Impact of ischemia–reperfusion injury and physical prehabilitation on hepatic mitochondrial proteome
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2023 |
| Tipo de documento: | Dissertação |
| Idioma: | eng |
| Título da fonte: | Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) |
| Texto Completo: | http://hdl.handle.net/10773/44682 |
Resumo: | Hepatic ischemia–reperfusion injury (HIRI) represents a major challenge through liver surgery, being related to an increased risk for haemorrhagic shock, trauma, and organ failure. Pringle manuever is a technique frequently applied in hepatic surgical procedures for controlling intraoperative bleeding, that remains a major factor of morbidity and mortality in surgery. Apart from the general microvascular and parenchymal harm arising from HIRI, liver cells undergo several bioenergetic modifications, including alterations towards anaerobic metabolism, exacerbated oxidative stress conditions and the activation of an acute inflammatory response, provoking damage, and subsequent dysfunction of surrounding organelles, such as the mitochondria. Despite intensive efforts dedicated to the implementation of new therapeutical strategies for minimize the deleterious effects of IRI in the liver, the complexity of the molecular mechanisms linked to this pathological condition remains poorly understood, limiting the scope of further investigations. Recently, pre–operative exercise training has emerged as a promising therapy to alleviate the adverse outcomes of HIRI, due to the significantly improvements of physical prehabilitation on the overall physical condition and quality of life of the patients. In this context, the aim of the present dissertation consisted in study the impact of pre–operative exercise training prior to HIRI, induced by the Pringle maneuver employed during liver surgery, on the adaptation of rodents’ mitochondrial profile, primarily through proteomic characterization. To achieve the purpose, healthy 4– week old male Wistar Han rats were subjected to voluntary wheel running, over 29 weeks, following the liver IRI protocol, encompassing 30 minutes of ischemia, followed by 24 hours of reperfusion. In general, physical exercise training seems to significant modulate mitochondrial proteomic profile, suggestive of adaptations in liver’s mitochondrial metabolism (OXPHOS, fatty acid β–oxidation) and quality control (mitochondrial biogenesis, and protein import control), and in vital hepatic functions (detoxification linked to phase II metabolism). Interestingly, no changes were noticed regarding the activation of immune inflammatory responses or cell death pathways. Overall, our findings suggest that exercise training appears to confer considerable protection to liver cells exposed to IR injury. In the future, it would be vital, for the enrichment of the current investigations regarding the role of physical prehabilitation as a therapeutic strategy for minimizing the detrimental implications of IRI in the liver, to focus the research on the time–dependent liver tolerance to the harm with the combination of restricted exercise training program to ensure more pronounced adaptations in the mitochondrial proteomic profile of IR–harmed rodents. |
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Impact of ischemia–reperfusion injury and physical prehabilitation on hepatic mitochondrial proteomeHepatic ischemia reperfusion injuryLiverMitochondriaPringle manueverExerciseProteomePhysical prehabilitationHepatic ischemia–reperfusion injury (HIRI) represents a major challenge through liver surgery, being related to an increased risk for haemorrhagic shock, trauma, and organ failure. Pringle manuever is a technique frequently applied in hepatic surgical procedures for controlling intraoperative bleeding, that remains a major factor of morbidity and mortality in surgery. Apart from the general microvascular and parenchymal harm arising from HIRI, liver cells undergo several bioenergetic modifications, including alterations towards anaerobic metabolism, exacerbated oxidative stress conditions and the activation of an acute inflammatory response, provoking damage, and subsequent dysfunction of surrounding organelles, such as the mitochondria. Despite intensive efforts dedicated to the implementation of new therapeutical strategies for minimize the deleterious effects of IRI in the liver, the complexity of the molecular mechanisms linked to this pathological condition remains poorly understood, limiting the scope of further investigations. Recently, pre–operative exercise training has emerged as a promising therapy to alleviate the adverse outcomes of HIRI, due to the significantly improvements of physical prehabilitation on the overall physical condition and quality of life of the patients. In this context, the aim of the present dissertation consisted in study the impact of pre–operative exercise training prior to HIRI, induced by the Pringle maneuver employed during liver surgery, on the adaptation of rodents’ mitochondrial profile, primarily through proteomic characterization. To achieve the purpose, healthy 4– week old male Wistar Han rats were subjected to voluntary wheel running, over 29 weeks, following the liver IRI protocol, encompassing 30 minutes of ischemia, followed by 24 hours of reperfusion. In general, physical exercise training seems to significant modulate mitochondrial proteomic profile, suggestive of adaptations in liver’s mitochondrial metabolism (OXPHOS, fatty acid β–oxidation) and quality control (mitochondrial biogenesis, and protein import control), and in vital hepatic functions (detoxification linked to phase II metabolism). Interestingly, no changes were noticed regarding the activation of immune inflammatory responses or cell death pathways. Overall, our findings suggest that exercise training appears to confer considerable protection to liver cells exposed to IR injury. In the future, it would be vital, for the enrichment of the current investigations regarding the role of physical prehabilitation as a therapeutic strategy for minimizing the detrimental implications of IRI in the liver, to focus the research on the time–dependent liver tolerance to the harm with the combination of restricted exercise training program to ensure more pronounced adaptations in the mitochondrial proteomic profile of IR–harmed rodents.A lesão hepática por isquemia–reperfusão (IR) representa um grande desafio durante a cirurgia hepática e está associada a um aumento do risco de choque hemorrágico, trauma e falência orgânica. A manobra de Pringle consiste numa técnica frequentemente aplicada em procedimentos cirúrgicos hepáticos com o intuito de controlar possíveis hemorragias intraoperatórias que constitui um fator associado à morbidade e mortalidade cirúrgicas. Além do dano microvascular e parenquimal provocado por IR, os hepatócitos são sujeitos a várias modificações bioenergéticas, incluindo a presença de um metabolismo anaeróbio, condições exacerbadas de stress oxidativo e a ativação de respostas inflamatórias agudas, causando lesão e subsequente disfunção em organelos como a mitocôndria. Apesar de inúmeros esforços intensivos dedicados à implementação de novas estratégias terapêuticas para minimizar os efeitos prejudiciais da IR no fígado, a complexidade dos mecanismos moleculares relacionados com esta condição patológica permanece pouco compreendida, limitando as investigações futuras. Recentemente, o exercício pré–operatório tem surgido como terapia promissora para aliviar os resultados adversos da HIRI, devido às melhorias significativas da preabilitação física na condição física geral e qualidade de vida dos pacientes. Neste contexto, o objetivo da presente dissertação consistiu em investigar o impacto do exercício pré–operatório prévio à lesão por IR, induzida pela manobre de Pringle aplicada durante a cirurgia hepática, na adaptação do perfil mitocondrial de roedores, recorrendo à caracterização proteómica como principal abordagem. Para atingir o objetivo, ratos Wistar Han machos saudáveis de 4 semanas de idade foram submetidos a corrida voluntária em roda, ao longo de 29 semanas, e de seguida foi aplicado o protocolo de lesão hepática por IR, compreendendo 30 minutos de isquemia, seguidos de 24 horas de reperfusão. Numa perspetiva global, o exercício físico pareceu modular significativamente o perfil proteómico mitocondrial, sugerindo adaptações no metabolismo hepático mitocondrial (fosforilação oxidativa, β–oxidação de ácidos gordos) e no controlo de qualidade mitocondrial (biogénese mitocondrial, controlo de transporte de proteínas), e em funções hepáticas vitais (destoxificação ligada ao metabolismo da fase II). Curiosamente, não foram observadas alterações relativas à ativação de respostas inflamatórias imunes ou vias de morte celular. Em geral, os nossos resultados são sugestivos de que o exercício físico parece conferir uma proteção considerável aos hepatócitos expostos à lesão por IR. No futuro, seria vital, para enriquecer investigações correntes debruçadas sobre o papel da preabilitação física como estratégia terapêutica para minimizar os efeitos prejudiciais da lesão hepática por IR, ter como foco a tolerância hepática à IR dependente do tempo de isquemia com a combinação de um programa de exercício físico controlado, para garantir adaptações mais pronunciadas no perfil proteómico mitocondrial de roedores afetados pela IR.2025-12-29T00:00:00Z2023-12-15T00:00:00Z2023-12-15info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10773/44682engBaltazar, Telmo Sequeirainfo:eu-repo/semantics/embargoedAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2025-04-14T01:49:09Zoai:ria.ua.pt:10773/44682Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-29T06:26:09.957442Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse |
| dc.title.none.fl_str_mv |
Impact of ischemia–reperfusion injury and physical prehabilitation on hepatic mitochondrial proteome |
| title |
Impact of ischemia–reperfusion injury and physical prehabilitation on hepatic mitochondrial proteome |
| spellingShingle |
Impact of ischemia–reperfusion injury and physical prehabilitation on hepatic mitochondrial proteome Baltazar, Telmo Sequeira Hepatic ischemia reperfusion injury Liver Mitochondria Pringle manuever Exercise Proteome Physical prehabilitation |
| title_short |
Impact of ischemia–reperfusion injury and physical prehabilitation on hepatic mitochondrial proteome |
| title_full |
Impact of ischemia–reperfusion injury and physical prehabilitation on hepatic mitochondrial proteome |
| title_fullStr |
Impact of ischemia–reperfusion injury and physical prehabilitation on hepatic mitochondrial proteome |
| title_full_unstemmed |
Impact of ischemia–reperfusion injury and physical prehabilitation on hepatic mitochondrial proteome |
| title_sort |
Impact of ischemia–reperfusion injury and physical prehabilitation on hepatic mitochondrial proteome |
| author |
Baltazar, Telmo Sequeira |
| author_facet |
Baltazar, Telmo Sequeira |
| author_role |
author |
| dc.contributor.author.fl_str_mv |
Baltazar, Telmo Sequeira |
| dc.subject.por.fl_str_mv |
Hepatic ischemia reperfusion injury Liver Mitochondria Pringle manuever Exercise Proteome Physical prehabilitation |
| topic |
Hepatic ischemia reperfusion injury Liver Mitochondria Pringle manuever Exercise Proteome Physical prehabilitation |
| description |
Hepatic ischemia–reperfusion injury (HIRI) represents a major challenge through liver surgery, being related to an increased risk for haemorrhagic shock, trauma, and organ failure. Pringle manuever is a technique frequently applied in hepatic surgical procedures for controlling intraoperative bleeding, that remains a major factor of morbidity and mortality in surgery. Apart from the general microvascular and parenchymal harm arising from HIRI, liver cells undergo several bioenergetic modifications, including alterations towards anaerobic metabolism, exacerbated oxidative stress conditions and the activation of an acute inflammatory response, provoking damage, and subsequent dysfunction of surrounding organelles, such as the mitochondria. Despite intensive efforts dedicated to the implementation of new therapeutical strategies for minimize the deleterious effects of IRI in the liver, the complexity of the molecular mechanisms linked to this pathological condition remains poorly understood, limiting the scope of further investigations. Recently, pre–operative exercise training has emerged as a promising therapy to alleviate the adverse outcomes of HIRI, due to the significantly improvements of physical prehabilitation on the overall physical condition and quality of life of the patients. In this context, the aim of the present dissertation consisted in study the impact of pre–operative exercise training prior to HIRI, induced by the Pringle maneuver employed during liver surgery, on the adaptation of rodents’ mitochondrial profile, primarily through proteomic characterization. To achieve the purpose, healthy 4– week old male Wistar Han rats were subjected to voluntary wheel running, over 29 weeks, following the liver IRI protocol, encompassing 30 minutes of ischemia, followed by 24 hours of reperfusion. In general, physical exercise training seems to significant modulate mitochondrial proteomic profile, suggestive of adaptations in liver’s mitochondrial metabolism (OXPHOS, fatty acid β–oxidation) and quality control (mitochondrial biogenesis, and protein import control), and in vital hepatic functions (detoxification linked to phase II metabolism). Interestingly, no changes were noticed regarding the activation of immune inflammatory responses or cell death pathways. Overall, our findings suggest that exercise training appears to confer considerable protection to liver cells exposed to IR injury. In the future, it would be vital, for the enrichment of the current investigations regarding the role of physical prehabilitation as a therapeutic strategy for minimizing the detrimental implications of IRI in the liver, to focus the research on the time–dependent liver tolerance to the harm with the combination of restricted exercise training program to ensure more pronounced adaptations in the mitochondrial proteomic profile of IR–harmed rodents. |
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