Immune and satellite cells : important role players in muscle recovery after injury

dc.contributor.advisorSmith, Carine
dc.contributor.advisorMyburgh, Kathryn H.
dc.contributor.authorKruger, Maria Jacoba
dc.contributor.otherUniversity of Stellenbosch. Faculty of Science. Dept. of Physiological Sciences.
dc.date.accessioned2011-02-23T14:10:04Z
dc.date.accessioned2011-03-14T08:14:14Z
dc.date.available2011-02-23T14:10:04Z
dc.date.available2011-03-14T08:14:14Z
dc.date.issued2011-03
dc.descriptionThesis (PhD (Physiological Sciences))--University of Stellenbosch, 2011.
dc.descriptionIncludes bibliography.
dc.description.abstractENGLISH ABSTRACT: Muscle injuries are associated with changes in skeletal muscle as well as the immune system. All studies investigating possible treatment modalities have found both positive and negative effects on muscle recovery. Since no universally accepted treatment modality exists, this thesis aims to determine whether a plant-derived antioxidant, proanthocyanidolic oligomer (PCO), might prove beneficial as treatment for sports injuries in order for athletes to return to the sports field quicker. The difference in recovery of muscle following both chronic (supplementation started 14 days prior to injury and continued thereafter) and acute supplementation (supplementation started two hours after injury) were also investigated. Both chronic and acute PCO supplementation in a rat hindlimb contusion injury model resulted in earlier muscle recovery, verified by an earlier satellite cell response compared to the placebo group. This effect was most prominent already at the four hour time point following injury, compared to day seven and three after chronic and acute placebo treatment respectively. PCO supplementation also resulted in quicker foetal myosin heavy chain (MHCf) expression compared to placebo treatment. Chronic supplementation specifically resulted in a blunted circulatory pro-inflammatory cytokine response, whilst allowing for a significant increase in IL-10, an anti-inflammatory cytokine, on day three (in the PCO group only). At tissue level, the response of the muscle pro-inflammatory cytokines, TNF- and IL- 6, coincided with the satellite cell response. Macrophage infiltration into the injured muscle also followed a similar pattern to that seen for the pro-inflammatory cytokines. Macrophages invaded the injured area quicker when supplemented with PCO chronically, however, macrophage infiltration could not explain the cytokine response seen with acute supplementation. Both chronic and acute supplementation with PCO was responsible for a severely blunted neutrophil response, a novel finding of this particular antioxidant. The main findings of the in vivo rodent study were that PCO was able to blunt the neutrophil response, whilst allowing for earlier macrophage infiltration. To establish possible mechanisms by which PCO might exert these beneficial effects, further analysis included determining macrophage phenotypes and neutrophil numbers in circulation. An in vitro neutrophil migration assay was also employed to further elucidate PCO’s ability to blunt neutrophil infiltration into the injured area. For this study, conditioned plasma were harvested from experimental animals and added together with neutrophils from control rats and granulocyte colony stimulating factor (G-CSF) to the insert of the migration chamber. A chemotactic factor, N-formyl methionine-leucine-phenylalanine (fMLP), was added to the bottom well and neutrophils were allowed to migrate for two hours. Results from this study indicated that neutrophil migration was attenuated in vitro in the presence of conditioned plasma from PCO supplemented rats only. The studies in this thesis on the effect of PCO on parameters of muscle and the immune system led to the following main conclusions: a) PCO supplementation resulted in earlier muscle recovery as a result of earlier satellite cell activation and MHCf synthesis; b) PCO favours an anti-inflammatory cytokine reaction, whilst blunting the pro-inflammatory cytokine response; and c) PCO blunted the neutrophil response whilst facilitating earlier macrophage infiltration into the injured area. The specific mechanism of action of PCO to blunt the neutrophil response specifically, possibly includes the ability to suppress adhesion molecule expression on the neutrophils themselves. However, this warrants further investigation.en
dc.description.abstractAFRIKAANSE OPSOMMING: Spier beserings word geassosiëer met veranderinge in skeletspier sowel as die immuunstelsel. Meeste studies wat moontlike behandelingsopsies ondersoek, het beide positiewe en negatiewe spierherstel gerapporteer. Omrede daar geen universele behandelingsmoontlikheid bestaan nie, is die doel van hierdie tesis om die effek van ‘n plantgebaseerde anti-oksidant, pro-antosianiedoliese oligomeer (PSO), as ‘n voordelige behandelingstrategie vir sportbeserings te toets. Die verskil in spierherstel na beide kroniese (supplementering wat 14 dae voor besering begin is, en volgehou is daarna) en akute supplementering (supplementering het twee uur na besering begin), is ook ondersoek. Beide kroniese en akute PSO supplementering, in ‘n rot agterbeen-kneusbeseringmodel, het gelei tot vroeë spierherstel. Die bevindinge is geverifiëer deur ‘n vroeë satelietselrespons in vergelyking met die plasebo groep. Hierdie effek was reeds opvallend vier uur na besering, in vergelyking met die dag sewe en dag drie tydpunt tydens kroniese en acute plasebo behandeling onderskeidelik. In vergelyking met die kontrole groep, het PSO supplementering ook gelei to vininger uitdrukking van miosienswaarketting (MHCf). Kroniese supplementering het spesifiek gelei to ‘n onderdrukte sirkulatoriese pro-inflammatoriese sitokien response, terwyl ‘n betekenisvolle toename in IL-10 op dag drie (in die PSO groep alleenlik) waargeneem is. Op weefselvlak, het die pro-inflammatoriese sitokiene, IL-6 en TNF- , dieselfde patron gevolg as die van satelietselle. Makrofaaginfiltrasie binne die beseerde spier het ook ‘n soorgelyke patroon gevolg. Makrofage het die beseerde area vinniger geïnfiltreer in die kronies PSO-gesupplementeerde groep, maar kon nie die sitokienrespons, wat waargeneem is met akute supplementasie, verklaar nie. Beide kroniese en akute PSO supplementering was verantwoordelik vir ‘n onderdrukte neutrofiel respons, wat ‘n nuwe bevinding is vir hierdie spesifieke anti-oksidant. Die hoof bevindinge in die in vivo rotstudies, is dat PSO instaat is om die neutrofielrespons te onderdruk, en sodoende vroeë makrofaaginfiltrasie teweeg te bring. Om meganismes waarby PSO hierdie voordelige effekte veroorsaak te ondersoek, is verdere analises gedoen om makrofaagfenotipe en neutrofielgetalle in die sirkulasie te bepaal. ‘n In vitro neutrofielmigrasie studie is ook aangewend om PSO se vermoë om neutrofielinfiltrasie in die beseerde area te onderdruk, te ondersoek. Neutrofiele van kontrole rotte, tesame met gekondisioneerde plasma van eksperimentele diere en granulosiet-kolonie stimulerende faktor (G-KSF), is toegelaat om vir twee ure in die teenwoordigheid van ‘n chemotaktiese faktor, N-formiel metionien-leusien-fenielalanien (fMLP) te migreer. Resultate van hierdie studie het aangetoon dat neutrofielmigrasie, in vitro, alleenlik onderdruk word in die teenwoordigheid van gekondisioneerde plasma van PSO-gesupplementeerde rotte. Die studies in hierdie tesis oor die effek van PSO op parameters van spier en die immuunsisteem, het tot die volgende hoofgevolgtrekkings gelei: a) PSO supplementering het vroeë spierherstel, as gevolge van vroeë satelietselaktivering en MHCf sintese, teweeg gebring; b) PSO verkies ‘n anti-inflammatoriese sitokien reaksie, terwyl dit die proinflammatoriese sitokienrespons onderdruk; en c) PSO onderdruk die neutrofielrespons, terwyl vroeë makrofaaginfiltrasie in die beseerde area gefasiliteer word. Die spesifieke meganisme van aksie van PSO, om die neutrofielrespons te onderdruk, kan moontlik die vermoë van neutrofiele om adhesie molekule uit te druk, insluit. Hierdie aanname moet egter verder ondersoek word.af
dc.format.extent292 p. : ill.
dc.identifier.urihttp://hdl.handle.net/10019.1/6509
dc.language.isoen
dc.publisherStellenbosch : University of Stellenbosch
dc.rights.holderUniversity of Stellenbosch
dc.subjectImmune cellsen
dc.subjectSatellite cellsen
dc.subjectMuscle injuryen
dc.subjectRecoveryen
dc.subjectDissertations -- Physiological sciencesen
dc.subjectTheses -- Physiological sciencesen
dc.subjectDissertations -- Physiology (Human and animal)en
dc.subjectTheses -- Physiology (Human and animal)en
dc.titleImmune and satellite cells : important role players in muscle recovery after injuryen
dc.typeThesis
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