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Estudo dos mecanismos genéticos e celulares durante a fase inflamatória do processo de regeneração tecidual em animais selecionados geneticamente para a máxima resposta inflamatória aguda homozigotos para os alelos R ou S do gene Slc11a1. / Study of genetic and cellular mechanisms during the inflammatory phase of tissue regeneration process in animals genetically selected for maximum acute inflammatory response homozygous for Slc11a1 R and S alleles.Gasparelo, Tatiane Aparecida Canhamero 27 November 2009 (has links)
Sublinhagens de camundongos AIRmax e AIRmin homozigotas para os alelos R ou S do gene Slc11a1 apresentam distinta capacidade regenerativa à perfuração de suas orelhas. Animais AIRmaxSS exibiram regeneração tecidual precoce em comparação aos animais AIRmaxRR, sugerindo que o alelo S favorece a regeneração nestes animais. Camundongos das sublinhagens AIRmin não apresentaram regeneração após perfuração de suas orelhas. Em resposta ao estímulo, animais AIRmaxSS exibiram inflamação local mais intensa e tardia do que animais AIRmaxRR, demonstrando elevados níveis de MPO e edema, e influxo celular predominantemente de neutrófilos. Ensaios de expressão gênica global demonstraram genes diferencialmente expressos entre as sublinhagens, evidenciando genes sobre-representados no tema biológico proliferação celular em ambas sublinhagens, enquanto somente nos animais AIRmaxSS ocorreu sobre-representação para resposta inflamatória nos genes ativados e para contração muscular nos genes reprimidos. Os resultados de microarray foram validados por qPCR. / Homozygous AIRmax and AIRmin sublines for Slc11a1 R and S alleles present distinct regenerative capacity to the ear hole. AIRmaxSS mice exhibited early tissue regeneration compared to AIRmaxRR animals, suggesting that the Slc11a1 S allele promotes regeneration in these animals. AIRmin sublines didnt show regeneration after ear punch. In response to the stimulus, AIRmaxSS animals exhibited more intense and later local inflammation than AIRmaxRR animals, presenting elevated levels of MPO, edema and cellular influx predominantly of neutrophils. Global gene expression analysis showed differentially-expressed genes between the sublines, in which over-represented biological theme is cell proliferation in both sublines. AIRmaxSS animals displayed over-representation of inflammatory response in up-regulated genes and of muscle contraction in down-regulated genes. Microarray results were validated by using quantitative PCR.
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Estudo dos mecanismos genéticos e celulares durante a fase inflamatória do processo de regeneração tecidual em animais selecionados geneticamente para a máxima resposta inflamatória aguda homozigotos para os alelos R ou S do gene Slc11a1. / Study of genetic and cellular mechanisms during the inflammatory phase of tissue regeneration process in animals genetically selected for maximum acute inflammatory response homozygous for Slc11a1 R and S alleles.Tatiane Aparecida Canhamero Gasparelo 27 November 2009 (has links)
Sublinhagens de camundongos AIRmax e AIRmin homozigotas para os alelos R ou S do gene Slc11a1 apresentam distinta capacidade regenerativa à perfuração de suas orelhas. Animais AIRmaxSS exibiram regeneração tecidual precoce em comparação aos animais AIRmaxRR, sugerindo que o alelo S favorece a regeneração nestes animais. Camundongos das sublinhagens AIRmin não apresentaram regeneração após perfuração de suas orelhas. Em resposta ao estímulo, animais AIRmaxSS exibiram inflamação local mais intensa e tardia do que animais AIRmaxRR, demonstrando elevados níveis de MPO e edema, e influxo celular predominantemente de neutrófilos. Ensaios de expressão gênica global demonstraram genes diferencialmente expressos entre as sublinhagens, evidenciando genes sobre-representados no tema biológico proliferação celular em ambas sublinhagens, enquanto somente nos animais AIRmaxSS ocorreu sobre-representação para resposta inflamatória nos genes ativados e para contração muscular nos genes reprimidos. Os resultados de microarray foram validados por qPCR. / Homozygous AIRmax and AIRmin sublines for Slc11a1 R and S alleles present distinct regenerative capacity to the ear hole. AIRmaxSS mice exhibited early tissue regeneration compared to AIRmaxRR animals, suggesting that the Slc11a1 S allele promotes regeneration in these animals. AIRmin sublines didnt show regeneration after ear punch. In response to the stimulus, AIRmaxSS animals exhibited more intense and later local inflammation than AIRmaxRR animals, presenting elevated levels of MPO, edema and cellular influx predominantly of neutrophils. Global gene expression analysis showed differentially-expressed genes between the sublines, in which over-represented biological theme is cell proliferation in both sublines. AIRmaxSS animals displayed over-representation of inflammatory response in up-regulated genes and of muscle contraction in down-regulated genes. Microarray results were validated by using quantitative PCR.
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Inflammation-Dependent Oxidative Stress Metabolites as a Hallmark of Amyotrophic Lateral SclerosisXiong, Luyang, McCoy, Michael, Komuro, Hitoshi, West, Xiaoxia Z., Yakubenko, Valentin, Gao, Detao, Dudiki, Tejasvi, Milo, Amanda, Chen, Jacqueline, Podrez, Eugene A., Trapp, Bruce, Byzova, Tatiana V. 01 January 2022 (has links)
Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease, with poor prognosis and no cure. Substantial evidence implicates inflammation and associated oxidative stress as a potential mechanism for ALS, especially in patients carrying the SOD1 mutation and, therefore, lacking anti-oxidant defense. The brain is particularly vulnerable to oxidation due to the abundance of polyunsaturated fatty acids, such as docosahexaenoic acid (DHA), which can give rise to several oxidized metabolites. Accumulation of a DHA peroxidation product, CarboxyEthylPyrrole (CEP) is dependent on activated inflammatory cells and myeloperoxidase (MPO), and thus marks areas of inflammation-associated oxidative stress. At the same time, generation of an alternative inactive DHA peroxidation product, ethylpyrrole, does not require cell activation and MPO activity. While absent in normal brain tissues, CEP is accumulated in the central nervous system (CNS) of ALS patients, reaching particularly high levels in individuals carrying a SOD1 mutation. ALS brains are characterized by high levels of MPO and lowered anti-oxidant activity (due to the SOD1 mutation), thereby aiding CEP generation and accumulation. Due to DHA oxidation within the membranes, CEP marks cells with the highest oxidative damage. In all ALS cases CEP is present in nearly all astrocytes and microglia, however, only in individuals carrying a SOD1 mutation CEP marks >90% of neurons, thereby emphasizing an importance of CEP accumulation as a potential hallmark of oxidative damage in neurodegenerative diseases.
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