Effect of melatonin on myocardial susceptibility to ischaemia and reperfusion damage in a rat model of high-fat diet-induced obesity

Kaskar, Rafee'ah

12 1900

Thesis (MScMedSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: Obesity has reached epidemic proportions worldwide and is currently a serious health problem. It is associated with metabolic abnormalities, oxidative stress, hypertension, insulin resistance and an increased disposition for the development of cardiovascular disease. Elucidation of the pathophysiological mechanisms underlying obesity and its relationship with metabolic and cardiovascular diseases is essential for prevention and management of these disorders. Melatonin, the pineal gland hormone, is a powerful antioxidant and has been shown to protect the myocardium against ischaemia/reperfusion (I/R) injury. Long- as well as shortterm melatonin treatment also reversed several of the harmful effects of obesity in an animal model of hyperphagia-induced obesity (DIO). However, its effects on myocardial I/R injury and intracellular signalling in obesity induced by a high fat diet (HFD) are still unknown. Aims of study: (i) To evaluate the ability of a high fat diet (HFD) to induce obesity in rats. Apart from evaluating its effects on the biometric parameters and resistance to ischaemia/reperfusion injury (as indicated by infarct size in regional ischaemia and functional recovery after global ischaemia), special attention will be given on the interplay between adiponectin, AMPK, leptin, and FFA in this model. (ii) To evaluate the effect of daily oral administration of melatonin to rats on the HFD as well as their littermate controls, on the parameters listed above as well as on the development of obesity. In this study melatonin will be administered from the onset of the feeding of the high fat diet. Methods: Male Wistar rats were divided into 4 groups: (i) control rats (receiving normal rat chow) (C); (ii) control rats receiving melatonin (CM); (iii) obese rats (receiving HFD) (HFD); (iv) obese rats receiving melatonin (HM). Animals were kept on the diet for 16 weeks and melatonin treatment (10mg/kg/day, added to the drinking water) started at the onset of the feeding. Following feeding and treatment, the animals were grouped into fasted/ non-fasted of which biometric parameters were recorded and blood collected at the time of sacrifice for metabolic and biochemical assays. Hearts were perfused in the working mode for evaluation of myocardial function and infarct size determination after exposure to 35min regional ischaemia/60min reperfusion. For study of intracellular signaling, hearts were perfused in the working mode, subjected to 20min global ischaemia/10min reperfusion and freeze-clamped for Western blotting. Plasma leptin, adiponectin, free fatty acid, triglycerides, total cholesterol, phospholipids, conjugated dienes and thiobarbituric reactive substances (TBARS) levels were determined. Several kinases were investigated including, the RISK (reperfusion injury salvage kinase) (PKB/Akt and ERK p44/42) and SAFE (survivor activating factor enhancement) (STAT-3) pathways, AMPK and JNK under baseline conditions or following 10 min reperfusion. In addition, expression of UCP-3 and PGC1-α was determined. Results: Significant increases in body weight, visceral fat, blood glucose, insulin, HOMA index and leptin and a reduction in adiponectin levels were observed in the fasted high fat diet (HFD) group when compared with controls (C). Significant increases in free fatty acid and triglyceride levels were also noted the HFD group while other serum lipid parameters, including TBARS, remained unchanged. No differences in functional recovery during reperfusion or infarct size after exposure to 35 min regional ischaemia, as well as functional recovery during reperfusion after 20 min global ischaemia were observed between the control and HFD groups. Baseline and 10 min reperfusion data were similar for the RISK and SAFE pathway kinases for the control vs HFD groups. The HFD also had no effect on the expression and phosphorylation of myocardial AMPK and JNK, as well as on the expression of UCP-3 and PGC1-α, when compared to the controls. Treatment with melatonin significantly reduced body weight, visceral fat, blood glucose, HOMA index and serum leptin levels in HFD treated groups, while having no effect on the lipid profile. Although melatonin significantly reduced infarct size in both control [% of area at risk: 20.59 ± 2.29 (CM) vs 38.08 ± 2.77 (C)] and high-fat diet groups [% of area at risk: 11.43 ± 2.94 (HM) vs 38.06 ± 3.59 (H)], it was without effect on myocardial functional recovery during reperfusion. Melatonin had no effect on the intracellular signaling pathways studied. Conclusions: The HFD proved to be a useful model of diet-induced obesity with a more pronounced impact on biometric and metabolic changes compared to the DIO model. Long-term melatonin treatment successfully prevented the development of metabolic abnormalities associated with the high fat diet and obesity as well as significantly reduced myocardial infarct size. The mechanisms involved in melatonin-induced cardioprotection in obesity have not been fully elucidated in this study and require further investigation. However, the anti-obesogenic and cardioprotective properties of melatonin were very significant indeed and support the suggestion of this hormone as a potential tool in the treatment of obesity and associated cardiovascular complications. / AFRIKAANSE OPSOMMING: Inleiding: Vetsug (obesiteit) het wêreldwyd epidemiese afmetings aangeneem en word tans as ‘n ‘n ernstige gesondheidsprobleem beskou. Vetsug word geassosieer met metaboliese afwykings, oksidatiewe stres, hipertensie, insulienweerstandigheid en is‘n belangrike risikofaktor vir die ontwikkeling van kardiovaskulêre siekte. Ten spyte hiervan, het onlangse studies ‘n gunstige effek van vetsug op die uitkomste van miokardiale infarksie in pasiënte gerapporteer, die sg obesiteitsparadoks. Kennis van die patofisiologiese meganismes onderliggend aan vetsug en die ontstaan van metaboliese afwykinge en hartsiekte is noodsaaklik vir die voorkoming en behandeling van hierdie toestande. Melatonien, die hormoon afgeskei deur die pineaalklier, is ‘n kragtige antioksidant en vry radikaal opruimer. Dit is voorheen aangetoon dat dit die hart teen iskemie/herperfusie (I/H) besering kan beskerm en sommige van die skadelike gevolge van vetsug in diermodelle kan omkeer. Die effek van melatonien op miokardiale I/H besering en intrasellulêre seintransduksie prosesse in vetsug geïduseer deur ‘n hoë vet dieet is egter nog onbekend. Doelstellings: (i) Die ontwikkeling en karakterisering van ‘n nuwe model van vetsug en insulienweerstandigheid geïnduseer deur 'n hoë vet dieet (HVD) en die evaluering van die effek daarvan op miokardiale I/H besering en die gepaardgaande intrasellulêre seintransduksieprosesse; (ii) Bepaling van die effek van daaglikse toediening van melatonien aan rotte op die HVD sowel as aan kontroles op ‘n standard dieet, op die ontwikkeling van dieet-geïnduseerde metaboliese veranderinge, miokardiale infarktgrootte en funksionele herstel na koronêre arterie afbinding, sowel as intrasellulêre seintransduksie. Metodiek: Vier groepe van manlike Wistar rotte is bestudeer: (i) kontrole rotte (op‘n standaard dieet) (K); (ii) kontrole rotte op ‘n standard dieet plus melatonien (KM); (iii) dieetrotte (op‘n HVD); (iv) HVD rotte wat melatonien ontvang (HM). Die HVD en melatonien (10mg/kg/dag in die drinkwater) is vir 16 weke toegedien. Na die periode van behandeling, is die diere in vastende en nie-vastende groepe verdeel, die biometriese parameters genoteer en bloedmonsters vir metaboliese en biochemiese bepalings versamel, tydens verwydering van die harte. Harte is geperfuseer volgens die werkhartmodel vir bepaling van miokardiale funksie en infarktgrootte na blootstelling aan 35min streeksiskemie. Vir evaluering van intrasellulêre seintransduksie, is geperfuseerde werkende rotharte blootgestel aan 15min globale iskemie/10 min herperfusie en gevriesklamp vir latere analises volgens die Western kladtegniek.hart. Serum leptien, adiponektien, vryvetsure, trigliseried, totale cholesterol, fosfolipiede, gekonjugeerde diene en tiobarbituursuur reaktiewe stowwe (TBARS) is bepaal. Met gebruik van Western kladtegniek, is die aktivering en/of uitdrukking van die RISK (PKB/ Akt en ERK p44/42) en SAFE (STAT-3) seintransduksiepaaie, AMPK, JNK, UCP-3 en PGC1-α, onder basislyn toestande of na 10 min herperfusie bestudeer. Resultate:‘n Beduidende toename in liggaamsgewig, visserale vet, die HOMA indeks, insulien en leptien vlakke is in die HVD groep waargeneem vergeleke met die kontrole (K) rotte. Adiponektien vlakke was laer in die HVD groep. Die HVD groep is ook gekenmerk deur ‘n beduidende styging in serum vryvetsuur en trigliseried vlakke, terwyl die ander lipied parameters, insluitende die TBARS vlakke, onveranderd was. Infarktgrootte en funksionele herstel tydens herperfusie na blootstelling aan 35 min streeksiskemie, asook funksionele herstel tydens herperfusie na 20 min globale iskemie het nie verskil tussen harte van die kontrole en HVD rotte nie. Aktivering van PKB/Akt, ERK p44/p42, STAT3, AMPK en JNK by basislyn en na 10 min herperfusie was soortgelyk in die kontrole en HFD groepe. Die HVD het ook geen effek op die uitdrukking van UCP-3 en PGC1-α in vergelyking met die kontrole gehad nie. Behandeling met melatonien het die liggaamsgewig, visserale vet, bloedglukose, HOMA indeks en serum leptien vlakke in die HVD groepe statisties beduidend verlaag, terwyl dit geen invloed op die lipiedprofiel gehad het nie. Melatonien behandeling het die miokardiale infarktgrootte beduidend en tot dieselfde mate verminder in beide kontrole [20.59 ± 2.29 (KM) vs 38.08 ± 2.77% (K)] en HVD groepe [11.43 ± 2.94 (HM) vs 38.06 ± 3.59% (HVD)]. Geen verskille is egter tussen die funksionele herstel gedurende herperfusie van die behandelde en onbehandelde kontrole en HVD groepe waargeneem nie. Melatonien het ook geen uitwerking op die intrasellulêre seintransduksiepaaie gehad nie. Gevolgtrekkings: Die resultate het getoon dat die HFD 'n goeie model van dieetgeïnduseerde vetsug en insulien weerstandigheid ontlok, met 'n meer uitgesproke impak op biometriese en metaboliese veranderinge as die voorheen gebruikte hoë-sukrose dieet. Langtermyn melatonien- behandeling het die ontwikkeling van metaboliese abnormaliteite geassosieer met die HVD, voorkom, asook miokardiale infarktgrootte na koronêre afbinding beduidend verminder. Die meganismes betrokke in melatonien-geïnduseerde miokardiale beskerming moet egter in meer detail ondersoek word. Die resultate verkry steun die voorstel dat melatonientoediening voordelig sal wees in die behandeling van vetsug en sy kardiovaskulêre komplikasies.

Myocardium

Ischaemia/reperfusion injury

Melatonin -- Physiological effect

Intracellular signalling

Rats as laboratory animals

Obesity -- Animal models

UCTD

The role of cation chloride co-transporters (CCCs) as potential neuroprotective targets in ischaemic stroke

Martin-Aragón Baudel, Miguel Ángel Stanislas

January 2018

Stroke is one of the major causes of death and disability worldwide. The area that surrounds the infarcted core is the location of the continuing damage that takes place hours and days following an insult, and is referred to as the penumbra. By creating an oxygen deprived environment in the neuronal-like PC12 and NT2 cells and an in vivo photothrombotic model of stroke (PTS) in mice, two different strategies were created to replicate the conditions of an ischaemic brain. In differentiated PC12 and NT2 cells, following hypoxia, preferential activation of HIF-2α transcription and protein expression was detected. Increased expression of the neural progenitor stem cell-like markers, thought to be transcriptionally regulated by HIF-2α, were also observed. Furthermore, hypoxia caused loss of neuronal characteristics in differentiated cells. This is highly significant as it shows neuronal cells possess molecular mechanisms which could trigger recovery following ischaemic insult. The expression of the chloride co-transporters, NKCC1 and KCC2, mediators of the GABAergic response, was assessed following hypoxia in differentiated PC12 and NT2 cells and PTS. In PC12 and NT2 cells exposed to hypoxia, the expression of KCC2 was significantly decreased at both the transcript and protein level whereas NKCC1 expression remained unmodified. In the in vivo model, the development of the penumbra in the days following injury was assessed with specific markers allowing the identification of the penumbra up to 200 ❍m from the ischaemic core and a progressive neuronal loss was observed within. Our results show an increase in the number of neurons expressing NKCC1 in the penumbra up to 5 days following the insult when compared to the contralateral hemisphere. On the contrary, KCC2 positive cells were dramatically decreased in this area. In mice treated with bumetanide, an NKCC1 antagonist, a significant reduction in neuronal loss was observed. Our results show a reversal on the chloride co-transporters expression in vitro and in vivo and how treatments targeting these channels might represent a novel strategy to reduce the damage associated with stroke.

610

Influence of Oxidative Stress on Muscle and Bone

Östman, Bengt

January 2009

Reactive oxygen species (ROS) induce oxidative stress and although are primarily recognized for playing a deleterious biological role, they can be beneficial to cell systems. ROS are extremely short-lived and normally tightly regulated by antioxidant defence systems. Cells react to oxidative stress in different ways, which primarily depends on cell type, stress severity, or both. There is a general limitation in extrapolating to humans conclusions drawn from in vitro and animal studies because of important species-specific differences. Therefore, the general aim of this thesis was to study the influence of oxidative stress on human muscle and bone in vivo. In paper I we presented a one-step HPLC method optimized for the simultaneous determination of purine degradation products in small microdialysis samples. The clinical utility of the method was successfully tested in a patient with traumatic brain injury. In paper II we evaluated microdialysis as an in vivo method to characterize the relative kinetics of ROS-related metabolites in human skeletal muscle exposed to ischaemia-reperfusion. Results indicated that microdialysis was feasible and safe to use in monitoring metabolic events during tourniquet-assisted surgery. In paper III we investigated the association between an oxidative stress marker (urinary 8-iso-PGF2α) and bone mineral density (BMD) and whether α-tocopherol modified the association. The main finding was the negative association between 8-iso-PGF2α and BMD and that the association was further dependent on serum α-tocopherol level. In paper IV we performed a randomized controlled trial to evaluate the influence of Q10 supplementation on exercise performance and metabolites of muscular damage. We did not observe any effects on exercise capacity after 8 weeks of Q10 administration. Nor did we find a significant effect on serum markers related to oxidative stress. In conclusion we have studied the influence of oxidative stress on muscle and bone in vivo in humans. The oxidative stress was triggered by four different causes (trauma, ischemia-reperfusion, ageing, and exercise exhaustion).

bone mineral density

coenzyme Q10

exercise

ischaemia

isprostanes

muscle

oxidative stress

oxygen radicals

reperfusion

tocopherol

Orthopaedics

Ortopedi

Priešoperacinės magnetinio rezonanso angiografijos taikymas gydant cukriniu diabetu sergančiųjų kritinę kojų išemiją / The application of preoperative magnetic resonance angiography in the treatment of critical leg ischemia in patients with diabetes

Velička, Linas

07 October 2005

The application of preoperative magnetic resonance angiography in the treatment of critical leg ischemia in patients with diabetes ABBREVIATIONS ABPI -ankle brachial pressure index AI - ankle index ARO - arterial runoff CLI - critical limb ischemia DM – diabetes mellitus DSA- digital subtraction angiography DU - duplex ultrasonography GSV- great saphenous vein HKUM - Hospital of Kaunas University of Medicine IHD - ischemic heart disease IS - ischaemic stroke MRA - magnetic resonance angiography NAV – not reversed autovein PAOD - peripheral artery disease PATE - pulmonary artery tromboembolia SD - standard deviation χ2 - Chi-square 1. INTRODUCTION Complications of atherosclerosis and diabetes mellitus rank among the greatest “scourges” of the aging population. In the majority of developed countries, mortality from complications of atherosclerosis occupies the 1st – the 2nd places, and mortality from complications of DM – the 3rd – the 4th places [Šulcaitė R., 2002]. One of the main risk factors for the development of atherosclerosis is diabetes mellitus (DM)[Eskelinen, E., 2003; Kozek, E., 2003; Yokoyama, H., 2003]. Clinical manifestations of atherosclerosis are ischemic heart disease (IHD), cerebral ischemia (CI), and obliterative atherosclerosis, or peripheral artery occlusive disease (PAOD). At present, diabetologists used the term diabetes lipidus, thus combining these two diseases into one. Up to 70% of amputations of non-traumatic origin... [to full text]

Medicine

Diabetes mellitus

Kritinė kojų išemija

Critical leg ischaemia

Magnetic resonance angiography

Magnetinio rezonanso angiografija

Distalinių arterijų šuntavimas

Cukrinis diabetas

Entwicklung eines Tiermodells am akut instrumentierten Schwein zur Untersuchung endogener Opioidpeptide unter der extrakorporalen Zirkulation

Kruse, Lilian Charlotte

24 June 2010

Die extrakorporale Zirkulation unter Einsatz einer Herz-Lungen-Maschine kann postoperativ zu kontraktilen ventrikulären Funktionsstörungen führen, die Morbidität und Mortalität für betroffene Patienten erhöht. Diese kardiale Dysfunktion bezeichnet man als myokardiales Stunning, welche durch die globale Ischämie ausgelöst wird. Das Phänomen der reversiblen kontraktilen Dysfunktion weißt eine hohe klinische Relevanz auf und ist somit in den vergangenen Jahrzehnten sowohl klinisch als auch experimentell intensiv erforscht worden. Dabei kamen unterschiedlichste Spezies, Methoden und Modelle zum Einsatz. Ziel der vorliegenden Arbeit ist die Etablierung eines neuartigen akut instrumentierten Tiermodells, anhand dessen Folgen des kardiopulmonalen Bypasses und Wirkung des endogenen Opioidsystems auf myokardiales Stunning untersucht werden können. Mit Hilfe des entwickelten Versuchsmodells können die Auswirkungen applizierter Opioidrezeptorantagonisten und die Effekte der kardiopulmonalen Zirkulation auf die kontraktile myokardiale Dysfunktion valide untersucht werden. Als Versuchstiere wurden 50 männlich kastrierte Schweine der Rassenkreuzung „Deutsche Landrasse“ und „Yorkshireschwein“ eingesetzt. In Allgemeinanästhesie wurden die Tiere über eine Thorakotomie instrumentiert und anschließend elektrisch Kammerflimmern induziert. Nach Erreichen einer stabilen extrakorporalen Zirkulation unter der Herz-Lungen-Maschine wurde nach Ablauf der ischämischen Phase eine standardisierte Reaninmation und Weaning durchgeführt. Alle 50 Tiere konnten den Versuch erfolgreich durchlaufen. Die Analyse und Auswertung sämtlicher archivierter Daten und Proben der Versuchstiere wurde zu einem späteren Zeitpunkt durchgeführt.

Myokardiales Stunning

extrakorporale Zirkulation

Ischämie

Reperfusion

Opioidantagonisten

myocardial stunning

extracorporeal circulation

ischaemia

reperfusion

opioid antagonists

ddc:610

Effects of peri-operative statin treatment on atrial electrical properties, post-operative atrial fibrillation and in-hospital clinical outcomes in patients undergoing elective cardiac surgery

Jayaram, Raja

January 2014

Surgical myocardial revascularization remains the standard of care for patients with multi-vessel coronary artery disease. A growing body of evidence indicates that systemic inflammation and myocardial oxidative stress are associated with the development of postoperative atrial fibrillation (POAF) and low cardiac output syndrome in patients undergoing cardiac surgery. Statins have been shown to exert rapid anti-inflammatory and antioxidant effects by inhibiting myocardial NOX2 oxidases and by increasing the bioavailability of nitric oxide (NO). However, whether these so-called pleiotropic effects of statins result in improved patient outcomes remains to be established. To provide further insights into the mechanisms of action and impact on clinical outcomes of peri-operative statin treatment in patients undergoing cardiac surgery, I studied the molecular mechanisms underlying the myocardial nitroso-redox balance in samples of the right atrial appendages (RAA) obtained before (PRE) and after cardiopulmonary bypass (CPB) and reperfusion (POST) and setup two double-blind randomised placebo-controlled trials: 1) STARR (Statin Treatment on Atrial Refractoriness and Reperfusion injury), which tested the effect of Atorvastatin (80 mg once daily for up to 6 days before surgery and 5 days after) on the atrial effective refractory period (AERP, over 4 post-operative days) and superoxide production in paired PRE- and POST- RAA samples from 60 patients 2) STICS (Statin Treatment In Cardiac Surgery), which assessed the effects of peri-operative treatment with Rosuvastatin (20mg od) on POAF (assessed by continuous holter ECG monitoring for 5 days postoperatively) and myocardial injury (assessed by serial troponin I measurements) in 1922 patients undergoing elective cardiac surgery. I observed that atrial superoxide production increased significantly after reperfusion due to increased mitochondrial and NOX2 oxidase activity and to uncoupling of NOS activity. NOS activity in RAA samples decreased significantly after reperfusion (by 60%), but this reduction was not prevented by BH4 supplementation (10 μM) or NOX2 inhibition. Instead, I identified increased endothelial NOS S-glutathionylation as the main mechanism responsible for NOS uncoupling after reperfusion. In STARR, atorvastatin prevented increase in RAA superoxide production, maintained the functionally coupled status of NOS and NO bioavailability after reperfusion but had no measurable effect on postoperative AERP. In STICS, treatment with rosuvastatin significantly reduced LDL-C concentration by 48 hours after surgery but had no effect on the incidence of POAF (203 (21%) of the Rosuvastatinallocated patients vs. 197 (20%) of the placebo-allocated patients) or on perioperative myocardial damage (P = 0.80). Pre-defined subgroup analyses (age, sex, prior statin use, baseline troponin concentration, duration of randomized treatment before surgery, type of cardiac surgery, and postoperative use of anti-inflammatory drugs) did not identify any category of patient who benefited from perioperative rosuvastatin treatment. Nor were there beneficial effects on any of the other in-hospital clinical outcomes that were assessed. In conclusion, cardiac surgery on CPB is associated with myocardial nitroso redox imbalance that is reversed by perioperative intensive therapy with statins. However, these effects have no beneficial effects on common in-hospital complications after elective cardiac surgery. Although the benefits of long-term statin therapy in patients requiring myocardial revascularization are well established, the work presented in this thesis does not support routine use of perioperative intensive therapy with statins for the prevention of postoperative complications in patients undergoing elective cardiac surgery.

617.4

Role of Cyclooxygenase-2 in Ischemia-Reperfusion Injury in the Liver

Fuertes Agudo, Marina

14 September 2023

[ES] La lesión por isquemia-reperfusión (I/R) hepática (IRI) es una causa importante de mortalidad y morbilidad en la resección hepática y el trasplante de hígado. Durante la hipoxia, el hígado permanece sin oxígeno, cambiando su metabolismo y parando la síntesis de ATP. Paradójicamente, el restablecimiento del flujo de oxígeno causa más daño, activando el sistema inmunitario que generará una gran cantidad de especies reactivas de oxígeno (ROS) causando daño celular y tisular. La ciclooxigenasa-2 (COX-2) es una enzima clave en la biosíntesis de prostaglandinas y su importancia en la IRI es controvertida. La PGE2, prostaglandina E2, es el principal producto de la COX-2, y participa en la mediación de procesos patológicos como la inflamación, la fiebre y el dolor. El uso de AINEs, inhibidores específicos de la COX, apunta a un efecto beneficioso en la resolución del proceso inflamatorio, pero cada vez más estudios apoyan el papel antiinflamatorio de la COX-2. De hecho, estudios previos han demostrado que la sobreexpresión de COX-2 en hepatocitos protege a los ratones de la apoptosis y el estrés celular, además de reducir la respuesta inflamatoria en diferentes modelos de enfermedad hepática. En esta tesis doctoral, se utilizó un ratón transgénico que sobreexpresa COX-2 en los hepatocitos (h-COX-2 Tg) para dilucidar el papel y la implicación de la COX-2 en la IRI. Los animales de tipo silvestre (Wt) y h-COX-2 Tg fueron sometidos a 90 min de isquemia, seguidos de 4 o 24 h de reperfusión. Comparando los animales h-COX-2 Tg con sus hermanos Wt, el daño celular y tisular se atenúa tras la IRI. Entre las distintas vías modificadas, la cascada inflamatoria está menos activada, con menor liberación de citoquinas pro-inflamatorias, menor reclutamiento hepático, e infiltración de neutrófilos. Las vías de necrosis y apoptosis también se atenúan así como se reduce del estrés del retículo endoplásmico, y aumenta la autofagia. La respuesta antioxidante se potencia en el contexto de la sobreexpresión de COX-2 y la producción total de ROS es menor, lo que contribuye a un menor daño tisular. Cuando los animales Wt se someten un pre-condicionamiento (PC), la COX-2 endógena se induce a niveles más altos que sin PC, mostrando menos daño, una inflamación atenuada, y una respuesta antioxidante mejorada. Además, se muestra que el papel de la COX-2 en esta protección es específico, ya que su inhibición con DFU revierte los efectos observados e iguala el daño causado a los animales Wt. Las mitocondrias son actores centrales en la fisiopatología de la IRI. En este sentido, la función mitocondrial está preservada en los hígados que sobreexpresan COX-2, con un potencial de membrana mitocondrial conservado y una tasa respiratoria preservada. Estos efectos pueden explicarse por una estabilización de las crestas mitocondriales, invaginaciones de la membrana mitocondrial interna (IMM) que se mantienen mediante interacciones de varias isoformas de la proteína OPA1. Su procesamiento está mediado por proteasas, como OMA1. En ratones h-COX-2 Tg hay un menor procesamiento de OPA1, que se correlaciona con una actividad atenuada de OMA1. Por otro lado, se realizó un estudio retrospectivo en pacientes que habían sido sometidos a un trasplante hepático. Se analizaron los niveles de PGE2 y se correlacionaron con las funciones hepáticas tras el trasplante. Este análisis muestra que la presencia de PGE2 en el plasma de los pacientes receptores se correlaciona con un mejor pronóstico, mientras que unos niveles más bajos de PGE2 se asocian con una disfunción precoz del injerto. Todos estos resultados presentan a la COX-2 como un nuevo actor en la protección del hígado tras I/R, mostrando un papel antiinflamatorio y antioxidante, así como reduciendo el daño mitocondrial, el estrés celular y la muerte celular. Además, se demuestra cómo las prostaglandinas derivadas de la COX-2 en condiciones fisiológicas pueden desempeñar un papel protector en casos de trasplante hepático. / [CA] La lesió per isquèmia-reperfusió (I/R) hepàtica (IRI) és una causa important de mortalitat i morbiditat en la resecció hepàtica i el trasplantament de fetge. Durant la hipòxia, el fetge roman sense oxigen, canviant el seu metabolisme i aturant la síntesi d'ATP. Paradoxalment, el restabliment del flux d'oxigen causa més danys, activant el sistema immunitari que genera una gran quantitat d'espècies reactives d'oxigen (ROS) causant dany cel·lular i tissular. La ciclooxigenasa-2 (COX-2) és un enzim clau en la biosíntesi de prostaglandines i la seva importància a l'IRI és controvertida. La PGE2, prostaglandina E2, és el principal producte de la COX-2, i participa en la mediació de processos patològics com la inflamació i la febre. Mentre que l'ús d'AINEs, inhibidors específics de la COX-2, apunta a un efecte beneficiós en la resolució del procés inflamatori, cada cop més estudis donen suport a un paper antiinflamatori de la COX-2. De fet, estudis previs han demostrat que la sobreexpressió de COX-2 en hepatòcits protegeix els ratolins de l'apoptosi i l'estrès cel·lular, a més de reduir la resposta inflamatòria, en diferents models de malaltia hepàtica. En aquesta tesi, s'ha utilitzat un ratolí transgènic que sobreexpressa la COX-2 en els hepatòcits (h-COX-2 Tg) per dilucidar el paper i la implicació de la COX-2 a l'IRI. Els animals de tipus silvestre (Wt) i h-COX-2 Tg van ser sotmesos a 90 min d'isquèmia, seguits de 4 o 24 h de reperfusió. Comparant els animals h-COX-2 Tg amb els seus germans Wt, el dany cel·lular i tissular s'atenua després de l'IRI. Entre les diferents vies modificades, la cascada inflamatòria està menys activada, s'alliberen menys citocines proinflamatòries , hi ha un menor reclutament hepàtic i menor infiltració de neutròfils. Les vies de necrosi i apoptosi també s'atenuen, així com es redueix l'estrès del reticle endoplasmàtic, i l'autofàgia augmenta. La resposta antioxidant es potencia i la producció total de ROS també és menor, fet que contribueix a un menor dany tissular. Quan els animals Wt se sotmeten a un precondicionament (PC), la COX-2 endògena s'indueix a nivells més alts que sense PC, i aquests fetges mostren menys dany, una inflamació atenuada i una resposta antioxidant millorada. A més, es mostra que el paper de la COX-2 en aquesta protecció és específic, ja que la seva inhibició amb DFU, reverteix els efectes observats i iguala el dany causat als animals Wt. Els mitocondris són actors centrals en la fisiopatologia de l'IRI. En aquest sentit, la funció mitocondrial és preservada als fetges que sobreexpressen COX-2, com es pot demostrar per un potencial de membrana mitocondrial conservat i una taxa respiratòria preservada. Aquests efectes es poden explicar per una estabilització de les crestes mitocondrials, invaginacions de la membrana mitocondrial interna (IMM) que es mantenen mitjançant interaccions de diverses isoformes d'OPA1, una proteïna de la IMM. El seu processament està mediat per proteasas, com OMA1. En ratolins h-COX-2 Tg hi ha un menor processament d'OPA1, que es correlaciona amb una activitat atenuada d'OMA1, mostrant una estabilització de les crestes. D'altra banda, es va fer un estudi retrospectiu amb pacients que havien estat sotmesos a un trasplantament hepàtic. Es van analitzar els nivells de PGE2 i es van correlacionar amb les funcions hepàtiques després del trasplantament. Aquesta anàlisi mostra que la presència de PGE2 en el plasma dels pacients receptors es correlaciona amb un millor pronòstic, mentre que uns nivells més baixos de PGE2 s'associen amb una disfunció precoç de l'empelt. Tots aquests resultats presenten a la COX-2 com un nou actor en la protecció del fetge després d'I/R, mostrant un paper antiinflamatori i antioxidant, així com reduint la lesió mitocondrial, l'estrès cel·lular i la mort cel·lular. A més, es demostra com les prostaglandines derivades de la COX-2 en condicions fisiològiques poden exercir un paper protector en casos de trasplantament hepàtic. / [EN] Hepatic ischemia-reperfusion (I/R) injury (IRI) is a major cause of mortality and morbidity in liver resection and liver transplantation. During the hypoxia, the liver remains without oxygen supply, shifting its metabolism and stopping the ATP synthesis. Paradoxically, the restoration of oxygen flow causes the most damage with an activation of the immune system that will generate a burst of reactive species of oxygen (ROS) that will cause cell and tissue damage. Cyclooxygenase-2 (COX-2) is a key enzyme in prostaglandin biosynthesis and its importance in IRI is controversial. PGE2, prostaglandin E2, is the main product of COX-2, and is mainly involved in mediating pathological processes such as inflammation, fever and pain. While the use of NSAIDs, specific COX inhibitors, points to a beneficial effect in the resolution of the inflammatory process, several studies support the idea of an anti-inflammatory role of COX-2. In fact, previous studies have shown that COX-2 overexpression in hepatocytes protects mice from apoptosis and cellular stress, as well as reducing the inflammatory response, in different liver disease models. In this PhD thesis, a hepatocyte-specific COX-2 transgenic mouse (h-COX-2 Tg) was used to elucidate the role and involvement of COX-2 in IRI. Wild type (Wt) and h-COX-2 Tg animals were subjected to 90 min of ischemia, followed by 4 or 24 h of reperfusion. Comparing h-COX-2 Tg animals with their Wt littermates, cellular and tissue damage resulting from IRI is attenuated. Among these pathways, the inflammatory cascade is less activated, with less pro-inflammatory cytokine release, less hepatic recruitment and neutrophil infiltration. Necrosis and apoptosis pathways are also attenuated such as reduced endoplasmic reticulum stress, and increased autophagy. The antioxidant response appears to be enhanced in the context of COX-2 overexpression and total ROS production is also lower, contributing to less tissue damage. When Wt animals are subjected to preconditioning (PC), endogenous COX-2 is induced at higher levels than without PC, and these livers show less damage, attenuated inflammation, and an enhanced antioxidant response. Furthermore, the role of COX-2 in this observed protection has been shown to be specific, as its inhibition with DFU, reverses the observed effects, and matched the damage caused to Wt animals. Mitochondria are central players in the pathophysiology of IRI. In this regard, mitochondrial function is preserved in COX-2-overexpressing livers, as can be demonstrated by a conserved mitochondrial membrane potential and a preserved respiratory rate. These results can be explained by a stabilisation of mitochondrial cristae, invaginations of the inner mitochondrial membrane (IMM) that maintained through interactions of various isoforms of OPA1. Its processing is mediated by proteases, such as OMA1, which acts under certain stimuli. In h-COX-2 Tg mice, there is a reduced OPA1 processing that correlates with attenuated OMA1 activity, showing a stabilisation of cristae in the context of COX-2 overexpression after I/R. On the other hand, a retrospective study was conducted in patients who had undergone liver transplantation. In this part of the study, PGE2 levels were analysed and correlated with liver functions after transplantation. This analysis shows that the presence of PGE2 in the plasma of recipients correlates with a better prognosis, while lower PGE2 levels are associated with early graft dysfunction. All these results present COX-2 as a new player in liver protection after I/R, showing an anti-inflammatory and antioxidant role, as well as reducing mitochondrial damage, cell stress and cell death. Furthermore, it is shown how COX-2-derived prostaglandins under physiological conditions can play a protective role in cases of liver transplant. / This work has been carried out with the financial support of the Spanish Ministry of Science and Innovation (SAF2016-75004R and PID2019-108977RB-100), the CIBERehd (Centro de Investigaciones Biomédicas En Red de Enfermedades Hepáticas y Digestivas) and the COST Action (CA15203 - Mitochondrial mapping: Evolution - Age - Gender - Lifestyle - Environment (MITOEAGLE)). Marina Fuertes Agudo benefited from a pre-doctoral FPI contract (BES-2017- 081928) associated with the SAF2016-75004R project. She spent 3 months in the laboratory of Dr. Pau Sancho Bru at the Institut d’Investigacions Biomèdiques August Pi I Sunyer (IDIBAPS, Barcelona, Spain) funded by a short stay grant awarded by the CIBERehd and 3 months in the laboratory of Dr. Anne Dubart Kupperschmitt and Dr. Jean Charles Duclos Vallée at the Institut Nationale de la Santé et la Recherche Médicale (INSERM, Villejuif, France) funded by a short stay grant awarded by the European Molecular Biology Organisation (EMBO, SEG_9771). / Fuertes Agudo, M. (2023). Role of cyclooxygenase-2 in ischemia-reperfusion injury in the liver [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/196602

Liver

Ischaemia-reperfusion

Cyclooxygenase

Mitochondria

Antioxidant

Inflammation

Respiration

Metabolism

Prostaglandins

Hígado

Isquemia-reperfusión

Ciclooxigenasa

Mitocondria

Antioxidante

Inflamación

Respiración

Metabolismo

Prostaglandinas

The role of endothelial cell reactive antibodies in peripheral arterial disease

Lindsey, Nigel J., Armitage, J.D., Homer-Vanniasinkam, Shervanthi

January 2006

No / Objectives It is hypothesised that endothelial cell reactive antibodies (ECRA) play a role in the progression of PAD through activation of endothelial cells and the release of inflammatory cytokines. We aimed to test this hypothesis by assessing levels of ECRA, E-selectin and IL-6 in patients with PAD of varying severity in a case controlled study. Design, materials, methods Patients were assessed clinically and with ankle¿brachial pressure indices. Patients with critical ischaemia (CI, n=30), stable claudicants (SC, n=30), and age-matched controls (AMC, n=20) were studied. Antibody, E-selectin and IL-6 levels were measured using ELISA. Results ECRA levels were significantly raised in the CI group over AMC. IL-6 levels were significantly elevated in both SC and CI over the control group and in CI over SC. There were no significant differences in E-selectin levels between the AMC, SC and CI. Conclusion Our findings support the hypothesis that autoantibodies play a role in promoting PAD by elevating IL-6. The absence of an elevation in E-selectin in this study may be due to its short half-life, and casts doubt on its value as a marker of inflammation in atherosclerosis.

Ischaemia

Peripheral vascular disease

Endothelial cell reactive antibodies

Peripheral arterial disease

Anticardiolipin

Anti-ß2-glycoprotein I

Interleukin-6

The role of MKP-1 in autophagy, apoptosis and necrosis during ischaemia/reperfusion injury in the heart

Vermeulen, Michelle

12 1900

Thesis MSc (Physiological Sciences))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Ischaemic heart disease is a leading cause of death worldwide and is also largely contributing to deaths in Africa. Better treatment or even prevention of ischaemia/reperfusion injury in the heart, necessitates a better understanding of the molecular pathways and mechanisms of cell death. Three types of cell death can occur in the diseased myocardium. Type I, better known as apoptotic cell death, is characterised by cell shrinkage and chromatin condensation, type II, known as autophagic cell death, is characterised by intracellular accumulation of double membranes vacuoles and type III, necrotic cell death, is characterised by cellular swelling and loss of membrane integrity. Many signaling pathways are activated during ischaemia/reperfusion injury which include the mitogen activated protein kinases (MAPKs), such as extracellular signal-regulated protein kinase (ERK), c-Jun NH2-terminal protein kinase (JNK) and p38 MAPK. These kinases are dephosphorylated by appropriate phosphatases. MAPK phosphatase-1 (MKP-1), a dual specificity phosphatase, inactivates the MAPKs by dephosphorylating specific Thr/Tyr residues. Upregulation of MKP-1 during ischaemia/reperfusion injury has been shown to be cardioprotective, however no knowledge regarding a role of MKP-1 in autophagy exists. Therefore the aim of this study is to investigate the role of MKP-1 in autophagy, apoptosis and necrosis during simulated ischaemia/reperfusion injury in the heart.METHOD: H9C2 cells (rat cardiomyocytes) were cultured under standard conditions. Upon reaching 75-80% confluency, cells were treated for 30 min during normoxic conditions with dexamethasone, to induce MKP-1 expression, or sanguinarine, to inhibit MKP-1 induction. Thereafter, they were exposed to 3 hrs simulated ischaemia (induced by an ischaemic buffer and 5% CO2/1% O2) in the presence of the above mentioned treatments. Cells were then allowed to reperfuse for 30 min in the presence of dexamethasone or sanguinarine. Samples were analysed after simulated ischaemia and after reperfusion. Cell viability was measured by MTT assay. Propidium iodide and Hoechst staining were used to assess morphological markers of apoptosis and necrosis. LDH release during reperfusion was assessed as indicator of necrotic cell death. LysoTracker®Red was used to visualise the autophagic flux occurring during ischaemia/reperfusion in the cell. Flow cytometry was used to quantify cells stained with acridine orange as indicator for autophagy. Autophagic and apoptotic protein markers as well as MAPK and MKP-1 activity were analysed by Western Blotting. RESULTS: Our results indicate a clear relationship between MKP-1 induction, autophagy and cell survival during simulated ischaemia/reperfusion (SI/R). MKP-1 inhibition during SI/R resulted in decreased autophagy activity accompanied by significant apoptotic and necrotic cell death. Increased MKP-1 induction, on the other hand, during SI/R resulted in increased levels of autophagy activity and subsequent attenuation of apoptotic and necrotic cell death. p38 MAPK phosphorylation was significantly higher while MKP-1 was inhibited and significantly lower while MKP-1 was induced. This strongly indicates that upregulation of MKP-1, known to attenuate ischaemia/reperfusion injury, has an important role in cell survival during ischaemia/reperfusion injury in the heart, through its involvement in the regulation of autophagic activity as a stress response against apoptotic or necrotic cell death. / AFRIKAANSE OPSOMMING: Iskemiese hartsiekte is een van die grootste oorsake van sterftes wêreldwyd en dra ook beduidend by tot sterftes in Afrika. Om iskemiese hartsiektes te behandel of selfs te voorkom, is 'n goeie begrip van die molekulêre paaie wat betrokke is tydens iskemie/herperfusie, noodsaaklik. Drie tipes seldood kom tydens patologiese toestande in die hart voor. Tipe I, ook bekend as apoptotiese seldood, word gekenmerk deur selkrimping en kromatien kondensasie, tipe II, ook bekend as autofagiese seldood word gekenmerk deur intrasellulêre opeenhoping van dubbelmembraan vakuole en tipe III, bekend as nekrotiese seldood, word deur sellulêre swelling en verlies van membraan integriteit gekenmerk. Iskemie/herperfusie lei tot die aktivering van seintransduksiepaaie wat die MAPKs, soos p38, ERK en JNK insluit. Hierdie kinases word deur die gepaste fosfatases gedefosforileer. MKP-1, 'n dubbele spesifieke fosfatase, deaktiveer MAPKs deur hul Thr/Tyr eenhede te defosforileer. Alhoewel daar al voorheen getoon is dat verhoogte MKP-1 ‘n beskermende funksie in die hart tydens iskemie/herperfusie het, is daar nog geen bewyse vir ‘n rol van MKP-1 tydens autofagie nie. Die doel van hierdie studie is dus om die rol van MKP-1 in autofagie, apoptose en nekrose te ondersoek tydens gesimuleerde iskemie/herperfusie in die hart. METODE: H9C2 selle (rot ventrikulêre hartselle) is onder standaard toestande gekweek. Wanneer die selle 75-80% konfluensie bereik het, is dit behandel met dexamethasone of sanguinarine onder standaard toestande vir 30 min. Daarna is selle blootgestel aan 3 ure iskemie, in die teenwoordigheid van dexamethasone of sanguinarine. Selle is dan toegelaat om vir 30 min te herperfuseer, weer in die teenwoordigheid van dexamethasone of sanguinarine. Monsters is na iskemie en herperfusie geneem vir analise. Selvatbaarheid is gekwantifiseer deur ‘n MTT bepaling. Morfologiese merkers van seldood is bepaal met behulp van propidium iodide en Hoechst kleuringsmetodes. Laktaatdehidrogenase (LDH) vrystelling tydens herperfusie is as merker van nekrose gebruik. Autofagie is gevisualiseer deur gebruik te maak van LysoTracker®Red kleuring tydens iskemie en herperfusie. Akridienoranje is gebruik om suur kompartemente te kleur. Vloeisitometrie is as kwantifiseringstegniek vir autofagie gebruik. Western Blotting is gebruik om uitdrukking van merkerproteïene van autofagie en apoptose sowel as MAPK en MKP-1 aktiwiteit tydens iskemie/reperfisie te bepaal. RESULTATE: Ons resultate toon ‘n verband tussen MKP-1 induksie, autofagie en seloorlewing gedurende gesimuleerde iskemie/herperfusie (SI/R) aan. MKP- 1 inhibisie gedurende SI/R het tot ‘n afname in autofagie gelei tesame met ‘n beduidende toename in apoptotiese en nekrotiese seldood. Verhoogde MKP-1 induksie gedurende SI/R, daarteenoor, het autofagiese aktiwiteit verhoog, gepaardgaande met ‘n verlaging in apoptose en nekrose. p38 MAPK fosforilasie was beduidend hoër tydens MKP-1 inhibisie en laer met MKP-1 induksie. Hierdie resultate toon dat MKP-1 ‘n belangrike rol in seloorlewing speel tydens iskemie/herperfusiesskade in die hart, deur sy deelname in die regulering van autofagiese aktiwiteit as ‘n stres reaksie teen apoptotiese en nekrotiese seldood.

Ischaemia

Autophagy

Apoptosis

Necrosis

MKP-1

Reperfusion injury

Theses -- Physiology (Human and animal)

Dual specificity phosphatase 1

Map kinase phosphatase 1

Heart -- Diseases

The effect of creatine supplementation on myocardial metabolism and function in sedentary and exercised rats

Webster, Ingrid

12 1900

Thesis (PhD (Biomedical Sciences. Medical Physiology))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Background: There has been a dramatic increase in the use of dietary creatine supplementation among sports men and women, and by clinicians as a therapeutic agent in muscular and neurological diseases. The effects of creatine have been studied extensively in skeletal muscle, but knowledge of its myocardial effects is limited. Objectives: To investigate the effects of dietary creatine supplementation with and without exercise on 1) basal cardiac function, 2) susceptibility to ischaemia/reperfusion injury and 3) myocardial protein expression and phosphorylation and 4) mitochondrial oxidative function. Methods: Male Wistar rats were randomly divided into control or creatine supplemented groups. Half of each group was exercise trained by swimming for a period of 8 weeks, 5 days per week. At the end of the 8 weeks the open field test was performed and blood corticosterone levels were measured by RIA to determine whether the swim training protocol had any effects on stress levels of the rats. Afterwards hearts were excised and either freeze-clamped for biochemical and molecular analysis or perfused on the isolated heart perfusion system to assess function and tolerance to ischaemia and reperfusion. Five series of experiments were performed: (i) Mechanical function was documented before and after 20 minutes global ischaemia using the work heart model, (ii) A H2O filled balloon connected to a pressure transducer was inserted into the left ventricle to measure LVDP and ischaemic contracture in the Langendorff model, (iii) The left coronary artery was ligated for 35 minutes and infarct size determined after 30 minutes of reperfusion by conventional TTC staining methods. (iv) Mitochondrial oxidative capacity was quantified. (v) High pressure liquid chromatography (HPLC) and Western Blot analysis were performed on blood and heart tissue for determination of high energy phosphates and protein expression and phosphorylation. Results: Neither the behavioural studies nor the corticosterone levels showed any evidence of stress in the groups investigated. Hearts from creatine supplemented sedentary (33.5 ± 4.5%), creatine supplemented exercised rats (18.22 ± 6.2%) as well as control exercised rats (26.1 ± 5.9%) had poorer aortic output recoveries than the sedentary control group (55.9 ± 4.35% p < 0.01) and there was also greater ischaemic contracture in the creatine supplemented exercised group compared to the sedentary control group (10.4 ± 4.23 mmHg vs 31.63 ± 4.74 mmHg). There were no differences in either infarct size or in mitochondrial oxygen consumption between the groups. HPLC analysis revealed elevated phosphocreatine content (44.51 ±14.65 vs 8.19 ±4.93 nmol/gram wet weight, p < 0.05) as well as elevated ATP levels (781.1 ±58.82 vs 482.1 ±75.86 nmol/gram wet weight, p<0.05) in blood from creatine supplemented vs control sedentary rats. These high energy phosphate elevations were not evident in heart tissue and creatine tranporter expression was not altered by creatine supplementation. GLUT4 and phosphorylated AMPK and PKB/Akt were all significantly higher in the creatine supplemented exercised hearts compared to the control sedentary hearts. Conclusion: This study suggests that creatine supplementation has no effects on basal cardiac function but reduces myocardial tolerance to ischaemia in hearts from exercise trained animals by increasing the ischaemic contracture and decreasing reperfusion aortic output. Exercise training alone also significantly decreased aortic output recovery. However, the exact mechanisms for these adverse myocardial effects are unknown and need further investigation. / AFRIKAANSE OPSOMMING: Agtergrond: Die gebruik van kreatien as dieetaanvulling het in die afgelope aantal jaar dramaties toegeneem onder sportlui, sowel as mediese praktisyns wat dit as ‘n terapeutiese middel vir die behandeling van spier- en neurologiese siektes aanwend. Die effekte van kreatien op skeletspier is reeds deeglik ondersoek, maar inligting aangaande die miokardiale effekte van die preperaat is beperk. Doelwitte: Om die effekte van kreatien dieetaanvulling met of sonder oefening ten opsigte van die volgende aspekte te ondersoek: 1) basislyn miokardiale funksie, 2) vatbaarheid vir iskemie/herperfusie besering, 3) proteïenuitdrukking en -fosforilering in die miokardium en 4) mitochondriale oksidatiewe funksie. Metodes: Manlike Wistar rotte is ewekansig in kontrole of kreatien aanvullings groepe verdeel. Helfte van elke groep is aan oefening in die vorm van swemsessies, vir ‘n periode van 8 weke, 5 dae per week blootgestel. Gedrags- en biochemiese toetse is aangewend om die moontlike effek van die swemprotokol op die rotte se stres vlakke te bepaal. In hierdie verband is die oop area toets gebruik, asook bloed kortikosteroon vlakke gemeet deur radioaktiewe immuunessais. Harte is daarna uit die rotte gedissekteer en gevriesklamp vir biochemiese en molekulêre analise, of geperfuseer op die geïsoleerde werkhart perfusiesisteem om sodoende funksie en weerstand teen iskemie en herperfusie beskadeging te bepaal. Vyf eksperimentele reekse is uitgevoer: (i) Meganiese funksie is noteer voor en na 20 minute globale isgemie in die werkhart model; (ii) ‘n Water gevulde plastiek ballon, gekoppel aan ‘n druk omsetter, is in die linker ventrikel geplaas om sodoende linker ventrikulêre ontwikkelde druk (LVDP), asook iskemiese kontraktuur te meet; (iii) Linker koronêre arterie afbinding is vir ‘n periode van 35 minute toegepas en die infarktgrootte bepaal na 30 minute herperfusie deur gebruik te maak van standaard kleuringsmetodes; (iv) Mitochondriale oksidatiewe kapasiteit is gemeet; (v) Hoë druk vloeistof chromatografie (HPLC) en Western Blot analises is uitgevoer op bloed en hartweefsel vir die bepaling van hoë energie fosfate (HEFe), sowel as proteïenuitdrukking en -fosforilering. Resultate: Beide gedragsstudies en kortikosteroonvlakke het geen teken van stres in die betrokke groepe getoon nie. Die groep blootgestel aan kreatienaanvulling en oefening se harte het na iskemie funksioneel swakker herstel as harte van die onaktiewe kontrole groep (18.22±6.2% vs 55.9±4.35%; p<0.01), asook ‘n groter ikgemiese kontraktuur in vergelyking met die onaktiewe kontrole groep ontwikkel (31.63±4.74 mmHg vs 10.4±4.23 mmHg). Daar was geen verskille in infarktgrootte of mitochondriale suurstofverbruik tussen die verskillende groepe waargeneem nie. HPLC analise het verhoogde fosfokreatien (44.51±14.65 vs 8.19±4.93 nmol/gram nat gewig, p<0.05) en adenosientrifosfaat (ATP) bloedvlakke (781.1±58.82 vs 482.1±75.86 nmol/gram nat gewig, p<0.05) in kreatien aanvullings vergelyk met die kontrole groepe getoon. Daar was egter geen meetbare veranderings in HEF vlakke in hartweefsel nie. Gepaardgaande hiermee het kreatienaanvulling geen effek gehad op die uitdrukking va die kreatien transporter nie. In vergelyking met onaktiewe kontrole harte was GLUT4, en fosforileerde AMPK en PKB/ Akt beduidend hoër in harte van geoefende rotte met kreatienaangevulling. Gevolgtrekking: Hierdie data dui daarop dat kreatienaanvulling geen effek op basislyn miokardiale funksie het nie. Kreatienaanvulling het egter die miokardium se weerstand teen iskemiese skade verlaag in harte van rotte blootgestel aan oefening: iskemiese kontraktuur is verhoog en aorta-uitset tydens herperfusie is verlaag. Die presiese meganismes hierby betrokke is egter onbekend en vereis dus verdere studie. / Division of Medical Physiology (University of Stellenbosch), The National Research Foundation and the Harry Crossley Fund for financial support.

Creatine

Ischaemia

Theses -- Medical physiology

Dissertations -- Medical physiology

Dissertations -- Medicine

Rats -- Effect of dietary supplements on

Theses -- Medicine

Creatine

Heart -- Effect of exercise on

Medical Physiology