Global ETD Search

81	Transgenic Overexpression of CTRP3 Does Not Prevent Alcohol Induced Hepatic Steatosis in Female Mice Thomas, Kristy L., Root, Callie L., Peterson, Jonathan M. 01 January 2022 (has links) Alcoholic liver disease (ALD) is one of the leading causes of morbidity and mortality from hepatic complications. C1q/TNF-related protein 3 (CTRP3) is an adiponectin paralog and, in male mice, increased levels of circulating CTRP3 prevents ALD. Therefore, the purpose of this study was to replicate the observed hepatoprotective effect of elevated circulating CTRP3 levels in female mice. Twelve-week-old female wildtype and CTRP3 overexpressing transgenic mice were fed the Lieber-DeCarli alcohol-containing liquid diet (5% vol/vol) for 6 weeks. Unlike the previous study with male mice, CTRP3 overexpression provided no attenuation to alcohol-induced hepatic lipid accumulation, cytokine production, or overall mortality. In conclusion, there appears to be a clear sex-specific effect of CTRP3 in response to alcohol consumption that needs to be explored further. adipokines (genetics metabolism) adiponectin (metabolism) animals diet high-fat (adverse effects) ethanol (adverse effects metabolism) fatty liver (chemically induced genetics physiopathology) fatty liver alcoholic (metabolism) female gene expression (genetics) lipid metabolism (drug effects) liver (metabolism pathology) male mice mice inbred C57BL mice transgenic obesity (metabolism) tumor necrosis factors (genetics metabolism) Health Sciences
82	"Determinantes funcionais e morfológicos de ação de droga sobre os pulmões utilizando um modelo experimental em cobaias sob uso do cloridrato de fluoxetina" / Functional and morphological determinants of drug action on the lungs through an experimental model in guinea pigs under use of fluoxetine Capelozzi, Marco Antonio 15 February 2005 (has links) Muito se tem pesquisado sobre os efeitos adversos dos antidepressivos tricíclicos (p.e. imipramina) sobre o sistema respiratório, embora pouco ou quase nada se encontre com relação a tal aspecto na literatura médica sobre a fluoxetina (Prozac®) um inibidor seletivo da recaptação de serotonina, até porque esta droga começou a ser utilizada somente há cerca de quinze anos. Ambas substâncias (fluoxetina e imipramina, ou seus congêneres) agem basicamente sobre quadros depressivos, fóbicos e obsessivo-compulsivos, obesidade, anorexia, e outras indicações de várias naturezas, indo desde a ansiedade até a sindrome do pânico. Nota-se entretanto, que na maioria dos pacientes com tais quadros (sob tratamento com a fluoxetina ou não), são muito frequentes as queixas de natureza respiratória, como tosse, falta de ar, angústia" no peito etc. Alguns efeitos adversos da fluoxetina e seus derivados são descritos na literatura, embora raros. Entre eles, destaca-se o comprometimento do aparelho respiratório na forma de doença pulmonar intersticial, pneumonia de hipersensibilidade e fosfolipidose. Apresentamos a seguir um projeto de trabalho experimental em cobaias com intuito de verificar a ação da fluoxetina sobre o aparelho respiratório, com relação à mecânica pulmonar, influência sobre o óxido nítrico exalado e resposta histopatológica pulmonar frente a possíveis injúrias, comparados a animais controles sem efeito da droga. Nosso modelo descreve um protocolo em que os animais foram submetidos ao cloridrato de fluoxetina por via oral durante 30 dias consecutivos, sendo ainda submetidos a uma reação de estresse tipo pânico a natação forçada. / Although high-affinity imipramine binding sites have been reported in both rat and human lung, the role of the lungs in the pharmacokinetics of antidepressants like fluoxetine has not received much attention. Imipramine and fluoxetine have their action in depression, obesity, panic and anxiety among other indications. However, accumulation of selective serotonin-reuptake inhibitors- like fluoxetine, in the human lungs has been reported. Besides, it is very frequent to most patients (under fluoxetine treatment or not) present respiratory symptoms and/or signs, just like dyspnea, cough, chest anguish and so on. There also have been some adverse effects of fluoxetine described in the literature, although being few and isolated ones, related to hypersensitivity pneumonitis, phospholipidosis and interstitial lung disease. The purpose of this project is to investigate the fluoxetine action in respiratory tract, more specifically over the pulmonary interstitium, using an experimental model in guinea-pigs. Our project comprehends an experimental model with the animals under treatment of fluoxetine so that we could evaluate the substance effects on the respiratory system, concerning the mechanics and the lung histopathological aspects, compared to the control animals. We created then a protocol where the animals were treated with fluoxetine for 30 consecutive days and submmited to the forced swimmig test, a kind of panic-like reaction. ANTIDEPRESSIVE AGENTS ANTIDEPRESSIVOS DE SEGUNDA GERAÇÃO COBAIAS FLUOXETINA/efeitos adversos FLUOXETINA/farmacocinética FLUOXETINA/farmacologia FLUOXETINE/adverse effects FLUOXETINE/pharmacokinetics FLUOXETINE/pharmacology GUINEA PIGS INFLAMAÇÃO/induzido quimicamente INFLAMMATION/chemically induced INTERSTITIAL/pathology LUNG DISEASES LUNG/drug effects NATAÇÃO NITRIC OXIDE ÓXIDO NITRICO PULMÃO/efeitos de drogas RESPIRATORY MECHANICS/drug effects RESPIRATORY SYSTEM/drug effects SECOND-GENERATION SISTEMA RESPIRATÓRIO/efeitos adversos SWIMMING
83	Efeitos do ácido graxo ômega-3 na prevenção da atrofia muscular induzida pela dexametasona / Effects of omega-3 fatty acid in preventing dexamethasone-induced muscle atrophy Fappi, Alan 03 December 2013 (has links) Várias condições podem estar associadas com a atrofia muscular, tais como inatividade, envelhecimento, septicemia, diabetes, câncer e uso de glicocorticoides. Todas estas condições levam a atrofia muscular através de mecanismos que incluem aumento da degradação proteica e/ou redução na síntese proteica, envolvendo pelo menos cinco sistemas: lisossomal, da calpaína, das caspases, metaloproteinases e o sistema ubiquitina-proteasoma (SUP). Glicocorticoides, tais como a dexametasona, acarretam atrofia muscular atuando em quase todos esses sistemas, com significante ativação do SUP e lisossomal, afetando uma importante via de trofismo muscular, a via do IGF-1/PI-3K/Akt/mTOR. Ácidos graxos poli-insaturados, como o Ômega-3 (ômega-3), têm sido utilizados de forma benéfica na atenuação da atrofia muscular que ocorre na septicemia e na caquexia associada ao câncer, no entanto, sua atuação sobre a atrofia muscular induzida por glicocorticoides ainda não foi avaliada. Objetivo: Avaliar se a suplementação do ácido graxo ômega-3 influenciaria o desenvolvimento da atrofia muscular induzida pela dexametasona em ratos. Metodologia: Vinte e quatro ratos Wistar suplementados e não suplementados com ômega-3 (40 dias) foram submetidos à administração de dexametasona subcutânea (5mg/Kg/dia) nos últimos 10 dias, formando assim quatro grupos: Controle (CT), dexametasona (DX), ômega3 e dexametasona+ômega3 (DX+ômega3). Através de estudo de comportamento motor, histológico, PCR em tempo real e Western Blotting foram avaliados respectivamente, o número de grandes e pequenos movimentos em campo aberto; a área de secção transversa das fibras musculares (fibras I, IIA e IIB); a expressão dos genes MyoD, Miogenina, MuRF-1, Atrogina-1 e Miostatina; e a expressão de proteínas relacionadas com a via do IGF-1/PI-3K/Akt/mTOR: Akt, GSK3beta, FOXO3a e mTOR, totais e fosforiladas. Resultados: A dexametasona produziu diminuição na quantidade de pequenos movimentos, atrofia muscular em fibras do tipo IIB e diminuição na expressão de P-Akt, P-GSK3ômega e P-FOXO3a/FOXO3a total. A suplementação com Ômega-3 não se mostrou eficaz na atenuação de tais alterações. Por outro lado, o Ômega-3 associado à dexametasona (grupo DX+3) induziu a maior expressão de atrogenes (MuRF-1 e atrogina-1) causando, adicionalmente, maior atrofia muscular em fibras do tipo I e IIA, além de menor expressão gênica de Miogenina. O Ômega-3 de forma isolada conduziu de forma significativa a maior expressão de Miostatina e MyoD, e de forma não significante elevou a expressão proteica de mTOR total e induziu menor ganho de peso corporal dos animais ao fim do estudo. Conclusão: A suplementação de Ômega-3 não foi capaz de atenuar as alterações comportamentais, atrofia muscular e perda de peso corporal causadas pela administração de dexametasona, levando por outro lado a maior atrofia das fibras musculares e aumento na expressão de atrogenes. Desta forma, este estudo sugere que suplementos alimentares usualmente considerados benéficos para saúde, tal como o ácido graxo Ômega-3, podem agir em interação com alguns medicamentos, como os glicocorticoides, potencializando seus efeitos colaterais / Many conditions can be related to muscle atrophy, such as inactivity, aging, sepsis, diabetes, cancer, as well as, glucocorticoid treatment. All these conditions lead to muscle atrophy through mechanisms that include increase of protein degradation and/or decrease of protein synthesis involving at least five systems: lysossomal, calpain, caspases, metaloproteinases and ubiquitin proteasome system (UPS). Glucocorticoids, such as dexamethasone cause muscle atrophy acting in almost all of these systems, with a significant UPS activation and affecting an important pathway related to muscular trophism, IGF-1/PI-3k/Akt/mTOR pathway. Poly-unsaturated fatty acids, such as Omega-3 (omega-3), have been used beneficially to attenuation of muscle atrophy that occur in sepsis and cachexia related to cancer, however, its action in the glucocorticoid-induced muscle atrophy, has never been evaluated. Objective: Assess whether the omega-3 supplementation would influence the development of dexamethasone-induced muscle atrophy in rats. Methods: Twenty four Wistar rats supplemented and non-supplemented with omega-3 (40 days) were submitted to dexamethasone administration (5mg/kg/day) during the last 10 days, thus establishing 4 groups: control (CT), dexamethasone (DX), omega-3 and dexamethasone+omega-3 (DX+ omega-3). The amount of large and small movements in open field; muscle fiber cross sectional areas (I, IIA and IIB); MyoD, Myogenin, MuRF-1, Atrogin-1 and Myostatin gene expression; and protein expression of Akt, GSK3omega, FOXO3a and mTOR, total and phosphorylated forms were assessed, respectively, by: motor behavior testing, histological reactions, Real-time PCR and Western Blotting analysis. Results: Dexamethasone administration induced significant decrease of small motor movements, atrophy in type IIB muscle fibers and decrease of P-Akt, P-GSK3omega and P-FOXO3a/total FOXO3a expression. Omega-3 supplementation was not able to attenuate these changes. Instead, omega-3 associated to dexamethasone (DX+ omega-3 group) additionally induced higher muscle atrophy in type I, IIA muscle fibers, and reduced expression of Myogenin. The isolated use of Omega-3 led to a significant higher expression of Myostatin and MyoD, and a non-significant increase of total mTOR protein expression and less body weight gain at end of study. Conclusion: Supplementation of omega-3 was not able to attenuate motor behavioral changes, muscle atrophy and loss of body weight caused by dexamethasone administration, leading on the other hand to higher muscle fibers atrophy and increase in atrogenes expression. Therefore, this study suggests that food supplements, usually considered benefic to the health, such as Omega-3 fatty acid, may interact with some medications, such as glucocorticoids, potentiating its side effects Ácidos graxos ômega-3/efeitos adversos Atrofia muscular/genética Atrofia muscular/induzido quimicamente Atrofia muscular/patologia Blotting western Dexametasona/efeitos adversos Dexamethasone/adverse effects Fatores de transcrição Forkhead Fatty acids omega-3/adverse effects Forkhead transcription factors Glucocorticoides Glucocorticoids Muscle skeletal/drugs effects Muscular atrophy/chemically induced Muscular atrophy/genetics Muscular atrophy/pathology Músculo esquelético/efeitos de drogas Ratos Wistar Rats Wistar Real-time polymerase chain reaction Ubiquitin-protein ligases Ubiquitina-proteína ligases/genética Western Blotting
84	"Determinantes funcionais e morfológicos de ação de droga sobre os pulmões utilizando um modelo experimental em cobaias sob uso do cloridrato de fluoxetina" / Functional and morphological determinants of drug action on the lungs through an experimental model in guinea pigs under use of fluoxetine Marco Antonio Capelozzi 15 February 2005 (has links) Muito se tem pesquisado sobre os efeitos adversos dos antidepressivos tricíclicos (p.e. imipramina) sobre o sistema respiratório, embora pouco ou quase nada se encontre com relação a tal aspecto na literatura médica sobre a fluoxetina (Prozac®) um inibidor seletivo da recaptação de serotonina, até porque esta droga começou a ser utilizada somente há cerca de quinze anos. Ambas substâncias (fluoxetina e imipramina, ou seus congêneres) agem basicamente sobre quadros depressivos, fóbicos e obsessivo-compulsivos, obesidade, anorexia, e outras indicações de várias naturezas, indo desde a ansiedade até a sindrome do pânico. Nota-se entretanto, que na maioria dos pacientes com tais quadros (sob tratamento com a fluoxetina ou não), são muito frequentes as queixas de natureza respiratória, como tosse, falta de ar, angústia" no peito etc. Alguns efeitos adversos da fluoxetina e seus derivados são descritos na literatura, embora raros. Entre eles, destaca-se o comprometimento do aparelho respiratório na forma de doença pulmonar intersticial, pneumonia de hipersensibilidade e fosfolipidose. Apresentamos a seguir um projeto de trabalho experimental em cobaias com intuito de verificar a ação da fluoxetina sobre o aparelho respiratório, com relação à mecânica pulmonar, influência sobre o óxido nítrico exalado e resposta histopatológica pulmonar frente a possíveis injúrias, comparados a animais controles sem efeito da droga. Nosso modelo descreve um protocolo em que os animais foram submetidos ao cloridrato de fluoxetina por via oral durante 30 dias consecutivos, sendo ainda submetidos a uma reação de estresse tipo pânico a natação forçada. / Although high-affinity imipramine binding sites have been reported in both rat and human lung, the role of the lungs in the pharmacokinetics of antidepressants like fluoxetine has not received much attention. Imipramine and fluoxetine have their action in depression, obesity, panic and anxiety among other indications. However, accumulation of selective serotonin-reuptake inhibitors- like fluoxetine, in the human lungs has been reported. Besides, it is very frequent to most patients (under fluoxetine treatment or not) present respiratory symptoms and/or signs, just like dyspnea, cough, chest anguish and so on. There also have been some adverse effects of fluoxetine described in the literature, although being few and isolated ones, related to hypersensitivity pneumonitis, phospholipidosis and interstitial lung disease. The purpose of this project is to investigate the fluoxetine action in respiratory tract, more specifically over the pulmonary interstitium, using an experimental model in guinea-pigs. Our project comprehends an experimental model with the animals under treatment of fluoxetine so that we could evaluate the substance effects on the respiratory system, concerning the mechanics and the lung histopathological aspects, compared to the control animals. We created then a protocol where the animals were treated with fluoxetine for 30 consecutive days and submmited to the forced swimmig test, a kind of panic-like reaction. ANTIDEPRESSIVOS DE SEGUNDA GERAÇÃO COBAIAS FLUOXETINA/efeitos adversos FLUOXETINA/farmacocinética FLUOXETINA/farmacologia INFLAMAÇÃO/induzido quimicamente NATAÇÃO ÓXIDO NITRICO PULMÃO/efeitos de drogas SISTEMA RESPIRATÓRIO/efeitos adversos ANTIDEPRESSIVE AGENTS FLUOXETINE/adverse effects FLUOXETINE/pharmacokinetics FLUOXETINE/pharmacology GUINEA PIGS INFLAMMATION/chemically induced INTERSTITIAL/pathology LUNG DISEASES LUNG/drug effects NITRIC OXIDE RESPIRATORY MECHANICS/drug effects RESPIRATORY SYSTEM/drug effects SECOND-GENERATION SWIMMING
85	Child Neurodevelopment following In Utero Exposure to Organic Solvents Laslo-Baker, Dionne 17 December 2012 (has links) BACKGROUND: Many women of reproductive age are employed in industries involving exposure to organic solvents. Animal toxicological studies and human case reports demonstrate that exposure to organic solvents can cause neuropsychological deficits in exposed offspring; however, there is limited data from prospective controlled human studies. OBJECTIVE: To compare neuropsychological functioning between children whose mothers were occupationally exposed to organic solvents during pregnancy with a non-exposed matched comparison group. METHODS: Participants were 48 women who had previously contacted the Motherisk Program in Toronto, Canada during pregnancy regarding occupational exposure to organic solvents and a matched comparison group of women with no known exposure to teratogens during pregnancy. Children (18 months to 8 years 11 months at time of study) were compared in areas of cognitive, language, motor, and behavioral functioning. RESULTS: Children whose mothers were exposed to organic solvents during pregnancy displayed a lower level of functioning when compared with their matched peers in areas of cognitive, language, motor, and behavioral domains. Although the scores on measures of behavioral functioning were not in the clinical range, the mothers of exposed children reported more challenging behavioral problems. In order to determine whether exposure predicted neuropsychological outcomes above and beyond maternal intellectual functioning, hierarchical regressions were run with maternal IQ and maternal education at Step 1and exposure status added at Step 2. In utero exposure to organic solvents predicted lower sores on global measures of Verbal IQ, receptive and expressive language scales above and beyond maternal intellectual functioning. Factors associated with higher levels of exposure (detecting odor, longer duration and total number of toxicity symptoms) was associated with poorer outcome on behavioral and motor functioning tests. CONCLUSION: Despite the fact that the exposed mothers experienced minimal symptoms of toxicity, detrimental effects were still evident in their offspring. Current safety standards for exposure were designed for adults and need to be reevaluated. Further studies addressing exposure to specific organic solvents, dose, and gestational timing of exposure are warranted. case-control studies child child development child physiology child, preschool developmental disabilities / diagnosis female male follow-up studies humans incidence linear models maternal exposure multivariate analysis neuropsychological tests occupational exposure pregnancy in utero prenatal exposure delayed effects prognosis psychomotor performance risk assessment organic solvents toxicity toxicology policy reproductive medicine women, working pregnant women occupational medicine teratogens behavior solvents 0383 0758 0419 0380 0354 0620
86	Child Neurodevelopment following In Utero Exposure to Organic Solvents Laslo-Baker, Dionne 17 December 2012 (has links) BACKGROUND: Many women of reproductive age are employed in industries involving exposure to organic solvents. Animal toxicological studies and human case reports demonstrate that exposure to organic solvents can cause neuropsychological deficits in exposed offspring; however, there is limited data from prospective controlled human studies. OBJECTIVE: To compare neuropsychological functioning between children whose mothers were occupationally exposed to organic solvents during pregnancy with a non-exposed matched comparison group. METHODS: Participants were 48 women who had previously contacted the Motherisk Program in Toronto, Canada during pregnancy regarding occupational exposure to organic solvents and a matched comparison group of women with no known exposure to teratogens during pregnancy. Children (18 months to 8 years 11 months at time of study) were compared in areas of cognitive, language, motor, and behavioral functioning. RESULTS: Children whose mothers were exposed to organic solvents during pregnancy displayed a lower level of functioning when compared with their matched peers in areas of cognitive, language, motor, and behavioral domains. Although the scores on measures of behavioral functioning were not in the clinical range, the mothers of exposed children reported more challenging behavioral problems. In order to determine whether exposure predicted neuropsychological outcomes above and beyond maternal intellectual functioning, hierarchical regressions were run with maternal IQ and maternal education at Step 1and exposure status added at Step 2. In utero exposure to organic solvents predicted lower sores on global measures of Verbal IQ, receptive and expressive language scales above and beyond maternal intellectual functioning. Factors associated with higher levels of exposure (detecting odor, longer duration and total number of toxicity symptoms) was associated with poorer outcome on behavioral and motor functioning tests. CONCLUSION: Despite the fact that the exposed mothers experienced minimal symptoms of toxicity, detrimental effects were still evident in their offspring. Current safety standards for exposure were designed for adults and need to be reevaluated. Further studies addressing exposure to specific organic solvents, dose, and gestational timing of exposure are warranted. case-control studies child child development child physiology child, preschool developmental disabilities / diagnosis female male follow-up studies humans incidence linear models maternal exposure multivariate analysis neuropsychological tests occupational exposure pregnancy in utero prenatal exposure delayed effects prognosis psychomotor performance risk assessment organic solvents toxicity toxicology policy reproductive medicine women, working pregnant women occupational medicine teratogens behavior solvents 0383 0758 0419 0380 0354 0620
87	Efeitos do ácido graxo ômega-3 na prevenção da atrofia muscular induzida pela dexametasona / Effects of omega-3 fatty acid in preventing dexamethasone-induced muscle atrophy Alan Fappi 03 December 2013 (has links) Várias condições podem estar associadas com a atrofia muscular, tais como inatividade, envelhecimento, septicemia, diabetes, câncer e uso de glicocorticoides. Todas estas condições levam a atrofia muscular através de mecanismos que incluem aumento da degradação proteica e/ou redução na síntese proteica, envolvendo pelo menos cinco sistemas: lisossomal, da calpaína, das caspases, metaloproteinases e o sistema ubiquitina-proteasoma (SUP). Glicocorticoides, tais como a dexametasona, acarretam atrofia muscular atuando em quase todos esses sistemas, com significante ativação do SUP e lisossomal, afetando uma importante via de trofismo muscular, a via do IGF-1/PI-3K/Akt/mTOR. Ácidos graxos poli-insaturados, como o Ômega-3 (ômega-3), têm sido utilizados de forma benéfica na atenuação da atrofia muscular que ocorre na septicemia e na caquexia associada ao câncer, no entanto, sua atuação sobre a atrofia muscular induzida por glicocorticoides ainda não foi avaliada. Objetivo: Avaliar se a suplementação do ácido graxo ômega-3 influenciaria o desenvolvimento da atrofia muscular induzida pela dexametasona em ratos. Metodologia: Vinte e quatro ratos Wistar suplementados e não suplementados com ômega-3 (40 dias) foram submetidos à administração de dexametasona subcutânea (5mg/Kg/dia) nos últimos 10 dias, formando assim quatro grupos: Controle (CT), dexametasona (DX), ômega3 e dexametasona+ômega3 (DX+ômega3). Através de estudo de comportamento motor, histológico, PCR em tempo real e Western Blotting foram avaliados respectivamente, o número de grandes e pequenos movimentos em campo aberto; a área de secção transversa das fibras musculares (fibras I, IIA e IIB); a expressão dos genes MyoD, Miogenina, MuRF-1, Atrogina-1 e Miostatina; e a expressão de proteínas relacionadas com a via do IGF-1/PI-3K/Akt/mTOR: Akt, GSK3beta, FOXO3a e mTOR, totais e fosforiladas. Resultados: A dexametasona produziu diminuição na quantidade de pequenos movimentos, atrofia muscular em fibras do tipo IIB e diminuição na expressão de P-Akt, P-GSK3ômega e P-FOXO3a/FOXO3a total. A suplementação com Ômega-3 não se mostrou eficaz na atenuação de tais alterações. Por outro lado, o Ômega-3 associado à dexametasona (grupo DX+3) induziu a maior expressão de atrogenes (MuRF-1 e atrogina-1) causando, adicionalmente, maior atrofia muscular em fibras do tipo I e IIA, além de menor expressão gênica de Miogenina. O Ômega-3 de forma isolada conduziu de forma significativa a maior expressão de Miostatina e MyoD, e de forma não significante elevou a expressão proteica de mTOR total e induziu menor ganho de peso corporal dos animais ao fim do estudo. Conclusão: A suplementação de Ômega-3 não foi capaz de atenuar as alterações comportamentais, atrofia muscular e perda de peso corporal causadas pela administração de dexametasona, levando por outro lado a maior atrofia das fibras musculares e aumento na expressão de atrogenes. Desta forma, este estudo sugere que suplementos alimentares usualmente considerados benéficos para saúde, tal como o ácido graxo Ômega-3, podem agir em interação com alguns medicamentos, como os glicocorticoides, potencializando seus efeitos colaterais / Many conditions can be related to muscle atrophy, such as inactivity, aging, sepsis, diabetes, cancer, as well as, glucocorticoid treatment. All these conditions lead to muscle atrophy through mechanisms that include increase of protein degradation and/or decrease of protein synthesis involving at least five systems: lysossomal, calpain, caspases, metaloproteinases and ubiquitin proteasome system (UPS). Glucocorticoids, such as dexamethasone cause muscle atrophy acting in almost all of these systems, with a significant UPS activation and affecting an important pathway related to muscular trophism, IGF-1/PI-3k/Akt/mTOR pathway. Poly-unsaturated fatty acids, such as Omega-3 (omega-3), have been used beneficially to attenuation of muscle atrophy that occur in sepsis and cachexia related to cancer, however, its action in the glucocorticoid-induced muscle atrophy, has never been evaluated. Objective: Assess whether the omega-3 supplementation would influence the development of dexamethasone-induced muscle atrophy in rats. Methods: Twenty four Wistar rats supplemented and non-supplemented with omega-3 (40 days) were submitted to dexamethasone administration (5mg/kg/day) during the last 10 days, thus establishing 4 groups: control (CT), dexamethasone (DX), omega-3 and dexamethasone+omega-3 (DX+ omega-3). The amount of large and small movements in open field; muscle fiber cross sectional areas (I, IIA and IIB); MyoD, Myogenin, MuRF-1, Atrogin-1 and Myostatin gene expression; and protein expression of Akt, GSK3omega, FOXO3a and mTOR, total and phosphorylated forms were assessed, respectively, by: motor behavior testing, histological reactions, Real-time PCR and Western Blotting analysis. Results: Dexamethasone administration induced significant decrease of small motor movements, atrophy in type IIB muscle fibers and decrease of P-Akt, P-GSK3omega and P-FOXO3a/total FOXO3a expression. Omega-3 supplementation was not able to attenuate these changes. Instead, omega-3 associated to dexamethasone (DX+ omega-3 group) additionally induced higher muscle atrophy in type I, IIA muscle fibers, and reduced expression of Myogenin. The isolated use of Omega-3 led to a significant higher expression of Myostatin and MyoD, and a non-significant increase of total mTOR protein expression and less body weight gain at end of study. Conclusion: Supplementation of omega-3 was not able to attenuate motor behavioral changes, muscle atrophy and loss of body weight caused by dexamethasone administration, leading on the other hand to higher muscle fibers atrophy and increase in atrogenes expression. Therefore, this study suggests that food supplements, usually considered benefic to the health, such as Omega-3 fatty acid, may interact with some medications, such as glucocorticoids, potentiating its side effects Ácidos graxos ômega-3/efeitos adversos Atrofia muscular/genética Atrofia muscular/induzido quimicamente Atrofia muscular/patologia Dexametasona/efeitos adversos Fatores de transcrição Forkhead Glucocorticoides Músculo esquelético/efeitos de drogas Ratos Wistar Ubiquitina-proteína ligases/genética Western Blotting Blotting western Dexamethasone/adverse effects Fatty acids omega-3/adverse effects Forkhead transcription factors Glucocorticoids Muscle skeletal/drugs effects Muscular atrophy/chemically induced Muscular atrophy/genetics Muscular atrophy/pathology Rats Wistar Real-time polymerase chain reaction Ubiquitin-protein ligases
88	Chemoprevention for Colorectal Cancer Krishnan, K, Ruffin, M T., Brenner, D E. 01 March 2000 (has links) No description available. adenoma (genetics pathology) animals anti-inflammatory agents non-steroidal (therapeutic use) antioxidants (therapeutic use) apoptosis arachidonic acids (metabolism) bile acids and salts (metabolism) biomarkers calcium (therapeutic use) cell cycle cell transformation neoplastic (chemically induced) clinical trials as topic colonic polyps (genetics pathology) colorectal neoplasms (genetics pathology prevention & control) dna methylation DNA repair (genetics) eflornithine (therapeutic use) enzyme inhibitors (therapeutic use) estrogens (pharmacology therapeutic use) genetic predisposition to disease humans mice ornithine decarboxylase inhibitors patient compliance patient selection polyamines (metabolism) precancerous conditions (metabolism pathology) pyrazines (therapeutic use) rats retinoids (therapeutic use) thiones thiophenes tumor cells cultured vitamins (therapeutic use) Internal Medicine

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