Mechanistic studies of the toxicities of the aryl hydrocarbon receptor agonist PCB126

Wang, Bingxuan

01 December 2011

PCB126 is the most potent agonist of the aryl hydrocarbon receptor (AhR) in the whole family of chlorinated biphenyls (PCBs), a class of persistent organic pollutants that are classified as probable human carcinogens. It exerts systematic toxicities in animals mainly through the AhR pathway and generates cellular oxidative stress which might damage cellular macromolecules. The goal of this thesis is to elucidate the mechanisms of PCB126 toxicity in the aspect of AhR-related oxidative stress. Reactive superoxide radicals could be generated as the result of electron leakage in the catalytic cycles of cytochrome P450 (CYP) enzymes which are super-induced by sustained AhR activation in response to PCB126. In addition, the disruption of mitochondrial electron transport chain caused by AhR ligands also contributes to the production of superoxide radicals. Correspondingly in this thesis, the impact of PCB126 on the expression of the recently-discovered, TCDD-inducible microsomal CYP2S1 enzyme was studied. Then the regulation of mitochondrial antioxidant enzyme MnSOD in response to PCB126 was investigated. Lastly, a microarray study on classic AhR ligands of β-naphthoflavone and 3-methylcholanthrene was conducted to explore possible mechanisms of AhR-associated toxicities and to find explanations for the regulation of CYP2S1 as well as MnSOD after PCB126 exposure. It was found that CYP2S1 was only weakly or not at all regulated by PCB126 in rats. As for MnSOD, although its messenger and protein levels were induced by PCB126, its enzymatic activity was significantly reduced in the liver, probably through post-translational mechanisms. Although dietary manganese supplementation did not reverse the loss of MnSOD activity due to PCB126 exposure, it significantly protected against liver hypertrophy caused by PCB126. Microarray study results were consistent with previous findings and indicated that in addition to changed expression of a number of CYPs, metal homeostasis as well as mitochondria functions were also affected by AhR ligands. Overall, both CYP enzymes and the mitochondria contribute to the AhR-mediated toxicities of PCB126 that are associated with a disturbance of cellular redox homeostasis.

AhR

CYP2S1

MnSOD

oxidative stress

PCB126

rat

Toxicology

Estudo experimental da exposição ao PCB126 sobre a indução de Diabetes mellitus tipo II / Experimental study of PCB126 exposure on induction of Diabetes mellitus type II.

Shimada, Ana Lucia Borges

29 July 2015

A exposição ambiental aos poluentes orgânicos persistentes tem recebido amplo destaque na literatura recentemente devido à extensa associação entre o desenvolvimento de doenças metabólicas, obesidade e/ou diabetes mellitus, e a presença destes poluentes, principalmente os organoclorados, como as bifenilas policloradas (PCBs), no organismo. Por outro lado, os mecanismos de ação destes poluentes é controverso devido à elevada quantidade de representantes destas classes, gerando diversidade de protocolos de exposição e escassez de estudos experimentais. Por isto, foi objetivo deste trabalho elucidar os mecanismos de ação tóxica do PCB126, nas doses de 0,1; 1 ou 10 µg/kg de massa corpórea, em ratos Wistar machos, durante quinze dias, expostos por instilação intranasal. O procotolo de exposição empregado foi caracterizado e considerado suficiente para causar toxicidade, uma vez que foram observadas alterações no sistema imune, metabolismo e em parâmetros relacionados à gênese do diabetes mellitus. A caracterização da exposição foi determinada pela quantificação da concentração de PCB126 no fígado e pulmão (CG/MS) e pelo aumento da expressão do receptor aril hidrocarboneto (AhR) no rim, fígado, pulmão e tecido adiposo (Western Blot). O efeito imunossupressor do PCB126 foi evidenciado pelo comprometimento da produção de células na medula óssea e, consequentemente, no número de células totais no sangue circulante. Adicionalmente, foi evidenciada a interferência do poluente na via de ativação mediada por receptores acoplados à proteína G (GPCRs), principalmente em neutrófilos, alterando importantes funções destas células, como a expressão de moléculas de adesão, geração de espécies reativas de oxigênio e migração. Entre as alterações metabólicas observadas, destacamos o aumento dos níveis de triglicerídeos e colesterol sérico, aumento da liberação de ácidos graxos livres; aumento da atividade da enzima hepática gama glutamil transferase; aumento da resistência à insulina e aumento da geração de óxido nítrico pelas ilhotas de Langerhans, dados estes, possivelmente relacionados ao comprometimento das células beta (β) pancreáticas, confirmados pelo aumento da expressão de GLUT4 no tecido adiposo, aumento da concentração de insulina sérica e aumento do estresse oxidativo nas ilhotas de Langerhans. Em conjunto, os dados obtidos destacam importantes alterações causadas pela exposição intranasal ao PCB126, evidenciando a participação do poluente na gênese do diabetes mellitus do tipo II. / The environmental exposure to persistent organic pollutants has been widely highlighted in recent literature due to the extensive association between the development of metabolic diseases, obesity and/or diabetes mellitus, and presence of these pollutants, especially organochlorines such as polychlorinated biphenyls (PCBs) in organism. Moreover, the mechanisms of action of these pollutants are controversial due to the high number of PCBs congeners, diversity of exposure protocols and lack of experimental studies. Therefore, the aim of this study was to elucidate the mechanisms of PCB126\'s toxic action at doses of 0.1; 1 or 10 µg/kg body weight in male Wistar rats exposed by intranasal instillation for 15 days. The established exposure procotol was characterized and considered sufficient to cause toxicity since changes were observed in the immune system, metabolism and in parameters related to the pathogenesis of diabetes mellitus. Characterization of exposure was determined by quantifying the concentration of PCB126 in liver and lung (GC-MS) and by the increased expression of aryl hydrocarbon receptor (AhR) in kidney, liver, lung, and adipose tissue (Western blot). The immunosuppressive effect of PCB126 was evidenced by impairment of cell production in the bone marrow and thus the total number of cells in the circulation. In addition, the interference of the pollutant in the activation pathway mediated by G-protein coupled receptors (GPCRs), in particular in neutrophils, was observed by changing important functions of these cells such as the expression of adhesion molecules, reactive oxygen species generation, and migration. Among the metabolic changes observed, we highlight the increased levels of triglycerides and serum cholesterol, increased release of free fatty acids; increased gamma glutamyl transferase hepatic enzyme activity; increased insulin resistance and increased generation of nitric oxide by the islets of Langerhans, these data possibly related to the impairment of beta cells (β) pancreatic function, suggested by the increased expression of GLUT4 in adipose tissue, increased serum insulin concentration and increased oxidative stress in the islets of Langerhans. Altogether, these results highlight important changes caused by intranasal exposure to PCB126, suggesting participation of the pollutant in the genesis of diabetes mellitus type II.

Bifenilas policloradas

Diabetes

Diabetes

Environmental toxicology

Insulin resistance

PCB126

PCB126

Persistent organic pollutants

Poluentes orgânicos persistentes

Polychlorinated biphenyls

Resistência à insulina

Toxicologia ambiental

Estudo experimental da exposição ao PCB126 sobre a indução de Diabetes mellitus tipo II / Experimental study of PCB126 exposure on induction of Diabetes mellitus type II.

Ana Lucia Borges Shimada

29 July 2015

A exposição ambiental aos poluentes orgânicos persistentes tem recebido amplo destaque na literatura recentemente devido à extensa associação entre o desenvolvimento de doenças metabólicas, obesidade e/ou diabetes mellitus, e a presença destes poluentes, principalmente os organoclorados, como as bifenilas policloradas (PCBs), no organismo. Por outro lado, os mecanismos de ação destes poluentes é controverso devido à elevada quantidade de representantes destas classes, gerando diversidade de protocolos de exposição e escassez de estudos experimentais. Por isto, foi objetivo deste trabalho elucidar os mecanismos de ação tóxica do PCB126, nas doses de 0,1; 1 ou 10 µg/kg de massa corpórea, em ratos Wistar machos, durante quinze dias, expostos por instilação intranasal. O procotolo de exposição empregado foi caracterizado e considerado suficiente para causar toxicidade, uma vez que foram observadas alterações no sistema imune, metabolismo e em parâmetros relacionados à gênese do diabetes mellitus. A caracterização da exposição foi determinada pela quantificação da concentração de PCB126 no fígado e pulmão (CG/MS) e pelo aumento da expressão do receptor aril hidrocarboneto (AhR) no rim, fígado, pulmão e tecido adiposo (Western Blot). O efeito imunossupressor do PCB126 foi evidenciado pelo comprometimento da produção de células na medula óssea e, consequentemente, no número de células totais no sangue circulante. Adicionalmente, foi evidenciada a interferência do poluente na via de ativação mediada por receptores acoplados à proteína G (GPCRs), principalmente em neutrófilos, alterando importantes funções destas células, como a expressão de moléculas de adesão, geração de espécies reativas de oxigênio e migração. Entre as alterações metabólicas observadas, destacamos o aumento dos níveis de triglicerídeos e colesterol sérico, aumento da liberação de ácidos graxos livres; aumento da atividade da enzima hepática gama glutamil transferase; aumento da resistência à insulina e aumento da geração de óxido nítrico pelas ilhotas de Langerhans, dados estes, possivelmente relacionados ao comprometimento das células beta (β) pancreáticas, confirmados pelo aumento da expressão de GLUT4 no tecido adiposo, aumento da concentração de insulina sérica e aumento do estresse oxidativo nas ilhotas de Langerhans. Em conjunto, os dados obtidos destacam importantes alterações causadas pela exposição intranasal ao PCB126, evidenciando a participação do poluente na gênese do diabetes mellitus do tipo II. / The environmental exposure to persistent organic pollutants has been widely highlighted in recent literature due to the extensive association between the development of metabolic diseases, obesity and/or diabetes mellitus, and presence of these pollutants, especially organochlorines such as polychlorinated biphenyls (PCBs) in organism. Moreover, the mechanisms of action of these pollutants are controversial due to the high number of PCBs congeners, diversity of exposure protocols and lack of experimental studies. Therefore, the aim of this study was to elucidate the mechanisms of PCB126\'s toxic action at doses of 0.1; 1 or 10 µg/kg body weight in male Wistar rats exposed by intranasal instillation for 15 days. The established exposure procotol was characterized and considered sufficient to cause toxicity since changes were observed in the immune system, metabolism and in parameters related to the pathogenesis of diabetes mellitus. Characterization of exposure was determined by quantifying the concentration of PCB126 in liver and lung (GC-MS) and by the increased expression of aryl hydrocarbon receptor (AhR) in kidney, liver, lung, and adipose tissue (Western blot). The immunosuppressive effect of PCB126 was evidenced by impairment of cell production in the bone marrow and thus the total number of cells in the circulation. In addition, the interference of the pollutant in the activation pathway mediated by G-protein coupled receptors (GPCRs), in particular in neutrophils, was observed by changing important functions of these cells such as the expression of adhesion molecules, reactive oxygen species generation, and migration. Among the metabolic changes observed, we highlight the increased levels of triglycerides and serum cholesterol, increased release of free fatty acids; increased gamma glutamyl transferase hepatic enzyme activity; increased insulin resistance and increased generation of nitric oxide by the islets of Langerhans, these data possibly related to the impairment of beta cells (β) pancreatic function, suggested by the increased expression of GLUT4 in adipose tissue, increased serum insulin concentration and increased oxidative stress in the islets of Langerhans. Altogether, these results highlight important changes caused by intranasal exposure to PCB126, suggesting participation of the pollutant in the genesis of diabetes mellitus type II.

Bifenilas policloradas

Diabetes

PCB126

Poluentes orgânicos persistentes

Resistência à insulina

Toxicologia ambiental

Diabetes

Environmental toxicology

Insulin resistance

PCB126

Persistent organic pollutants

Polychlorinated biphenyls