS) of Escherichia coli. Mitochondria play a role in altering the cellular metabolism of septic patients. The objectives of the present study were: (1) to standardize the tolerance induction technique for wistar rats with E. coli LPS (2) to evaluate the mitochondrial phosphorylation and oxidative function; (3) quantify mitochondrial DNA in hepatic tissue of animals submitted to CPL and tolerance; (4) to verify the expression of genes responsible for mitochondria biogenesis and mitochondrial DNA replication nuclear mitochondrial biogenesis (NRF-1), mitochondrial transcription factor A (TFAM) and peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC-1alpha); (5) to evaluate the function of respiratory complexes I and IV. The results found in the present study revealed that: (a) the mortality rate of the animals submitted to tolerance was 10% when submitted to the lethal dose of LPS, whereas the mortality rate of the control animals was 100% when submitted to the lethal dose of LPS; (B) it was observed that the group receiving controlled doses of LPS and submitted to CLP presented a ratio equal to the control group, suggesting that oxidative phosphorylation remained the same at baseline, whereas the group that underwent CLP procedure without induction of tolerance presented worsening of the respiratory control ratio in relation to the control group; (C) the mitochondrial DNA quantification was higher in the animals submitted to CLP without prior tolerance induction, with an equal increase in mitochondrial biogenesis factors expression in relation to the other groups; (D) there was significant difference in the evaluation of the functionality of complexes I, but no difference in complex IV in all groups. It was concluded that induction of tolerance positively alters mitochondrial function in animals submitted to CLP
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Assessment of the Effect of Induced Hypothermia in Experimental Sepsis Using a Cecal Ligation and Perforation Mouse ModelLuo, Karen Yao 25 July 2011 (has links)
Sepsis-induced organ failure is associated with high morbidity and mortality
rates. The onset of an exaggerated host response to microbial invasion and/or trauma, is believed to be the primary cause of excessive inflammation and the subsequent tissue hypoperfusion observed in patients with severe sepsis. In our mouse model of sepsis induced by cecal ligation and perforation (CLP), symptoms indicative of the disease, including diarrhea, increased ventilation and persistent hypothermia, are present at six hours after the surgery (T6). In the untreated CLP mice, mortality occurs starting at T15. As induced hypothermia has shown to exert immunomodulatory effects, this study is aimed at assessing its potential in attenuating inflammation and improving survival in experimental sepsis. Our data has shown that deep hypothermia initiated at T6, by means of cold chamber-induced cooling, prolongs survival. Plasma cytokine quantification by enzyme-linked immunosorbent assays (ELISA) also reveals that induced deep hypothermia reduces tumour necrosis factor(TNF)-α and interleukin (IL)-6 production in untreated CLP mice. In contrast, induced moderate hypothermia does not have such effect. Antibiotic (cefotaxime) and saline resuscitation initiated immediately following CLP ensures survival. However, when these supportive treatments are initiated at T6, >50% mortality is observed in the CLP mice with or without induced hypothermia. In summary, this preliminary study provides proof for a downregulated inflammatory response mediated by external cooling. However, to achieve a survival benefit, treatment strategies in addition to cooling and antibiotics may be required.
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Assessment of the Effect of Induced Hypothermia in Experimental Sepsis Using a Cecal Ligation and Perforation Mouse ModelLuo, Karen Yao 25 July 2011 (has links)
Sepsis-induced organ failure is associated with high morbidity and mortality
rates. The onset of an exaggerated host response to microbial invasion and/or trauma, is believed to be the primary cause of excessive inflammation and the subsequent tissue hypoperfusion observed in patients with severe sepsis. In our mouse model of sepsis induced by cecal ligation and perforation (CLP), symptoms indicative of the disease, including diarrhea, increased ventilation and persistent hypothermia, are present at six hours after the surgery (T6). In the untreated CLP mice, mortality occurs starting at T15. As induced hypothermia has shown to exert immunomodulatory effects, this study is aimed at assessing its potential in attenuating inflammation and improving survival in experimental sepsis. Our data has shown that deep hypothermia initiated at T6, by means of cold chamber-induced cooling, prolongs survival. Plasma cytokine quantification by enzyme-linked immunosorbent assays (ELISA) also reveals that induced deep hypothermia reduces tumour necrosis factor(TNF)-α and interleukin (IL)-6 production in untreated CLP mice. In contrast, induced moderate hypothermia does not have such effect. Antibiotic (cefotaxime) and saline resuscitation initiated immediately following CLP ensures survival. However, when these supportive treatments are initiated at T6, >50% mortality is observed in the CLP mice with or without induced hypothermia. In summary, this preliminary study provides proof for a downregulated inflammatory response mediated by external cooling. However, to achieve a survival benefit, treatment strategies in addition to cooling and antibiotics may be required.
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Diagnosis of Systemic Inflammation Using Transendothelial Electrical Resistance and Low-Temperature Co-fired Ceramic MaterialsMercke, William L 01 January 2013 (has links)
Systemic inflammation involves a complex array of cytokines that can result in organ dysfunction. Mortality remains high despite the vast amount of research conducted to find an effective biomarker. The cause of systemic inflammation can be broad and non-specific; therefore, this research investigates using transendothelial electrical resistance (TEER) measurements to better define systemic inflammatory response syndrome (SIRS)/sepsis within a patient. Results show a difference in TEER measurements between healthy individuals and SIRS-rated patients. This research also displays correlations between TEER measurements and biomarkers currently studied with systemic inflammation (tumor necrosis factor-α, C- reactive protein, procalcitonin). Furthermore, this research also presents the groundwork for developing a microfluidic cell-based biosensor using low temperature co-fired ceramic materials. An LTCC TEER-based microfluidic device has the potential to aid in a more effective treatment strategy for patients and potentially save lives.
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Assessment of the Effect of Induced Hypothermia in Experimental Sepsis Using a Cecal Ligation and Perforation Mouse ModelLuo, Karen Yao 25 July 2011 (has links)
Sepsis-induced organ failure is associated with high morbidity and mortality
rates. The onset of an exaggerated host response to microbial invasion and/or trauma, is believed to be the primary cause of excessive inflammation and the subsequent tissue hypoperfusion observed in patients with severe sepsis. In our mouse model of sepsis induced by cecal ligation and perforation (CLP), symptoms indicative of the disease, including diarrhea, increased ventilation and persistent hypothermia, are present at six hours after the surgery (T6). In the untreated CLP mice, mortality occurs starting at T15. As induced hypothermia has shown to exert immunomodulatory effects, this study is aimed at assessing its potential in attenuating inflammation and improving survival in experimental sepsis. Our data has shown that deep hypothermia initiated at T6, by means of cold chamber-induced cooling, prolongs survival. Plasma cytokine quantification by enzyme-linked immunosorbent assays (ELISA) also reveals that induced deep hypothermia reduces tumour necrosis factor(TNF)-α and interleukin (IL)-6 production in untreated CLP mice. In contrast, induced moderate hypothermia does not have such effect. Antibiotic (cefotaxime) and saline resuscitation initiated immediately following CLP ensures survival. However, when these supportive treatments are initiated at T6, >50% mortality is observed in the CLP mice with or without induced hypothermia. In summary, this preliminary study provides proof for a downregulated inflammatory response mediated by external cooling. However, to achieve a survival benefit, treatment strategies in addition to cooling and antibiotics may be required.
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Avaliação do efeito do précondicionamento isquêmico no proteoma e fosfoproteoma de neutrófilos de ratos após isquemia/reperfusão / Evaluation of the effect of ischemic preconditioning on the proteome and phosphoproteome of rat neutrophils after ischemia/reperfusionSamina Arshid 07 November 2016 (has links)
Introdução: O trauma é um fenômeno que cursa com lesão tecidual, sendo que o trauma cirúrgico (TC) apresenta a referida lesão como consequência de um ato cirúrgico. A isquemia seguida de reperfusão (IR) é um evento comum em várias condições patológicas, bem como em diversos procedimentos cirúrgicos, principalmente transplantes. É frequente o desenvolvimento de lesões teciduais locais e remotas após trauma e após a I/R, parte de um fenômeno conhecido como síndrome da resposta inflamatória sistêmica (SRIS), frequentemente seguida pela falência de múltiplos órgãos (FMO). Estudos provaram o envolvimento do neutrófilo em tais síndromes como resultado da ação de enzimas proteolíticas secretadas a partir de grânulos citoplasmáticos, radicais livres produzidos por explosão respiratória e citocinas liberadas após a infiltração nos tecidos. Nesse contexto, foi provado que o pré-condicionamento isquêmico (PCI), definido como curtos episódios de isquemia precedendo a IR, protege contra essas lesões, com menor ativação de neutrófilos. No entanto, o conhecimento a respeito dos mecanismos operantes nos neutrófilos após o trauma cirúrgico, a isquemia seguida de reperfusão ou o pré-condicionamento isquêmico, ainda são preliminares. Objetivo: Analisar com maior profundidade o impacto dessas condições (TC, IR e PCI) no proteoma e fosfoproteoma do neutrófilo. Métodos: Foi realizada a análise de parâmetros hematológicos juntamente com a análise proteômica e fosfoproteômica de neutrófilos de ratos submetidos a TC, IR e PCI, comparados ao grupo controle. A análise proteômica foi realizada em sistema de nLC-MS/MS orbitrap de alto desempenho, usando marcação com iTRAQ, enriquecimento de fosfopeptídios e pré-fracionamento por HILIC. A análise estatística baseada em clusters utilizando scripts em R mostrou proteínas com abundância relativa diferencial em todas as condições. Resultados: A avaliação dos parâmetros hematológicos antes e depois de TC, IR e IPC demonstrou alterações no número, forma e tamanho de linfócitos, hemácias, plaquetas e, principalmente, neutrófilos (granulócitos). Observou-se um claro aumento na contagem de neutrófilos após TC e IR, sendo que tal aumento foi prevenido pelo PCI. Um total de 393 proteínas foram determinadas como reguladas para abundância relativa entre o grupo controle e o grupo TC. A maioria das proteínas encontradas como reguladas em comum nos grupos TC e IR estão relacionadas à apoptose (caspase-3), motilidade celular (PAK2), transdução de sinal (IL-5, IL-6 e TNF) e degradação pelo sistema proteassoma no neutrófilo. Maior produção de espécies reativas de oxigênio e disfunção da migração direcional de neutrófilos (PKC-delta) com aumento do tempo de vida dos neutrófilos são eventos iniciais importantes que podem resultar em mais dano tecidual e em infecção. A análise proteômica de neutrófilos de ratos após PCI levou à identificação de 2437 grupos de proteínas atribuídos a 5 clusters diferentes, contendo proteínas de abundância relativa significativamente aumentada ou diminuída em IR e PCI. O estudo de vias desses clusters baseado no KEGG revelou aumento nas vias de fagocitose mediada por Fc-gama R, sinalização por quimiocinas, adesão focal e migração transendotelial, citoesqueleto de actina, metabolismo e diminuição nas vias ribossomais, de transporte de RNA, de processamento de proteínas. A regulação da fosforilação de proteínas após IR e PCI mostrou algumas vias como quimiocinas, Fc-gama, GPCR, migração celular e vias pró e antiapoptóticas, sendo que a via de splicing alternativo foi a que apresentou regulação mais evidente (p < 0.0001). A regulação da abundância, bem como da fosforilação, presença de motivos e de domínios levou à identificação de fosfatases, como Fgr, GRK2, PKC delta, ptpn6 e ptprc reguladas por IR, bem como stk38, pkn1, syk e inpp5d reguladas por PCI. A interação mais marcante entre proteínas foi demonstrada como sendo entre os receptores de Fgr e Ptp. Conclusão: Concluímos que as alterações causadas por TC, IR e PCI levaram a intenss alterações na abundância de algumas proteínas e em eventos de fosforilação em neutrófilos, levando ao efeito destrutivo observado após a IR e ao efeito protetor consequente ao PCI / Introduction: Trauma is a phenomenon that involves tissue injury, whereas the surgical trauma (ST) has such injury as a consequence of a surgery. Ischemia reperfusion is common event in many surgical procedures, especially in transplants, as well as in many pathological conditions. Local and remote tissue injuries usually develop after trauma and ischemic reperfusion, part of a phenomenon known as systemic inflammatory response syndrome, frequently followed by multiple organ failure (MOF). Studies have proven the involvement of the neutrophil in all these injuries as a result of proteolytic enzymes secreted from cytoplasmic granules, free radicals produced by respiratory burst, cytokines released after tissue infiltration. In that context, ischemic preconditioning (IPC), that are short episodes of ischemia before ischemia reperfusion, was proved to be protective against these injuries with less activation of neutrophils. However the knowledge about the underlying mechanism operating in the neutrophil after surgical trauma, ischemia reperfusion and preconditioning is preliminary. Objective: To deeply analyze the impact of these conditions (ST, IR and IPC) on the neutrophil proteome and phosphoproteome. Methodology: We did hematological analysis along proteomics and phospho proteomics through high throughput nLC-MS/MS analysis by orbitrap using iTRAQ labeling, phospho peptide enrichments, and HILIC pre-fractionation. Neutrophils from control, ST, IR and IPC conditions after extraction were processed for proteomic analysis. Statistical package using R based on cluster analysis led to the detection of differentially regulated proteins in all conditions. Results: The evaluation of the hematological parameters before and after ST, IR or IPC on blood cells stated alteration in size, number and shape of lymphocytes, RBCs, platelets and specially neutrophils (granulocytes). In the analysis, a clear increase in neutrophil count after ST and IR with such increase prevented by IPC. A total of 393 proteins were found differentially regulated between control and trauma groups. Most of the common proteins found regulated in trauma and IR seem to be related to apoptosis (caspase-3), cell motility (PAK2) and signal transduction in IL5, IL6 and TNF and proteasomal degradation in neutrophil. Higher oxygen species production and dysfunction of directional neutrophil migration (PKC delta) with increase in the life span of neutrophils are early important events that can finally result into more tissue damage and infection. The total proteomic analysis of rat neutrophils after IPC led to the identification of 2437 protein groups assigned to five different clusters with significantly up and downregulated proteins in IR and IPC. Cluster based KEGG pathways analysis revealed up-regulation of chemokine signaling, focal adhesion, leukocyte transendothelial migration, actin cytoskeleton, metabolism and Fc gamma R mediated phagocytosis, whereas downregulation in ribosome, spliceosome, RNA transport, protein processing in endoplasmic reticulum and proteasome, after intestinal ischemic preconditioning. The phosphoregulated proteins containing domains and motifs in the regulated peptides after IR and IPC led to the identification of some of important players such as chemokine, Fc gamma, GPCR, migration and pro/anti-apoptotic pathways. The phosphoproteins from alternative splicing was the pathway presenting the most remarkable regulation with a p-value of 0.0001. The regulation in expression as well as in phosphorylation, the presence of motifs and domains led to the identification of kinases and phosphatases including Fgr, GRK2, PKC delta, ptpn6 and ptprc in neutrophils after IR whereas stk38, pkn1, syk, and inpp5d in neutrophil due to IPC. The highest protein-protein interaction was shown by Fgr and Ptp receptors. Conclusion: We concluded that the changed stimulus produced after ST, IR and IPC led to the huge alteration in proteins expression and phosphorylation events in the neutrophil proteome as mentioned in our work, that leads to final destructive and protective phenotype of neutrophils respectively
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Minimized cardiopulmonary bypass in extracorporeal circulation:a clinical and experimental comparison with conventional techniquesRimpiläinen, R. (Riikka) 17 May 2011 (has links)
Abstract
Cardiac surgery with cardiopulmonary bypass (CPB) results in hemodilution, systemic inflammatory response, activation of coagulation and fibrinolysis, and microembolisation, which may all contribute to postoperative organ dysfunction. As an attempt to attenuate these side effects, the use of minimized cardiopulmonary bypass (MCPB) systems has increased. Compared to conventional CPB (CCPB), they are characterized with reduced artificial surface area and blood-air interface. The goal of these alterations has been to reduce systemic inflammation, preserve coagulation function and minimize the need for blood tranfusions.
This study was aimed at determining whether or not MCPB attenuates the adverse effects of CPB. In study I, the safety, feasibility and effect on transfusion requirements of MCPB was investigated in unselected coronary artery bypass surgery (CABG) patients. In studies II and III, the incidence of retinal microembolism after CABG and aortic valve replacement (AVR) surgery with MCPB was compared to that of CCPB by means of fluorescein angiography. Furthermore, in studies II and III, the effect of MCPB on systemic inflammation, coagulation, endothelial activation and injury, as well as on platelet activity, was compared to those of CCPB. In study IV, the effect of MCPB on intestinal mucosal damage following CPB was compared to CCPB in a porcine model of prolonged CPB.
MCPB appeared as safe and feasible as CCPB in unselected CABG patients (Study I). MCPB was associated with decreased retinal microembolism compared to CCPB in CABG patients (Study II). Conversely, the difference in retinal microembolism in AVR patients was not statistically significant (Study III). MCPB was associated with a decrease in neutrophil activation in CABG and AVR patients as compared to CCPB. However, there were no differences in coagulation, endothelial activation and injury, or in platelet activity (Studies II, III). There were no differences in markers of intestinal mucosal damage between MCPB and CCPB following prolonged CPB in the experimental model (Study IV).
The results of this study suggest that MCPB may be used safely with CABG patients, with beneficial effects on hematocrit, and attenuated neutrophil activation. In CABG patients, MCPB is associated with reduced retinal microembolism, suggesting a decreased embolic load to the brain. The clinical feasibility of MCBP requires further technical evolution in the management of valve surgery. The results of the animal model support previous concerns regarding intestinal mucosal damage during CPB. / Tiivistelmä
Sydänkeuhkokoneen käyttö aiheuttaa elimistössä hemodiluution, yleistyneen tulehdusvasteen ja hyytymisjärjestelmän aktivoitumisen sekä mikroembolisaatiota. Ilmiöt ovat yleensä lieviä ja ohimeneviä, mutta voivat johtaa elintoimintahäiriöihin ja pitkittyneeseen toipumiseen sydänleikkauksen jälkeen. Haittojen lievittämiseksi sydänkeuhkokonetta on pyritty kehittämään fysiologisemmaksi. Miniperfuusiolaitteistoissa kiertävän veren kontakti pintamateriaalien ja ilman kanssa jää pienemmäksi ja veren laimenemista tapahtuu vähemmän.
Tutkimuksen tavoitteena oli selvittää voidaanko miniperfuusiolla lievittää sydänkeuhkokoneen haittoja. Ensimmäisessä osatyössä selvitettiin miniperfuusion käyttökelpoisuutta ja vaikutusta verensiirtotarpeeseen ohitusleikkauspotilailla valikoimattomassa aineistossa. Toisessa ja kolmannessa osatyössä selvitettiin silmänpohjan mikroembolioiden ilmaantuvuutta miniperfuusion ja perinteisen sydänkeuhkokoneen käytön jälkeen ohitusleikkauspotilailla ja aorttaläppäleikkauspotilailla. Toisessa ja kolmannessa osatyössä selvitettiin lisäksi miniperfuusion vaikutuksia yleistyneen tulehdusvasteen voimakkuuteen, hyytymisjärjestelmään sekä endoteelin aktivaatioon perinteiseen sydänkeuhkokoneeseen verrattuna. Neljännessä osatyössä verrattiin kokeellisessa mallissa miniperfuusion ja perinteisen sydänkeuhkokoneen vaikutuksia suoliston limakalvon eheyteen.
Miniperfuusio ilmeni yhtä käyttökelpoiseksi kuin perinteinen sydänkeuhkokone ohitusleikkauspotilaiden hoidossa. Ohitusleikkauspotilailla ilmeni vähemmän silmänpohjan mikroembolioita miniperfuusion jälkeen, mutta aorttaläppäleikkauspotilailla ero ei ollut tilastollisesti merkitsevä. Miniperfuusion käyttöön liittyi vähemmän neutrofiilien aktivaatiota. Tekniikoiden välillä ei ilmennyt eroa hyytymisjärjestelmän eikä endoteelin aktivaatiota osoittavissa merkkiaineissa. Sydänkeuhkokoneen käyttö aiheutti saman tasoisen suoliston limakalvon vaurion miniperfuusiolla ja perinteisellä sydänkeuhkokoneella.
Tutkimuksen perusteella miniperfuusiotekniikkaa voidaan käyttää turvallisesti ohitusleikkauspotilaiden hoidossa ja sen käyttö vähentää hemodiluutiota ja neutrofiilien aktivaatiota verrattuna perinteiseen sydänkeuhkokoneeseen. Miniperfuusiolla voidaan vähentää sydänkeuhkokoneen käytön aiheuttamaa silmänpohjan mikroembolisaatiota, joka saattaa viitata vähäisempään aivoverenkierron mikroembolisaatioon. Miniperfuusiotekniikoiden tulee edelleen kehittyä hyödyttämään enemmän myös aorttaläppäleikkauspotilaita. Löydökset koskien sydänkeuhkokoneen aiheuttamia suoliston limakalvovaurioita vahvistavat aiempaa olettamusta suoliston haavoittuvuudesta sydänleikkauksen jälkeen.
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