Circadian rhythms as novel chemotherapeutic strategies for breast cancer

Mitchell, Megan Irvette

12 1900

Thesis (MSc)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Introduction: Mammalian circadian rhythms form an integral physiological system allowing for the synchronisation of all metabolic processes to daily light/dark cycles, thereby optimising their efficacy. Circadian disruptions have been implicated in the onset and progression of different types of cancers, including those arising in the breast. Several links between the circadian protein Per2 and DNA damage responses exist. Aberrant Per2 expression results in potent downstream effects to both cell cycle and apoptotic targets, suggestive of a tumour suppressive role for Per2. Due to the severe dose limiting side effects associated with current chemotherapeutic strategies, including the use of doxorubicin, a need for more effective adjuvant therapies to increase cancer cell susceptibility has arisen. We therefore hypothesize, that the manipulation of the circadian Per2 protein in conjunction with doxorubicin may provide a more effective chemotherapeutic strategy for the treatment of breast cancer. The aims of this project were thus to: (i) Characterize the role of Per2 in normal breast epithelial cells as well as in ER+ and ER- breast cancer cells; (ii) to determine the role of Per2 in doxorubicin-induced cell death, (iii) to determine the role of Per2 in autophagy and finally (iv) to assess whether the pharmacological inhibition of Per2 with metformin, can sensitize chemo-resistant MDA-MB-231 breast cancer cells to doxorubicin-induced cell death. Methods: An in vitro model of breast cancer was employed using the normal MCF-12A breast epithelial, estrogen receptor positive (ER+) MCF-7 and estrogen receptor negative (ER-) MDA-MB-231 breast adenocarcinoma cell lines. Circadian rhythmicity of Per2 protein expression was determined using western blotting, and Per2 cellular localization was assessed using fluorescent confocal microscopy. Per2 was then silenced by means of an endoribonuclease-prepared siRNA, and silencing efficiency was determined with the use of western blotting. The roles of Per2 in doxorubicin-induced cell death and autophagy were assessed by treating MDA-MB-231 breast cancer cells under the following conditions (1) Control, (2) 2.5 μM doxorubicin or 10 nM bafilomycin A1 (3) 30 nM esiPer2 and (4) 30 nM esiPer2 in combination with 2.5 μM doxorubicin or 10 nM bafilomycin A1. Following treatments cell viability was assessed using the MTT assay, western blotting for markers of apoptosis including p-MDM2 (Ser166), p-p53 (Ser15), cleaved caspase-3 and –PARP as well as markers of autophagy (AMPKα, mTOR and LC3). Furthermore, cell cycle analysis, G2/M transition and cell death (Hoechst 33342 and propidium iodide staining) were assessed by means of flow cytometry. The pharmacological inhibition of Per2 was achieved by treating MDA-MB-231 cells with 40 mM metformin as well as in combination with 2.5 μM doxorubicin. MTT cell viability assays, cell cycle analysis (flow cytometry) and western blotting for apoptosis (Per2, p-AMPKα (Thr172), p53, caspase-3 and PARP) were assessed. Results and discussion: A circadian pattern of Per2 protein expression was observed in the normal MCF-12A and MDA-MB-231 cancer cells with protein levels peaking at ±700% and ±500% of baseline was observed. However, no rhythmic expression was observed in the MCF-7 cancer cells. Immunostaining for Per2 showed localization OF Per2 in the cytoplasm as well as in the nucleus of both the MCF-12A and MDA-MB-231 cells. Concentration curves showed a significant reduction in cell viability following 2.5 μM doxorubicin treatment for 24 hours. Per2 protein expression was significantly reduced with both esiPer2 and metformin treatment. Silencing of Per2 in combination with doxorubicin treatment resulted in cell cycle arrest with a significant increase in apoptosis, indicating that Per2 silencing effectively sensitized the MDA-MB-231 cancer cells to the anti-carcinogenic properties of doxorubicin. Modulation of Per2 protein expression was effectively achieved with the use metformin although this decrease occurred independently of AMPKα phosphorylation. A significant increase in apoptosis was observed following treatment with metformin in combination with doxorubicin treatment. However, no changes in cell cycle regulation were observed. Per2 appears to be involved in the regulation of autophagy as a significant increase in autophagy flux was observed when Per2 was silenced. Additionally, this increase in autophagic flux resulted in a significant increase in MDA-MB-231 cancer cell death which was enhanced further when autophagy was inhibited with bafilomycin A1 subsequent to Per2 silencing. Conclusions: Per2 protein expression was shown to display a 24 hour circadian rhythm in the MCF-12A cells, and to a lesser extent in the MDA-MB-231 cells. However, the MCF-7 cells failed to show rhythmic changes in Per2 protein expression. Per2 was shown to be located predominantly in the cytoplasm, with nuclear localization observed when cytoplasmic fluorescent intensity was lower. Per2 silencing effectively sensitized the chemo-resistant MDA-MB-231 breast cancer cells to both doxorubicin-induced cell death and autophagic inhibition. / AFRIKKANSE OPSOMMING: Inleiding: Sirkadiese ritmes vorm ‘n integrale fisiologiese sisteem wat die sinkronisasie van alle metaboliese prosesse asook lig/donker siklusse se effektiwiteit optimaliseer. Onderbreking van hierdie sirkadiese ritmes word geïmpliseer in die ontstaan en bevordering van verskillende kankertipes, insluitend borskanker. Verskeie raakpunte bestaan tussen die sirkadiese proteïen, Per2, en die DNA skade-respons. Abnormale Per2 uitdrukking veroorsaak afstroom effekte op beide die selsiklus en apoptotiese teikens wat moontlik aanduidend van ‘n tumor-onderdrukkende rol vir Per2 kan wees. Daar bestaan ‘n groot nood vir meer effektiewe adjuvante terapieë om kankersel vatbaarheid vir chemoterapie te verhoog as gevolg van dosis-beperkende newe-effekte wat geassosieer word met huidige chemoterapeutiese strategieë, insluitende dié van doxorubicin. Ons hipotese is dus dat die manipulering van die sirkadiese Per2 proteïen tesame met doxorubicin ‘n meer effektiewe chemoterapeutiese strategie vir die behandeling van borskanker sal wees. Die doelwitte van hierdie projek was dus om: (i) Die rol van Per2 in normale borsepiteelselle sowel as in ER+ en ER- borsepiteel kankerselle te karakteriseer; (ii) die rol van Per2 in doxorubicin-geïnduseerde seldood te bepaal; (iii) te bepaal of Per2 ‘n rol in autofagie speel en laastens (iv) te bepaal of die farmakologiese inhibisie van Per2 met metformin chemo-weerstandbiedende MDA-MB-231 kankerselle kan sensitiseer vir doxorubicin-geïnduseerde seldood. Metodes: ‘n In vitro model vir borskanker is gebruik wat normale MCF-12A borsepiteelselle, estrogeen reseptor positiewe (ER+) MCF-7 en estrogeen reseptor negatiewe (ER-) MDA-MB-231 bors adenokarsenoomselle insluit. Sirkadiese ritmisiteit van Per2 proteïen uitdrukking is deur middel van die westelike kladtegniek bepaal en die sellulêre ligging van Per2 deur middel van fluoresensie mikroskopie. siPer2 is voorberei deur middel van endoribonuklease-siRNA en die effektiwiteit daarvan is deur middel van westelike kladtegniek getoon. Die rol van Per2 in doxorubicin-geinduseerde seldood en autofagie is bepaal deur MDA-MB-231 borskankerselle onder die volgende omstandighede te toets: (1) Kontrole, (2) 2.5 μM doxorubicin of 10 nM bafilomycin A1 (3) 30 nM esiPer2 en (4) 30 nM esiPer2 in kombinasie met 2.5 μM doxorubicin of 10 nM bafilomycin A1. Na die behandeling, is sellewensvatbaarheid bepaal deur gebruik te maak van ‘n MTT toets; westelike kladtegniek is gebruik om vir merkers van apoptose soos p-MDM2 (Ser166), p-p53 (Ser15), gekliefde caspase-3 en -PARP asook vir merkers van autofagie (AMPKα, mTOR en LC3) te toets. Die selsiklus, G2/M oorgang en seldood (Hoechst 33342 en propidium iodide kleuring) is deur middel van vloeisitometrie bepaal. Per2 is ook farmakologies geïnhibeer deur MDA-MB-231 selle met 40 mM metformin asook in kombinasie met 2.5 μM doxorubicin te behandel. Daarna is sellewensvatbaarheid (MTT) sowel as die selsiklus (vloeisitometrie) en apoptose (westelike kladtegniek vir Per2, p-AMPKα (Thr172), p53, caspase-3 and PARP) gemeet. Resultate en bespreking: ‘n Sirkadiese patroon vir Per2 proteïen uitdrukking is in die normale MCF-12A selle asook in die MDA-MB-231 kankerselle waargeneem met proteïenvlakke wat hul piek by ±700% and ±500% onderskeidelik in vergelyking met basislyn bereik het. Geen ritmiese patroon van Per2 proteïen uitdrukking is egter in die MCF-7 kankerselle waargeneem nie. Immunokleuring om Per2 ligging te bepaal het getoon dat Per2 in the sitoplasma sowel as in die nukleus in beide MCF-12A en MDA-MB-231 selle voorgekom het. Konsentrasie kurwes het aangetoon dat daar ‘n insiggewende vermindering in sellewensvatbaarheid voorgekom het na die behandeling van die selle met 2.5 μM doxorubicin vir 24 uur. Per2 proteïen uitdrukking is insiggewend verlaag met beide esiPer2 en metformin behandeling van die selle. esiPer2 aleen of in kombinasie met doxorubicin behandeling het selsiklus staking tot gevolg gehad asook ‘n beduidende toename in apoptose veroorsaak wat dus aangedui het dat esiPer2 effektief was om MDA-MB-231 kankerselle te sensitiseer vir die anti-karsinogeniese doxorubicin behandeling. Modulering van Per2 proteïen uitdrukking was effektief met metformin behandeling, alhoewel die afname onafhanklik van AMPKα fosforilasie plaasgevind het. ‘n Insiggewende toename in apoptose is waargeneem na metformin behandeling in kombinasie met doxorubicin. Geen veranderinge in die selsiklus is egter onder hierdie omstandighede waargeneem nie. Per2 blyk betrokke te wees in die regulering van autofagie aangesien ‘n insiggewende verhoging in autofagie omsetting waargeneem is na esiPer2 behandeling. Die toename in autofagie omsetting is geassosieer met ‘n insiggewende toename in seldood in MDA-MB-231 kankerselle wat verder verhoog is wanneer autofagie met bafilomycin A1 (autofagie inhibitor) in kombinasie met esiPer2 behandel is. Gevolgtrekkings: Per2 proteïen uitdrukking het ‘n 24 uur sirkadiese ritme in die MCF-12A normale selle, en tot ‘n mindere mate in die MDA-MB-231 selle getoon. Die MCF-7 selle het egter geen ritmiese patroon van Per2 proteïen uitdrukking getoon nie. Per2 kom hoofsaaklik in die sitoplasma voor en het slegs in die nukleus voorgekom wanneer die sitoplasmiese fluoresensie intensiteit laer was. esiPer2 was dus effektief om die chemo-weerstandbiedende MDA-MB-231 borskankerselle te sensitiseer vir doxorubicin-geïnduseerde seldood. / National Research Foundation

Circadian rhythms

Breast cancer -- Treatment

UCTD

Theses -- Physiology (Human and animal)

Differential effects of TNfα on satellite cell differentiation

Fouche, Celeste

03 1900

Thesis (MSc)--University of Stellenbosch, 2007. / ENGLISH ABSTRACT: Tumour necrosis factor alpha (TNFα) is a pleiotropic cytokine and has a wide variety of dose dependent cellular effects ranging from cell growth and differentiation, to inducing apoptosis. It has long been implicated in muscle and non-muscle inflammatory disorders, such as muscle wasting in chronic disease states, and rheumatoid arthritis. However, a physiological role for TNFα in muscle regeneration has been proposed as elevated levels of the cytokine are present when muscle regeneration processes are initiated: TNFα is secreted by infiltrating inflammatory cells, and by injured muscle fibres. Adult skeletal muscle contains a population of resident stem cell-like cells called satellite cells, which become activated, proliferate and differentiate following muscle injury to bring about repair of damaged muscle. Much research on the effects of TNFα on satellite cell differentiation has been conducted in recent years. It is however difficult to get a complete characterisation of the cytokine’s action as all models used slightly differ. We aimed therefore at providing comprehensive assessment of the effects of increasing doses of chronically supplemented TNFα on differentiating C2C12 cells. Cells were allowed to differentiate with or without TNFα supplementation for 7 days. Differentiation was induced at day 0. The effect on differentiation was assessed at days 1, 3, 5, and 7 by western blot analysis, and supplementary immunohistochemical analysis at days 1, 4, and 7 of markers of differentiation - muscle regulatory factors: MyoD and myogenin, markers of the cell cycle p21, PCNA, and the integral signalling molecule, p38MAPK. TNFα supplementation at day 1 tended to positively regulate early markers of differentiation. With continued supplementation however, markers of differentiation decreased dose dependently in treated cultures as the initial effect appeared to be reversed: A trend towards a dose dependent decrease in MyoD, myogenin and p21 protein existed in treated cultures at days 3, 5, and 7. These findings were significant at day 5 (p21, p<0.05), and day 7 (myogenin, p<0.05). A significant dose dependent decrease in p38 phosphorylation was evident at day 3 (p<0.05), while phospho-p38 was dose dependently increased at day 7 (p<0.05). Taken together, these data show that TNFα supplementation for 24 hours following the induction of differentiation in vitro, tends to increase levels of early markers of differentiation, and with continued TNFα supplementation decrease markers of differentiation in a dose dependent fashion. This study provides a comprehensive characterisation of the dose and time dependent effects of TNFα on satellite cell differentiaton in vitro. The model system used in the current study, allows us to make conclusions on more chronic disease states. / AFRIKAANSE OPSOMMING: Tumor nekrose faktor alfa (TNFα) is ‘n pleiotropiese sitokien wat ‘n wye verskeidenheid, dosis afhanklike, sellulêre effekte te weeg bring. Hierdie sellulêre effekte sluit sel groei en differensiasie tot sel dood in. TNFα is by beide spier en niespier inflammatoriese stoornisse soos spier tering in kroniese siektetoestande, en rumatiese artritis betrek. ‘n Fisiologiese rol vir TNFα is egter voorgestel aangesien verhoogde vlakke van die sitokien tydens inisiasie van spier herstel meganismes teenwoordig is: TNFα word deur infiltrerende inflammatoriese selle, asook deur beseerde spier vesels afgeskei. Volwasse skeletspier bevat ‘n populasie stamselagtige selle, sogenoemde satelliet selle. Laasgenoemde word geaktiveer, prolifereer en differensieër volgende spierbesering, om sodoende herstel van beskadigde spier te weeg te bring. Baie navorsing op die effekte van TNFα op satelliet sel differensiasie is onlangs uitgevoer. Dit is egter aansienlik moeilik om volgens hierdie navorsing‘n algehele beeld van TNFα se aksies te vorm aangesien alle modelle wat gebruik word verskil. Ons doel was daarom om ‘n omvangryke assessering van toenemende konsentrasies kronies gesupplementeerde TNFα op differensieërende C2C12 selle op ‘n enkele model uit te voer. Selle was vir 7 dae met of sonder TNFα supplementasie gedifferentieër. Differensiasie was by Dag 0 geïnduseer. TNFα se effek op differensiasie is op dae 1, 3, 5, en 7 deur middel van western blot analise geassesseer. Aanvullende immunohistochemiese bepalings op dae 1, 4, en 7 is verder deurgevoer. Merkers vir differensiasie het die spier regulatoriese faktore MyoD en miogenien, sel siklus merkers p21 en PCNA, asook die integrale sein transduksie molekule p38MAPK ingesluit. TNFα supplementasie by dag 1 het geneig om vroeë merkers van differensiasie positief te reguleer. Met voortdurende supplementasie is die vroeë positiewe effekte (op ‘n dosis afhanklike manier) egter omgekeer: ‘n neiging teenoor (‘n dosis afhanklike) vermindering in MyoD, miogenien en p21 proteïen het in behandelde kulture op dae 3, 5, en 7 bestaan. Hierdie bevindinge was beduidend by dag 5 (p21, p<0.05), en dag 7 (miogenien, p<0.05). A beduidende dosis afhanklike afname in p38 fosforilasie was duidelik by dag 3 (p<0.05), terwyl fosfo-p38 by dag 7 verhoog het met verhoogde konsentrasie TNFα (p<0.05). Bogenoemde saamgevat, dui aan dat TNFα supplementasie 24h volgende die induksie van differensiasie in vitro, verhoogde vlakke van vroeë differnsiasie merkers te weeg bring. Met voortdurende TNFα supplementasie, word differensiasie merkers egter met toenemende dosis verminder. Hierdie studie voorsien ‘n omvattende karakterisering van die dosis- en tyd afhanklike effekte van TNFα op satelliet sel differesiasie in vitro. Die model sisteem in hierdie studie gebruik, maak afleidings oor meer kroniese siektetoestande moontlik.

Tumor necrosis factor

Cell differentiation

Satellite cells

Theses -- Physiology (Human and animal)

Differential tolerance of a cancer and a non-cancer cell line to amino acid deprivation : mechanistic insight and clinical potential

Thomas, Mark Peter

03 1900

Thesis (PhD)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Introduction – Due to spatial separation from the native vascular bed, solid tumours develop regions with limited access to nutrients essential for growth and survival. The promotion of a process known as macroautophagy may facilitate in the maintenance of intracellular amino acid levels, through breakdown of cytoplasmic proteins, so that they remain available for macromolecular biosynthesis and ATP production. Several studies point to the potential ability of some cancers to temporarily increase autophagy and thereby prolong cell survival during metabolic stress. The validity of these claims is assessed when a commonly used breast cancer cell line and an epithelial breast cell line are starved of amino acids in this study. Furthermore, we go on to hypothesize that acute amino acid deprivation during treatment will result in an elevated sensitivity of MDAMB231 cells to doxorubicin toxicity but limit its cytotoxic side-effects in MCF12A cells. Methods and study design- Human breast cancer cells (MDAMB231) and breast epithelial cells (MCF12A) cultured in complete growth medium were compared to those incubated in medium containing no amino acids. Steady state autophagy levels were monitored using classical protein markers of autophagy (LC3-II and beclin-1) and the acidic compartmentalization in cells (Lysotracker™ red dye) in conjunction with autophagy inhibition (bafilomycin A1 and ATG5 siRNA). Cell viability was monitored using several techniques, including caspase 3/7 activity. ATP levels were assessed using a bioluminescent assay, while mass spectrometry based proteomics was used to quantify cellular amino acid levels. Similar techniques were used to monitor autophagy during doxorubicin treatment, while cellular doxorubicin localization was monitored using immunofluorescence microscopy. Finally, a completely novel GFP-LC3 mouse tumour model was designed to assess autophagy and caspase activity within tumours in vivo, during protein limitation and doxorubicin treatment. Results - Amino acid deprivation resulted in a transient increase in autophagy at approximately 6 hours of amino acid starvation in MDAMB231 cells. The amino acid content was preserved within these cells in an autophagy-dependent manner, a phenomenon that correlated with the maintenance of ATP levels. Inhibition of autophagy during these conditions resulted in decreased amino acid and ATP levels and increased signs of cell death. MCF12A cells displayed a greater tolerance to amino acid starvation during 24 hours of amino acid starvation. Evidence indicated that autophagy was important for the maintenance of amino acid and ATP levels in these cells and helped prevent starvation-induced cell death. Furthermore, data showed that concomitant amino acid withdrawal resulted in decreased cellular acidity in MDAMB231 cells, and increased acidity in MCF12A cells, during doxorubicin treatment. These changes correlated with evidence of increased cell death in MDAMB231 cells, but a relative protection in MCF12A cells. A novel model was used to apply these techniques in vivo, and although mice fed on a low protein diet during high dose doxorubicin treatment had increased mean survival and smaller tumour sizes, evidence suggested that autophagy is protecting a population of cells within these tumours. Conclusions - This novel approach to tumour sensitization could have several implications in the context of cancer therapy, and given the delicate relationship that autophagy has with the cancer microenvironment, efforts to determine the mechanisms involved in autophagy and sensitization could lead to new and innovative treatment opportunities for cancer management. / AFRIKAANSE OPSOMMING: Inleiding – As gevolg van hul skeiding van die oorpronklike vaskulêre netwerk, ontwikkel soliede gewasse areas met beperkte toegang tot noodsaaklike voedingstowwe. Die bevordering van 'n proses wat as makro-autofagie bekend staan, kan die handhawing van intrasellulêre aminosuur vlakke fasiliteer. Voorafgenoemde proses word waarskynlik deur die afbreek van sitoplasmiese proteïene teweegebring om sodoende vir makro-molekulêre biosintese en ATP produksie beskikbaar te kan wees. Verskeie studies dui daarop dat sommige kankersoorte die vermoë het om autofagie tydelik te verhoog, en daarby sel oorlewing gedurende metaboliese stress te verleng. Die geldigheid van hierdie eise word evalueer wanneer 'n algemeen beskikbare borskanker sellyn, en 'n borsepiteelsellyn in hierdie studie van aminosure verhonger word. Verder, veronderstel ons dat akute aminosuur ontneming gedurende behandeling 'n verhoogde sensitiwiteit van MDAMB231 selle tot doxorubicin toksisiteit tot gevolg sal hê, maar terselfdetyd die middel se sitotoksiese newe-effekte in MCF12A selle sal beperk. Metodes en studie ontwerp – Menslike borskanker- (MDAMB231) en bors epiteel selle (MCF12A) wat in volledige groeimedium gekweek is, is vergelyk met selle wat in aminosuur vrye medium gekweek is. Basislyn autofagie-vlakke is gemonitor deur die gebruik van klassieke autofagie proteïen merkers (LC3-II en beclin-1) en die asidiese kompartementalisering in selle (Lysotracker™ rooi kleurstof) saam met autofagie inhibisie (bafilomycin A1 and ATG5 siRNA). Sellewensvatbaarheid is deur die gebruik van verskeie tegnieke, insluitend caspase 3/7 aktiwiteit, gemonitor. ATP-vlakke is deur die gebruik van 'n bioluminiserende tegniek gemeet, terwyl massa-spektrometrie-gebaseerde “proteomics” gebruik is om sel aminosuur vlakke te kwantifiseer. Soortgelyke tegnieke is gebruik om autofagie gedurende doxorubicin behandeling waar te neem, terwyl sellulêre doxorubicin lokalisasie deur die gebruik van immunofluoresensie mikroskopie gemonitor is. Ten slotte, is 'n unieke GFP-LC3 muismodel in hierdie studie ontwikkel. Hierdie model is gebruik om autofagie en caspase aktiwiteit in gewasse in vivo te bestudeer tydens proteïen beperking en doxorubicin behandeling. Resultate – Aminosuur ontneming het tot 'n tydelike verhoging in autofagie na ongeveer 6 ure van aminosuur verhongering in MDAMB231 selle gelei. Die aminosuur inhoud van hierdie selle het op 'n autofagie-afhanklike manier behoue gebly. Hierdie verskynsel het met die handhawing van ATP-vlakke gekorreleer. Autofagie inhibisie gedurende hierdie kondisies het 'n verlaging in aminosuur en ATP-vlakke teweeggebring, sowel as vermeerderde tekens van seldood tot gevolg gehad. MCF12A selle het 'n groter toleransie tot aminosuur verhongering tydens die 24 uur aminosuur verhongeringsperiode getoon. Getuienis het aangedui dat autofagie belangrik vir die handhawing van aminosuur en ATP-vlakke in hierdie selle was, en gehelp het om verhongerings-geïnduseerde seldood te voorkom. Verder het data gewys dat aminosuur ontrekking tot verminderde sellulêre asiditeit in MDAMB231 selle, en verhoogde asiditeit in MCF12A selle gedurende doxorubicin behandeling gelei het. Hierdie veranderinge stem ooreen met getuienis van toenemende seldood in MDAMB231 selle, maar 'n relatiewe beskerming in MCF12A selle. 'n Unieke model was gebruik om hierdie tegnieke in vivo toe te pas. Alhoewel verhoogde oorlewing en kleiner gewasse in muise op 'n lae proteïen dieet gedurende hoë dosis doxorubicin behandeling opgemerk is, het bewyse voorgestel dat autofagie 'n populasie selle binne die gewasse beskerm. Gevolgtrekkings – Hierdie unieke benadering tot tumor sensitisering kan verskeie implikasies in die konteks van kanker behandeling hê. Gegewe die delikate verhouding van autofagie met die kanker mikro-omgewing, kan pogings om die meganismes betrokke in autofagie en sensitisering te bepaal, tot nuwe en innoverende behandelings vir kanker lei.

Cancer -- Treatment

Cell culture

Lymphoma

Tumour cells

Theses -- Physiology (Human and animal)

Amino acid starvation

Autophagy

Signalling mechanisms involved in TNF-α mediated cytoprotection during ischaemic injury in a C2C12 muscle cell line

Loos, Benjamin

January 1900

Thesis (MSc)--University of Stellenbosch, 2006. / ENGLISH ABSTRACT: Both, the cytokine Tumor Necrosis Factor-α (TNF-α) and the enzyme cytosolic phospholipase A2 (cPLA2) are crucial driving forces in mediating the cellular inflammatory response and are involved in ischaemic injury. During an ischaemic insult, TNF-α is endogenously generated. Apart from the recognized effects of TNF- α, such as the induction of apoptosis, proliferation and differentiation, if present in low dosages, it also mediates cytoprotective effects. Upon activation, cPLA2 contributes to the ischaemic challenge with the generation of mediators of cellular injury and apoptosis. Upon stimulation, this calcium dependent enzyme translocates to the phospholipid compartment of the cell membrane and induces the hydrolysis of sn-2 ester bonds in phospholipids. It governs the release of free fatty acids and lysophospholipids and generates role players of inflammation. We suggest a role for cPLA2 in the TNF-α mediated cytoprotection, with a distinct phosphorylation and translocation pattern. Aims The involvement of cPLA2 in TNF-α mediated cytoprotection in the C2C12 murine skeletal muscle cell line in tolerance to ischaemia was examined. To investigate the nature of the cPLA2 phosphorylation pattern, the mitogen activated protein kinases (MAPKs) p38 and extracellular regulated kinase (ERK) as contributors to cPLA2 phosphorylation and activation, were examined at appropriate time points. To dissect out the cPLA2 interplay and dependencies with these MAPKs within the pathway context, the selective cPLA2 inhibitor arachidonyl trifluoromethyl ketone (AACOCF3) was employed and its effect on cell viability was examined. Fluorescence microscopy was used to substantiate cPLA2 activation, by assessing its cellular distribution, translocation and cell organelle target preference, using co-localization and z-stack techniques. In addition, the induction of the apoptotic pathway through analysis of caspase-3 and poly (ADP-ribose) polymerase (PARP) cleavage was examined. The role of caspase-3 in cPLA2 turnover was addressed employing the caspase inhibitor, Z-DEVD-FMK. Methods Cells were grown in Dulbecco’s Modified Eagles Medium (DMEM) with 10% fetal bovine serum (FBS), and incubated under 5% CO2 conditions, until 50%-70% confluent. Using DMEM supplemented with 1% horse serum, cell differentiation into myotubes was induced. Differentiated cells were preconditioned for 30 min classically, with 0.5 ng/ml TNF-α or the cPLA2 selective inhibitor AACOCF3 (10 μM) respectively. Followed by a 60 min washout period the cells were subjected to 8 hrs simulated ischaemia. Cellular viability; and cPLA2 phosphorylation- and translocation events were assessed using Western blots and advanced immunocytochemistry and imaging techniques. Results Preconditioning with TNF-α, ischaemic preconditioning; and the use of the cPLA2 inhibitor AACOCF3, attenuated the decrease is cell viability brough about by ischaemia. Western blot analysis indicates the induction of the apoptotic pathway with caspase-3 and PARP cleavage. A significantly reduced translocation of pcPLA2 to the nuclear region in the TNF-α preconditioned group compared to the ischaemic group, as reflected by reduced mean nuclear fluorescence intensity, was observed. A z-stack analysis confirmed that the nuclear and endonuclear region was the target organelle for cPLA2. 3-dimensional co-localazation analysis of pcPLA2 with the nuclear marker nucleoporin p62 mirrored these results. Discussion and conclusion Our results provide evidence that there is a role for cPLA2 in TNF-α mediated cytoprotection. Although we do not observe a differential activation pattern in terms of cPLA2 phosphorylation at various time points within the ischaemic event, and no differential inactivation of cPLA2 via caspase-mediated cPLA2 cleavage, we describe a differential cPLA2 translocation pattern, similar to that in IPC. Through inhibition of cPLA2 translocation, a functional cPLA2 inhibition might be achieved. This would imply inhibition of the inflammatory pathway and a subsequent reduction in the generation of inflammatory mediators. In addition we describe an effect of TNF-α preconditioning on the efficacy of the caspase inhibitor Z-DEVD-FMK. Our results shed light on the survival mechanisms employed by the ischaemically challenged cell in a setting of TNF-α mediated cytoprotection. This might lead to novel approaches in the context of inflammation treatment, through agents that control differential cPLA2 trafficking within the cell. / AFRIKAANSE OPSOMMING: Beide, die sitokien “Tumor Necrosis Factor-α (TNF-α)” en die ensiem, sitosoliese fosfolipase A2 (cPLA2) is uiters belangrike bemiddelaars van die sellulêre inflammatoriese respons en is verder ook betrokke by isgemiese selskade. TNF-α word endogeen gegenereer tydens ‘n isgemiese intervensie. Afgesien van ‘n verskeidenheid effekte, soos die inisiëring van apoptose, sel-proliferasie en - differensiasie, bemiddel dit ook selbeskermende meganismes indien dit in lae konsentrasies in die sel teenwoordig is. Na aktivering dra cPLA2 by tot die isgemiese intervensie deur die vorming van bemiddelaars van selskade en apoptose. Hierdie kalsium-afhanklike ensiem translokeer na die fosfolipied membraankomponent na stimulering en induseer die hidrolise van die sn-2 esterbinding in die fosfolipied. Die vrystelling van vry vetsure en lisofosfolipiede word sodoende bewerkstellig wat verder gemetaboliseer kan word tot inflammatoriese bemiddelaars. Ons stel voor dat cPLA2 ‘n rol in TNF-α bemiddelde selbeskerming speel en dat dit gepaardgaan met kenmerkende fosforilerings- en translokeringspatrone. Doelwitte Die rol van cPLA2 tydens TNF-α bemiddelde selbeskerming is in ‘n C2C12 skeletspiersellyn na blootstelling aan isgemie ondersoek. Die rol van die MAPKs, p38 en ERK, is ondersoek om vas te stel of hulle betrokke is by die aktivering van cPLA2. Die selektiewe cPLA2 inhibitor, AACOCF3, is gebruik om te bepaal of die fosforilering van MAPKs ook cPLA2-afhanklik is. Die sellulêre cPLA2 verspreiding, translokering en teiken selorganelle is ook ondersoek met behulp van fluoresensie mikroskopie deur gebruik te maak van ko-lokalisering en z-plaat tegnieke. Verder, is die indusering van die apoptotiese paaie ondersoek deur tegnieke wat kaspase- en PARP kliewing meet. Die kaspase inhibitor, Z-DEVD-FMK, is gebruik om vas te stel of kaspase-3 ‘n rol speel in cPLA2 kliewing in ons selmodel. Metodes Selle is gekweek in Dulbecco’s gemodifiseerde Eagles Medium (DMEM) waarby 10% fetale kalf serum (FBS) gevoeg is, en wat geïnkubeer is in 5% CO2 totdat dit 50%-70% konfluent was. Die selle is verder gedifferensieer in miobuise deur gebruik te maak van DMEM waarby 1% perdeserum gevoeg is. Gedifferensieerde selle is vir 30 min klassiek geprekondisioneer asook respektiewelik met 0.5 ng/ml TNF-α en die cPLA2 selektiewe inhibitor, AACOCF3 (10 μM). Na ‘n 60 minute uitwas periode is die selle blootgestel aan 8 h gesimuleerde isgemie. Sellulêre lewensvatbaarheid, cPLA2 fosforilering- and translokering is ondersoek deur onderskeidelik gebruik te maak van die “Western” klad metode en gesofistikeerde immunositochemiese beeld tegnieke. Resultate Prekondisionering met TNF-α, isgemiese prekondisionering asook inhibisie van as cPLA2 met die inhibitor, AACOCF3, het ‘n beduidende toename in sellewensvatbaarheid tot gevolg gehad. Daar is ook dmv die “Western” klad tegniek bewys dat apoptose geïduseer word deur middel van kaspase-3- en PARP kliewing. Daar is insiggewend minder translokasie van cPLA2 na die nukluêre fraksie in die isgemiese groep in vergelyking met die TNF-α geprekondisioneerde groep waargeneem (die gemiddelde nukluêre fluoreserende intensiteit is bepaal om voorafgaande feit te staaf). Die cPLA2 teiken organel is geverifieer as die nukleus en die endonukluêre gebied deur middel van z-plaat analises. Drie-dimensionele kolokaliserings analises van pcPLA2 met die nukluêre merker, nucleoporin p62 het hierdie resultate bevestig. Bespreking en Gevolgtrekking Ons resultate verskaf bewyse vir ‘n rol vir cPLA2 in TNF-α bemiddelde selbeskerming. Alhoewel daar nie ‘n differensiële aktiveringspatroon in terme van cPLA2 fosforilering tydens verskeie tydspunte in die isgemiese intervensie waargeneem is nie, en ook geen kaspase-3 bemiddelde kliewing van cPLA2 nie, word ‘n differensiële translokeringspatroon soorgelyk aan die isgemiese prekondisioneringsgroep, waargeneem. Funsksionele cPLA2 inhibisie kan dus moontlik bewerkstellig word deur inhibisie van cPLA2 translokasie. Die inflammatoriese respons kan dus moontlik so inhibieer word en die vorming van minder inflammatoriese bemiddelaars tot gevolg hê. Verder het TNF-α prekondisionering ook ‘n effek op die effektiwiteit van die kaspase-inhibitor, ZDEVD- FMK. Ons resultate werp ook lig op die meganismes wat deur selle onder isgemiese toestande uitgeoefen word tydens TNF-α bemiddelde selbeskerming. Hierdie resultate mag lei tot nuwe benaderings in die konteks van behandeling teen inflammasie deur gebruik te maak van middels wat cPLA2 translokering in die sel beheer.

Ischemia

Tumor necrosis factor

Inflammation -- Mediators

Reperfusion injury

Phospholipase A2

Theses -- Physiology (Human and animal)

Repetitive stressors at various lifetime periods differentially affect the HPA axis, neuronal neurotrophic factors and behavioural responses

Faure, Jacqueline J

03 1900

Thesis (MSc (Physiological Sciences))--University of Stellenbosch, 2006. / Early adverse life events appear to increase the susceptibility of developing psychiatric disorders later in life. The molecular mechanisms involved in the development of pathological behaviour remain unclear. Dysregulation of the hypothalamic-pituitary-adrenal axis and alterations in neurotrophic factors have been implicated.

Theses -- Physiology (Human and animal)

Stress (Psychology) -- Testing

Neurochemistry

Human behavior -- Endocrine aspects

Hypothalamic-pituitary-adrenal axis

Association between antioxidant status and MnSOD Ala-9Val polymorphism in trained male athletes (rugby players) and sedentary male students controlled for antioxidant intake

Seele, Maria

03 1900

Thesis (MSc)--University of Stellenbosch, 2007. / ENGLISH ABSTRACT: The human body has developed an integrated antioxidant defence system to protect against free radical damage. Acute exercise may result in the increased generation of free radicals, including reactive oxygen species, and this may overwhelm antioxidant defence systems resulting in oxidative stress. However, it has been shown that individuals who undergo regular exercise training may have improved antioxidant capacity when compared to sedentary controls. Results from research regarding the association between antioxidant capacity and exercise training are however not conclusive and further investigation is required. Therefore, the aim of this study was to investigate the association between the total plasma antioxidant status and selected plasma indicators of antioxidant status and the MnSOD Ala-9Val (-28C®T) polymorphism in trained male athletes (rugby players) and sedentary male students while controlling for dietary intake of the major antioxidants using a validated dietary assessment method. In order to address the potential confounding effect of dietary antioxidant intake on antioxidant status in the main study, a FFQ that measures vitamin C, vitamin E, carotenoid and flavonoid intake was developed. The reproducibility was assessed by the repeat administration of the FFQ (n = 38), while the va lidity was assessed using a 28-day closeended dietary record and repeated plasma vitamin C values (n = 18). Several statistical tests were conducted to compare the values obtained from the FFQ with values obtained from the various reference methods. While results from Bland-Altman plots suggested that the reproducibility and validity of FFQ was not completely satisfactory, similar mean values, moderate to strong correlation coefficients, and a high percentage of individuals classified correctly according to quartiles of intake indicated satisfactory reproducibility and validity of the FFQ in assessing antioxidant intake. Furthermore, moderate to strong validity coefficients obtained from the method of triads also indicated satisfactory validity for the FFQ. The main study involved a cross-sectional study that compared plasma vitamin C and carotenoid levels as well as total plasma antioxidant status in trained rugby players (n = 76) and sedentary male subjects (n = 39) with different MnSOD genotypes, while controlling for dietary antioxidant intake. Rugby players had significantly higher plasma vitamin C and carotenoid levels compared to sedentary students, which indicated more satisfactory plasma antioxidant status. This was also reflected in the tendency for total plasma antioxidant status (ORAC assay) to be higher in rugby players than sedentary students. MnSOD genotype did not influence plasma vitamin C and carotenoid levels or plasma total antioxidant status, with or without control for dietary antioxidant intake. Dietary vitamin C, vitamin E, carotenoid an flavonoid intake (from foods + supplements) was similar for rugby players and sedentary students and was adequate for both groups. Thus the association between antioxidant status and MnSOD genotype in rugby players and sedentary students seemed not to be influenced by dietary antioxidant intake. In conclusion therefore, rugby players undergoing regular exercise training had a more satisfactory antioxidant status compared to sedentary students. Based on this conclusion, the widespread use of antioxidant supplements by athletes is questioned. / AFRIKAANSE OPSOMMING: Die menslike liggaam beskik oor ‘n geintegreerde antioksidantmeganisme om dit teen vryradikaalskade te beskerm. Akute oefening kan bydra tot ‘n verhoogde produksie van vry radikale, insluitend reaktiewe suurstofspesies, wat kan veroorsaak dat die antioksidantbeskermingsmeganisme oorlaai word, wat dan kan aanleiding gee tot die ontstaan van oksidatiewe stress. Dit is aangetoon dat persone wat gereeld oefening doen verbeterde antioksidantkapasiteit toon in vergelyking met persone wat geen oefening doen nie. Die resultate van navorsingstudies wat die verband tussen antioksidantkapasiteit en oefening ondersoek is egter teenstrydig en verdere navorsing op hierdie gebied is essensieël om uitsluitsel te kry oor kontensieuse vraagstukke. Die doel van hierdie studie was dus om ondersoek in te stel na die verband tussen plasma antioksidant status, die MnSOD Ala-9Val (-28C T) polimorfisme en geselekteerde plasma antioksidantmerkers in geoefende manlike atlete (rugby spelers) en ‘n onaktiewe manlike kontrolegroep terwyl gekontroleer word vir die dieetinname van die vernaamste antioksidante. Om vir die potensiële invloed van dieetantioksidantinname op die antioksidantstatus van proefpersone in die hoofstudie te kontroleer, is ‘n voedsel frekwensievraelys wat vitamien C-, vitamien E-, karotenoïed- en flavinoïedinname meet, ontwikkel. Die herhaalbaarheid (betroubaarheid) van die vraelys is getoets deur herhaalde voltooiing daarvan deur ‘n toetsgroep (n=38), terwyl die geldighied getoets is deur gebruik te maak van ‘n 28-dag geslote dieetrekord en herhaalde plasma vitamien C bepalings as verwysingswaardes (n=18). Verskeie statistiese toetse is uitgevoer om die frekwensievraelys waardes met die verskillende verwysingswaardes te vergelyk. Alhoewel die Bland -Altman grafieke nie dui op bevredigende herhaalbaarheid en geldigheid van die voedselfrekwensie vraelys nie, dui gelyke gemiddelde waardes, matig tot sterk en betekenisvolle korrelasiekoeffisiënte en ‘n hoë persentasie individue korrek geklassifiseer volgens kwartiele van inname, wel op bevredigende herhaalbaarheid en geldigheid. Matige tot sterk geldigheidskoeffisiënte is ook verkry met die toepassing van “The method of Triads”, wat verdere steun bied vir bevredigende geldigheid. In die hoofstudie is plasma vitamien C, karotenoïedvlakke en totale plasma antioksidantstatus in manlike rugby spelers (n=76) vergelyk met dié van onaktiewe manlike kontroles (n=39). Vergelykings tussen MnSOD genotipes binne die aktiwiteitsgroepe is ook getref. Al genoemde analises is gekontroleer vir dieet antioksidantinname. Resultate dui daarop dat die plasma vitamien C en karotenoïedvlakke van rugby spelers betekenisvol hoër was as dié van die kontrolegroep, wat dui op ‘n meer bevredigende antioksidantstatus. Hierdie resultaat is ook weerspieël in die feit dat totale plasma antioksidantstatus (ORAC) in die rugby spelers oog geneig was om hoër te wees as dié van die kontrole groep. Dit het ook geblyk dat MnSOD genotipe nie ‘n effek gehad het op plasma vitamien C-, karotenoïed- of totale antioksidantstatus nie, met of sonder kontrole vir dieet antioksidantinname. Die dieet vitamien C-, vitamien E-, karotenoïed- en flavinoïedinname (vanaf voedsel en supplemente) was dieselfde vir rugby spelers en kontrole en was toereikend vir beide groepe. Dit blyk dus dat dat die verband tussen antioksidantstatus en MnSOD genotipe in die twee groepe nie beinvloed is deur antioksidantinname nie. Ten slotte kan die gevolgtrekking gemaak word dat manlike rugby spelers ‘n meer bevredigende antioksidant status het as onaktiwe manlike kontroles. Op grond van hierdie gevolgtrekking word die algemene gebruik van antioksidant supplemente deur atlete bevraagteken.

Antioxidants -- Physiological effect

Oxidative stress

Active oxygen

Exercise -- Physiological aspects

Theses -- Physiology (Human and animal)

Exploring underlying mechanisms driving the onset of stress-induced insulin resistance

Otto, Delita

03 1900

Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Physical and psychological stressors trigger activation of the hypothalamo-pituitary-adrenocortical (HPA) axis that leads to enhanced secretion of glucocorticoids e.g. cortisol. Moreover, chronic activation of this pathway may elevate oxidative stress that is linked to the onset of insulin resistance and cardiovascular diseases (CVD). Our laboratory previously found that oxidative stress increases flux through metabolic circuits such as the hexosamine biosynthetic pathway (HBP), in effect increasing its modification of target proteins post-transcriptionally with O-GlcNAc moeities. This in turn may alter protein function and contribute to the onset of myocardial insulin resistance and impaired contractile function. Since the underlying mechanisms linking chronic stress to cardiometabolic pathophysiology are poorly understood, we hypothesised that cortisol elicits myocardial oxidative stress, HBP activation, and decreased glucose uptake (due to attenuated glucose transport functionality) with detrimental outcomes, i.e. insulin resistance and apoptosis. To investigate this hypothesis we established an in vitro model using HL-1 cardiomyocytes, with which we evaluated the degree of O-GlcNAcylation and oxidative stress in response to a range of time-dose treatments with dexamethasone (synthetic glucocorticoid). Glucose transporter 4 (GLUT4) translocation to the sarcolemma was also assessed. In agreement with the literature, results suggest that GLUT4 translocation is significantly decreased subsequent to dexamethasone treatment. Although no significant differences were observed with regards to oxidative stress or O-GlcNAcylation, the data show that dexamethasone increased the latter with a maximal effect after two hours exposure to the 10-6 M dose. Although our results were not conclusive, the data suggest a potential novel link between dexamethasone exposure, HBP activation and decreased GLUT4 translocation. Based on our findings we propose that detrimental effects of chronic stress on the heart may be mediated by increased HBP flux. Given that glucocorticoid excess and GLUT4 dysregulation have been associated with insulin resistance (and related metabolic derangements and diseases), these results provide new targets for potential therapeutic agents. / AFRIKAANSE OPSOMMING: Fisiese sowel as psigologiese stressors veroorsaak die aktivering van die hipotalamiese-hipo seale-bynier (HHB) pad wat lei tot die verhoogde sekresie van glukokortikoïede soos kortisol. Kroniese aktivering van hierdie pad kan ook oksidatiewe stres verhoog wat weer tot insulienweerstandigheid en kardiovaskulêre siektes (KVS) kan lei. Navorsing uit ons laboratorium het voorheen bewys dat oksidatiewe stres 'n toename in vloei deur metaboliese paaie soos die heksoamine biosintetiese pad (HBP) kan veroorsaak deur die modi sering van teikenproteïene met O-GlcNAc motiewe. Dit kan weer proteïen funksie verander en bydra tot die ontstaan van miokardiale insulienweerstandigheid en verswakte kontraktiele funksie. Die onderliggende meganismes wat kroniese stres aan kardiometaboliese pato siologie verbind word nog nie goed verstaan nie, daarom is ons hipotese dat kortisol miokardiale oksidatiewe stres veroorsaak, die HBP pad aktiveer, en glukose opname verminder (deur die funksionele onderdrukking van glukose transport), wat nadelige uitkomste soos insulienweerstandigheid en apoptose tot gevolg kan hê. Om hierdie hipotese te ondersoek, is 'n in vitro model van HL-1 kardiomiosiete gebruik waarmee die graad van O-GlcNAsilering en oksidatiewe stres in reaksie op 'n reeks tyd-konsentrasie behandelings met deksametasoon (sintetiese glukokortikoïed), bepaal is. Glukose transporter 4 (GLUT4) translokasie na die sarkolemma is ook geasseseer. In ooreenstemming met die literatuur, is GLUT4 translokasie insiggewend onderdruk tydens deksometasoon behandeling. Alhoewel geen insiggewende verskille rakende oksidatiewe stres en O-GlcNAsilering gevind is nie, het ons data aangedui dat laasgenoemde deur deksametasoon vermeerder het na twee ure van blootstelling aan die 10-6 M konsentrasie. Alhoewel ons resultate geen afdoende bewys lewer nie, stel dit wel voor dat daar 'n potensiële verbintenis tussen deksametasoon behandeling en 'n afname in GLUT4 translokasie is. Gebasseer op ons bevindings, stel ons voor dat die nadelige e ekte van kroniese stres op die hart bemiddel kan word deur 'n toename in vloei deur die HBP. Gegewe dat 'n oormaat glukokortikoïede en GLUT4 wanregulering geassosieer is met insulien weerstandigheid (en verbandhoudende metaboliese veranderinge en siektes), verskaf hierdie resultate nuwe teikens vir potensiële terapeutiese ingrepe.

Insulin resistance

Stress

O-GlcNAc

GLUT4

Dexamethasone

Glucose transporters

HBP

Hexosamine biosynthetic pathway

Theses -- Physiology (Human and animal)

Cardiovascular diseases

Apoptosis

Increased flux through the hexosamine biosynthetic pathway leads to the induction of acetol-CoA caboxylase gene expression in the heart

Imbriolo, Jamie

03 1900

Thesis (MSc)--Stellenbosch University, 2008. / ENGLISH ABSTRACT: Gene expression of the cardiac isoform of acetyl-CoA carboxylase (ACCb) is induced in a glucose-dependent manner. ACCb produces malonyl-CoA, a potent inhibitor of mitochondrial fatty acid uptake. Previous studies show that increased flux through the hexosamine biosynthetic pathway (HBP) under hyperglycaemic conditions may contribute to the development of insulin resistance. In light of this, we hypothesised that increased HBP flux induces cardiac ACCb gene expression thereby contributing to the onset of insulin resistance. We tested our hypothesis by transiently transfecting cardiac-derived rat H9c2 myoblasts with a 1,317 bp human ACCb promoter-luciferase construct (pPIIb-1317) and an expression construct encoding the rate-limiting step of the HBP i.e. glutamine: fructose 6-phosphate amidotransferase (GFAT). Overexpression of GFAT increased ACCb gene promoter activity by 75 ± 23% versus controls (n=6, p<0.001). When cotransfection experiments were repeated in the presence of varying concentrations of L-glutamine (0 mM, 4 mM, 8 mM), a substrate for the HBP, ACCb promoter activity was dose-dependently increased. To further corroborate these findings, we employed two inhibitors of GFAT, i.e. 40 μM azaserine and 40 μM 6-diazo-5-oxo-Lnorleucine were administered to transfected cells for a period of 24 hours. Here both azaserine and 6-diazo-5-oxonorleucine attenuated ACCb gene promoter activity. In agreement, co-transfections with two dominant negative GFAT constructs also diminished ACCb gene promoter activity. We next inhibited two enzymes of the HBP acting downstream of GFAT, i.e. O-GlcNAc transferase and O-GlcNAcase using alloxan (0.1 mM, 1 mM and 2 mM) and streptozotocin (5 mM and 10 mM), respectively, for a period of 24 hours. Addition of alloxan attenuated ACCb gene promoter activity by 35.6 ± 1.9% (n=16, p<0.001) and streptozotocin increased activity by 32 ± 12% (n=12, p<0.001). We also investigated USF1 and USF2 as transcriptional regulatory candidates for HBP-induced ACCβ promoter regulation. Our data implicates USF2 as an important transcriptional regulator of HBP-induced ACCβ promoter regulation. In summary, this study demonstrates that increased flux through the hexosamine biosynthetic pathway induces ACCb gene promoter activity. We further propose that such an induction would reduce cardiac fatty acid oxidation, thereby leading to intracellular lipid accumulation due to a mismatch between sarcolemmal FA uptake and mitochondrial FA oxidation in the insulin resistant setting (i.e. hyperlipidaemia). / AFRIKAANSE OPSOMMING: Geen uitdrukking van die kardiale isoform asetiel-KoA karboksilase (ACCb) word in ‘n glukose afhanklike wyse geïnduseer. ACCb produseer maloniel-KoA, ‘n kragtige inhibeerder van mitochondriale vetsuuropname. Vorige studies toon aan dat verhoogde fluks deur die heksosamien biosintestiese weg (HBW) onder hiperglukemiese toestande bydra tot die ontwikkeling van insulienweerstand. In die lig hiervan, word daar gehipotetiseer dat verhoogde HBP fluks kardiale ACCb geenuitdrukking induseer en so bydra tot die ontstaan van insulienweerstand. Ons hipotese is getoets deur die kardiale afkomstige rot H9c2 mioblaste met ‘n 1.317 bp mens ACCb-lusiferase promotor konstruk (pPII-1317) te transfekteer en ‘n uitdrukking te konstrueer wat die tempo bepalende stap van HBP i.e. glutamien: fruktose-6-fosfaat amidotransferase (GFAT) kodeer. Ooruitdrukking van GFAT verhoog ACCb geenpromotor aktiviteit deur 75 ± 23% teenoor kontrole (n=6, p<0.001). Die herhaling van ko-transfeksie eksperimente is herhaal in die teenwoordigheid van variëerbare L-glutamienkonsentrasies (0 mM, 4 mM, 8 mM), ’n substraat vir die HBP, ACCb promotor aktiwiteit is dosisafhanglik verhoog. Om die bevindinge verder te staaf, is twee inhibeerders van GFAT, i.e. 40 μM azaserien en 40 μM 6-diazo-5-oxo-L-norleusien aan transfeksie selle toegedien vir ’n tydperk van 24 uur. Beide azaserien en 6-diazo-5-oxo-L-norleusien verlaag ACCb geenpromotor aktiwiteit. In ooreenstemming met die bogenoemde het ko-transfeksies met twee dominante negatiewe GFAT konstrukte ook ACCb geenpromoter aktiwiteit verminder. Die volgende stap is om twee ensieme van die HBP wat stroomaf van GFAT aktief is, vir ‘n periode van 24 uur te inhibeer i.e. O-GlcNAc transferase en O-GlcNAcase deur alloxan (0.1 mM, 1 mM en 2 mM) and streptozotosien (5 mM en 10 mM) onderskeidelik vir ‘n 24 uur periode te gebruik. Toevoeging van alloxan het die ACCb geenpromotor aktiwiteit by 35.6 ± 1.9% (n=16, p<0.001) verlaag en streptozotosien aktiwiteit verhoog by 32 ± 12% (n=12, p<0.001). Ons het ook die USF1 en USF2 as transkripsie regulerings kandidate vir HBP-geïnduseerde ACCβ promotor regulering ondersoek. Ons data impliseer dat USF2 as ‘n belangrike transkripsie reguleerder van HBP-geïndiseerde ACCβ promotor regulering is. Samevattend het hierdie studie demonstreer dat verhoogde fluks deur die hexosamien biosintetiese weg ACCb geenpromotor aktiwiteit induseer. Ons stel verder voor dat hierdie induksie die kardiale vetsuuroksidasie verlaag wat daartoe lei dat intrasellulêre lipied akkumulasie as gevolg van onparing tussen sarkolemma vetsuuropname en mitochondriale vetsuuroksidasie in ’n insulien weerstandige situasie (i.e. hiperlipidaemia).

Heart -- Metabolism

Insulin resistance

Hyperlipidemia

Fatty acids -- Metabolism

Glucose -- Metabolism

Hexosamine biosynthetic pathway

Theses -- Physiology (Human and animal)

Antioxidant (Oxiprovin TM) supplementation and muscle recovery from contusion injury - an in vivo study

Kruger, Maria Jacoba

12 1900

Thesis (MSc)--University of Stellenbosch, 2007. / ENGLISH ABSTRACT: Human studies on the response of muscle to contusion injury are limited, probably due to the large variability in injury severity and the non-specificity of clinical symptoms reported. To circumvent this problem, several experimental animal models have been designed to study muscle damage and regeneration after contusion injuries. However, the majority of techniques currently used to induce contusion injury are very invasive and therefore not optimal. Furthermore, published studies regarding clinical treatment of such injuries are limited. The main aims of this study were therefore: a) to establish and characterise an in vivo model of non-invasive contusion injury, and b) to assess the effect of pre-injury chronic administration of the antioxidant supplement Oxiprovin™ - a natural grape seed extract (GSE) - on skeletal muscle recovery after experimentallyinduced injury. Two groups of male Wistar rats were subjected to 14 days of oral administration of isovolaemic placebo (sterile isotonic saline) or GSE (20 mg/kg/day) prior to induced contusion. Contusion injury was induced with the mass-drop technique, and recovery parameters assessed for up to 14 days post-injury. Placebotreated rats on average exhibited a 56 % higher creatine kinase (CK) activity when compared to the GSE-treated rats when area under the curve (AUC) was calculated for 14 days post-injury (p < 0.001). In the placebo group, plasma oxygen radical absorbance capacity (ORAC) was unchanged over time, but muscle ORAC was significantly increased by day 7 post-injury (p < 0.001). In the GSE group, a significant decrease in both plasma (p < 0.01) and muscle ORAC (p < 0.001) was evident 4 hr after injury, followed by a significant increase by day 3 (p < 0.05 and p < 0.001 respectively). CD34+ satellite cell (SC) numbers (quiescent and activated) peaked earlier in GSE-treated rats when compared to placebo-treated rats (4 hours vs. day 7 post-injury). Total satellite cell number (CD56+) also peaked earlier in GSE-treated rats than in placebo-treated rats (4 hours vs. 3 days post-injury), while M-cadherin+ SC numbers (quiescent, activated or proliferating) in both treatment groups were significantly increased 4 hours post-injury (p < 0.001), but more so in the placebo group. In GSE-treated rats when compared to placebo-treated rats, newly generated muscle fibres (displaying central nuclei and MHCf +) both appeared (day 3 vs. day 7 post-injury) and peaked in number (day 3 vs. day 7 post-injury; increase from baseline p < 0.001 for both) earlier. The results of this study demonstrate that we have successfully established an in vivo model for non-invasive contusion injury in rats. Furthermore, we have shown that Oxiprovin™: a) increased the ability to scavenge reactive species generated after injury and b) resulted in the activation of satellite cells and formation of newly generated muscle fibres at an earlier time point, thus accelerating the recovery of skeletal muscle after a standardised contusion injury. / AFRIKAANSE OPSOMMING: Eksperimente aangaande die reaksie van spier op kneusings in mense is beperk, waarskynlik as gevolg van die groot verskeidenheid simptome wat mag voorkom en die verskille in die ernstigheid van beserings. Ten einde hierdie problem te oorbrug, is verskeie eksperimentele diermodelle opgestel om kneusings en die herstel van spier daarna te ondersoek. Die tegnieke wat grootendeels vandag gebruik word om kneusings te veroorsaak, maak inbraak op die spier deur die spier te ontbloot voor besering, en is dus nie ideaal nie. Daar is ook nie baie bewyse aangaande die mees geskikte manier om so ‘n besering klinies te behandel nie. Die doel van hierdie studie was dus om: a) ‘n in vivo model van kneusings op te stel en te omskryf, en b) die effek van chroniese toediening van die antioksidant Oxiprovin™ - ‘n natuurlike druifsaad ekstrak (DSE) – op die herstel van skeletspier na ‘n kneusing te ondersoek. Twee groepe manlike Wistar rotte is onderwerp aan mondelikse toediening van isovolemiese plasebo (steriele isotoniese soutoplossing) of DSE (20 mg/kg/dag) vir ‘n tydperk van 14 dae voor kneusing. Kneusing is geïnduseer met die “massdrop” tegniek, en parameters van herstel is ondersoek tot en met 14 dae na besering. Plasebo-behandelde rotte het gemiddeld 56 % hoër kreatien kinase (KK) aktiwiteit in vergelyking met DSE-behandelde rotte (p < 0.001), toe die oppervlak onder die kurwe (OOK) tot en met 14 dae na besering bereken is. Geen verskil oor tyd is in die plasebo groep opgemerk toe plasma suurstof radikaal absorpsie kapasiteit (SRAK) bepaal is nie, maar ‘n betekenisvolle toename in spier SRAK teen dag 7 (p < 0.001) is waargeneem. ‘n Betekenisvolle afname in beide plasma (p < 0.01) en spier (p < 0.001) SRAK van die DSE is teen 4 hr waargeneem, gevolg deur ‘n betekenisvolle toename teen dag 3 na besering (p < 0.05 en p < 0.001 onderskeidelik). Die aantal CD34+ satelliet selle (SS – rustend en geaktiveerd) het beduidend vroeër in die DSE groep gestyg in vergelyking met die plasebo groep (4 uur vs. 7 dae na besering). Die totale aantal SS (CD56+) het ook vroeër in die DSE-behandelde rotte as die plasebobehandelde rotte gestyg (4 uur vs. 3 dae na besering), terwyl die aantal Mcadherin+ SS (rustend, geaktiveerd of prolifererend) betenisvol gestyg het in beide groepe teen 4 uur (p < 0.001) na besering, maar hoër in die plasebo groep was. Die aantal nuutgevormde spiervesels (met sentraal geleë nukleï en MHCf +) het beide vroeër verskyn en gepiek in die DSE-behandelde rotte in vergelyking met die plasebo-behandelde rotte (dag 3 vs. dag 7 na besering). Die resultate van hierdie studie dui aan dat ons instaat was om ‘n in vivo model van nie-indringende kneusing in rotte op te stel. Verder, het ons ook bewys dat Oxiprovin™ toediening die vermoë verleen het om: a) reaktiewe spesies wat na beserings gevorm word, meer doeltreffend te verwyder en b) satelliet selle vroeër te aktiveer en die vorming van nuwe skeletspiervesels te vervroeg, om sodoende die herstel van skeletspier na ‘n gestandardiseerde kneusing vinniger te bewerkstellig.

Antioxidants -- Physiological effect

Muscles -- Physiology

Bruises

Oxiprovin

Theses -- Physiology (Human and animal)

Can the Sutherlandia herb or resistance exercise reverse the stress inducing effects of a mild-intermittent stress procedure

Neethling, Ian Garth

03 1900

Thesis (MSc (Physiological Sciences))--University of Stellenbosch, 2006. / This study aimed to assess the effect of mild psychological stress in male Wistar rats using incremental, intermittent stress on parameters of atrophy, including body mass, soleus and extensor digitorum longus (EDL) muscle mass, and mechanisms possibly contributing to atrophy. Serum corticosterone concentrations, 20s proteasome activity, glutamine synthetase (GS) and tyrosine amino-transferase (TAT) activities were determined. I also assessed whether Sutherlandia (Su) or resistance exercise was able to reverse the effects of stress on any of these parameters.

Theses -- Physiology (Human and animal)

Medicinal plants -- South Africa

Muscles -- Physiology