Global ETD Search

101	An operational model for estrogenic action in the presence of sex hormone binding globulin (SHBG) Vismer, Michael John 03 1900 (has links) Thesis (MSc)--University of Stellenbosch, 2007. / ENGLISH ABSTRACT: The aim of this study was to build a mathematical model that describes the binding of 17- -estradiol (E2) to estrogen receptor (ER- ) and the influence the sex hormone binding globulin (SHBG) has on this interaction. The influence of SHBG on the transactivation of an estrogen response element, via ligand bound ER- , was also studied. COS-1 cells, derived from the kidney of a green african monkey, were used to study the binding of E2 to ER- in the absence of SHBG. The influence of SHBG on the binding of E2 to ER- was studied using Hep89 cells, human hepatacoma carcinoma, which express SHBG endogenously and are stably transfected with the ER- gene. Human pregnancy plasma was used to study the interaction of E2 with SHBG in the absence of ER- . The results of this study have shown that the Kd (E2) for ER- was determined as between 3.4nM and 4.4nM in the absence of SHBG. With respect to the binding of E2 to ER- it was not possible to determine the Kd app and Bmax for ER- using the Hep89 experimental system. The Kd (E2) for SHBG was not determined using the human pregnancy plasma experimental system. With the aid of mathematical modelling, a model of the Hep89 and human pregnancy plasma experimental systems, was built. The results of the numerical modelling, using mathematical modelling, showed that the presence of albumin together with SHBG was the reason that the Kd app (E2) could not be determined in the Hep89 experimental system. With respect to the use of human pregnancy plasma to determine the Kd (E2) for SHBG it was shown that if the plasma was diluted 200 times it would have been possible to determine the Kd app (E2) for SHBG, in the presence of albumin. Ligand independent transactivation of an estrogen response element was shown to be a problem in the COS-1 cell system when promoter reporter gene assays were undertaken. As COS-1 cells were used as a control for the absence of SHBG no further promoter reporter gene assays were undertaken using the Hep89 experimental system. / AFRIKAANSE OPSOMMING: Die doel van hierdie studie was die bou van ‘n wiskundige model wat die verbinding van E2 met die estrogeenreseptor (ER- ) en die invloed wat die geslagshormoon-verbindingglobulien (SHBG) op hierdie interaksie het, beskryf. Die effek van SHBG op die transaktivering van ‘n estrogeen responselement, via die ligandverbonde ER- , is ook bestudeer. COS-1-selle uit die nier van ‘n groen afrika-aap is gebruik om die verbinding van E2 met ER- in die afwesigheid van SHBG te bestudeer. Die invloed van SHBG op die verbinding van E2 met ER- , is bestudeer deur gebruik te maak van Hep89-selle, die menslike lewergeswelkarsinoom, wat SHBG uitwendig afgee en wat stabiel getransfesteer kan word met die ER- geen. Menslike swangerskapplasma is gebruik om die interaksie van E2 met SHBG in die afwesigheid van ER- te bestudeer. Die uitslag van hierdie studie toon aan dat die Kd (E2) vir ER- vasgestel tussen 3.4nM en 4.4nM in die afwesigheid van SHBG. Met betrekking tot die verbinding van E2 met ER- , was dit nie moontlik om die Kd (E2) en Bmax app vir ER- met die gebruik van die Hep89 eksperimentele stelsel vas te stel nie. Die Kd (E2) vir SHBG is nie vasgestel deur die gebruik van die menslike swangerskapplasma eksperimentele stelsel nie. ‘n Model van die Hep89 en menslike swangerskapplasma eksperimentele stelsels is met behulp van wiskundige modellering gebou. Die uitslag van die numeriese modellering, met gebruik van wiskundige modellering, toon dat die teenwoordigheid van albumien, saam met SHBG, die rede was dat die Kd app (E2) nie in die Hep89 eksperimentele stelsel vasgestel kon word nie. Wat betref die gebruik van menslike swangerskapplasma om die Kd (E2) vir SHBG vas te stel, is daar aangetoon dat, indien die plasma 200 maal verdun was, dit moontlik sou gewees het om die Kd app (E2) vir SHBG in die teenwoordigheid van albumien vas te stel. Promotor verkilkkergeen toetse het ligandonafhanklike transaktiveering van ‘n estrogeen responselement aangetoon as ‘n probleem in die COS-1-selle stelsel. Omdat COS-1-selle gebruik is as ‘n kontrole vir die afwesigheid van SHBG, is geen verdere promotor verkilkkergeen toetse onderneem met die gebruik van die Hep89 eksperimentele stelsel nie. Estrogen -- Physiological effect Hormones, Sex Estradiol Steroid hormones Theses -- Biochemistry Dissertations -- Biochemistry
102	The relationship between the insecticide dichloro-diphenyl-trichloroethane and chloroquine in Plasmodium falciparum resistance Makowa, Hazel Beverly 03 1900 (has links) Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Dichloro-diphenyl-trichloroethane (DDT) was extensively used in agriculture pest control and is still used for indoor residual spraying to control malaria. The lipophylicity of DDT and its breakdown product dichloro-diphenyl-dichloroethylene (DDE) dictates that they associate with membranes, lipids and hydrophobic proteins in the biological environment. Their poor degradable nature causes DDT and DDE to persist for decades in the environment and in individuals who are or were in contact with the pesticide. In many countries the synchronised resistance of the mosquito vector to insecticides and the malaria parasite towards antimalarial drugs led to a drastic rise in malaria cases and to malaria epidemics. This study assesses the influence of low level exposure of DDT and DDE on chloroquine (CQ) resistance of the dire human malaria parasite, Plasmodium falciparum. The in vitro activity of p,p’-DDT and p,p’-DDE towards blood stages of chloroquine sensitive (CQS) P. falciparum D10 and chloroquine resistant (CQR) P. falciparum Dd2 was determined using two complementary in vitro assays (Malstat and SYBR Green 1). The 50% inhibition concentrations (IC50s) of p,p’-DDT and p,p’-DDE were found to be ±14 to 38 μM (5-12 μg/mL) and highly similar towards CQS and CQR P. falciparum strains. This result indicated that the proteins involved in CQ resistance have no effect on the activity of the insecticide DDT and it breakdown product DDE. In order to assess the influence of DDT and DDE on CQ activity, in vitro fixed ratio drug combination assays were performed, as well as isobologram analysis. We found that CQ works in synergy with p,p’-DDT and p,p’-DDE against CQS P. falciparum D10. However, both p,p’-DDT and p,p’-DDE were antagonistic toward CQ activity in CQR P. falciparum Dd2. This indicated that p,p’-DDT and p,p’-DDE do have an effect on CQ resistance or on the action of CQ via a target other than hemozoin polymerization. The observation of reciprocal synergism of p,p’-DDT and p,p’-DDE with CQ against CQS D10 and antagonism against CQR Dd2 strain is highly significant and strongly indicates selection of CQ resistant strains in the presence of p,p’-DDT and p,p’-DDE. People who have low levels of circulating DDE and/or DDT could be at a high risk of contracting CQR malaria. However, medium term (nine days) DDE exposure of CQS P. falciparum D10 did not induce resistance, as no significant change in activity of CQ, p,p’-DDT and p,p’-DDE towards blood stages the CQS strain was observed. This exposure was, however, shorter than expected for a malaria infection and would be addressed in future studies. From our results on the interaction of CQ with p,p’-DDT and p,p’-DDE, it was important to assess the residual DDT and DDE variable and how much of residual p,p’-DDT and/or p,p’- DDE would enter into or remain in the different compartments (the RPMI media, erythrocytes and infected erythrocytes) over time. In combination with liquid-liquid extraction, we developed a sensitive GC-MS analyses method and a novel HPLC-UV analysis method for measuring DDT and DDE levels in malaria culturing blood and media. Whilst the HPLC-UV method was relatively cheaper, faster, and effective in determining high DDT and DDE concentrations, the optimised GC-MS method proved to be effective in detecting levels as low as 78 pg/mL (ppt) DDE and 7.8 ng/mL (ppb) DDT in biological media. Using both the HPLC and GC-MS methods we observed that malaria parasites influence distribution of the compounds between the erythrocytic and media fractions. P. falciparum D10 infection at ±10% parasitemia lead to must faster equilibration (less than 8 hours) between compartments. Equimolar distribution of p,p’-DDE was observed, but the parasites lead to trapping of the largest fraction of p,p’-DDT in the erythrocyte compartment. These results indicate that a substantial amount would reach the intra-erythrocytic parasite and could influence the parasite directly, possibly leading to either synergistic or antagonistic drug interactions. This study is the first to illustrate the “good and bad” of the insecticide DDT in terms of CQ resistance and sensitivity toward the human malaria parasite P. falciparum. These results will hopefully have an important influence on how future policies on malaria control and treatment particularly in endemic areas will be addressed and could also have an impact on the anti-malarial drug discovery approach. / AFRIKAANSE OPSOMMING: Dichlorodifenieltrichloroetaan (DDT) is op groot skaal in landbouplaagbeheer gebruik en word nog steeds gebruik vir binnenshuise oppervlakbespuiting om malaria te beheer. Die lipofilisiteit van DDT en sy afbraakproduk dichlorodifenieldichloroetileen (DDE) dikteer dat hulle met membrane, lipiede en hidrofobiese proteïene in die biologiese omgewing assosieer. Stadige afbraak veroorsaak dat DDT en DDE vir dekades in die omgewing agterbly, asook in individue wat in kontak is, of was met die insekdoder. In baie lande het gesinkroniseerde weerstand van die muskietvektor teenoor insekdoders en die malariaparasiet teenoor antimalariamiddels gelei tot 'n drastiese styging in malariagevalle en tot malariaepidemies. In hierdie studie word die invloed van lae vlak blootstelling van DDT en DDE op chlorokien (CQ) weerstand van die mens malariaparasiet, Plasmodium falciparum, geëvalueer. Die in vitro aktiwiteit van p,p'-DDT en p,p'-DDE teenoor die bloedstadia van chlorokiensensitiewe (CQS) P. falciparum D10 en chlorokien-weerstandbiedende (CQW) P. falciparum Dd2 is bepaal deur gebruik te maak van twee komplementêre in vitro toetse (Malstat en SYBR Groen toetse). Die 50% inhibisie konsentrasies (IC50s) van p,p'-DDT en p,p'-DDE is bepaal as ±14 to 38 μM (5-12 μg/mL) en was hoogs vergelykbaar tussen CQS en CQW P. falciparum stamme. Hierdie resultaat het aangedui dat die proteïene betrokke by CQ weerstand geen effek op die aktiwiteit van die insekdoder DDT en die afbraakproduk DDE het nie. Om die invloed van DDT en DDE op CQ aktiwiteit te evalueer, is die aktiwiteit van kombinasies van die verbindings in vaste verhoudings getoets, tesame met isobologram ontleding. Ons het gevind dat CQ sinergisties saam met p, p'-DDT en p, p'-DDE teen CQS P. falciparum D10 werk. Daarteenoor het beide p, p'-DDT en p, p'-DDE antagonistiese werking getoon teenoor CQ aktiwiteit met CQW P. falciparum Dd2 as teiken. Dit het aangedui dat p,p'-DDT en p, p'-DDE wel 'n invloed op CQ weerstand het of ‘n aktiwiteit van CQ, anders as hemozoin polimerisasie, beïnvloed. Die waarneming van resiproke sinergisme en antagonisme van p, p'-DDT en p, p'-DDE in kombinasie met CQ teenoor die CQS D10 en CQW DD2 stamme respektiewelik, is hoogs betekenisvol en dui op seleksie van CQweerstandige stamme in die teenwoordigheid van p, p'- DDT en p, p'-DDE. Mense wat lae vlakke van sirkulerende DDE/DDT het, het dus 'n hoër risiko om CQW malaria te kry. Verder is gevind dat medium termyn (nege dae) DDE blootstelling van CQS P. falciparum D10 nie weerstand nie veroorsaak nie, want geen beduidende verandering in die aktiwiteit van CQ, p,p'-DDT en p,p'-DDE teenoor die bloed stadiums van die CQS stam is waargeneem nie. Hierdie blootstelling is egter korter as in 'n malaria-infeksie en sal verder bestudeer word in toekomstige studies. Vanuit die interaksie resultate van CQ met p, p'-DDT en p, p'-DDE was dit belangrik om die residuele DDT en DDE veranderlike te evalueer, asook die distribusie van p,p'-DDT en p,p'- DDE tussen die verskillende kompartemente (die kultuurmedium, eritrosiete en geïnfekteerde rooibloedselle) oor verloop van tyd. In kombinasie met vloeistof-vloeistof ekstraksie, het ons 'n sensitiewe GC-MS en nuwe HPLC-UV analisemetode ontwikkel vir die meet van DDT en DDE-vlakke in bloed (normale en geïnfekteerde eritrosiete) en die kultuurmedium. Terwyl die HPLC-UV metode relatief goedkoper, vinniger en effektief in die bepaling van hoë DDT en DDE-konsentrasies is, was die geoptimaliseerde GC-MS metode doeltreffend in die opsporing van vlakke so laag as 78 pg/mL (dpt) DDE en 7.8 ng/mL (dpb) DDT in biologiese media. Met behulp van beide die HPLC-UV en GC-MS metodes is waargeneem dat die malariaparasiet die ekwilibrasie van die verbindings tussen die eritrosiet- en media kompartemente beïnvloed. P. falciparum D10 infeksie met ± 10% parasitemia lei tot vinniger ekwilibrasie (minder as 8 uur) tussen die kompartemente. Ekwimolêre verspreiding van p,p'- DDE is waargeneem, maar die parasiete het die grooste fraksie van p,p'-DDT in die eritrosiet kompartement vasgevang. Hierdie resultate wys dat 'n aansienlike fraksie die intraeritrositiese parasiet kan bereik en sodoende die parasiet direk kan beïnvloed en moontlik kan lei tot sinergistiese of antagonistiese middel interaksies. Hierdie studie is die eerste om die "goed en sleg" van die insekdoder DDT in terme van CQ weerstand en sensitiwiteit teenoor die menslike malariaparasiet P. falciparum te illustreer. Hierdie resultate sal hopelik 'n belangrike invloed hê op die toekomstige beleid oor die beheer van malaria en behandeling, veral in endemiese gebiede, en mag ook 'n impak hê op die antimalariamiddel navorsing. Plasmodium falciparum Chloroquine Drug resistance DDT (Insecticide) Antimalarials Dissertations -- Biochemistry Theses -- Biochemistry Department of Biochemistry
103	Investigating the mechanism of transcriptional regulation of the gonadotropin-releasing hormone receptor (GnRHR) gene by dexamethasone Von Boetticher, S. 12 1900 (has links) Thesis (MSc (Biochemistry))--Stellenbosch University, 2008. / Gonadotropin-releasing hormone (GnRH) acting through the cognate GnRH receptor (GnRH-R) plays an important role in the regulation of mammalian reproductive function by regulating the synthesis and release of follicle stimulating hormone (FSH) and luteinizing hormone (LH). The sensitivity of pituitary gonadotropes to GnRH depends on the number of GnRH receptors present on the gonadotrope cell surface. GnRH-R is regulated at a transcriptional, post-transcriptional and post-translational level. Hormones such as GnRH and glucocorticoids (GCs) regulate GnRH-Rs in a time- and dose-dependent manner. Previous studies have shown that the GnRH-R promoter confers glucocorticoid-dependent activation via the activating protein 1 (AP-1) site in the nongonadotrope GGH3 cell line. The mechanism by which GCs regulate the GnRH-R promoter is not precisely known as the literature is contradictory. Therefore this study investigates the mechanism of transcriptional regulation of the mouse GnRH-R promoter in the mouse gonadotrope cell line LβT2, treated with the synthetic GC dexamethasone (dex). Assays used include promoter-reporter studies, Western blotting, endogenous mRNA expression studies, electrophoretic mobility shift assay (EMSA) as well as the in vivo chromatin immunoprecipitation (ChIP) assay. A transfected promoter-reporter plasmid containing 600 bp of the mouse GnRH-R promoter was used to investigate the effect of dex on transcriptional regulation. Previously it was determined in our laboratory that the GnRH-R promoter is activated via an AP-1 binding site in the LβT2 cell line, and is regulated in a time- and dose-dependent manner by dex. In the present study in the LβT2 cell line a small induction was indeed seen upon dex treatment. Cotransfecting a expression vector for rat GR succeeded in inducing a 2 fold positive dex response. Western blot analysis revealed that GR levels remain consistent even after 8 hours dex induction. The effect of dex on the endogenous GnRH-R gene was investigated by means of real-time RT-PCR. Dex did indeed upregulate the gene in a time-dependant manner. Maximal induction (7.4 fold) was obtained after at least 12 hours of dex treatment. Untreated LβT2 nuclear extracts were investigated using EMSA, for protein binding to the mouse GnRH-R promoter AP-1 binding site, and these proteins were identified as c- Fos and GR. This suggests that the GR interacts with the AP-1 transcription factor via a tethering mechanism to mediate the positive dex response. The results of an in vivo ChIP assay were consistent with this hypothesis, showing that the GR interacted with a genomic fragment containingthe AP-1 site, in response to dex. The transactivation of the GnRH-R promoter by means of the GR tethering to AP-1 has not been shown before in the LβT2 cell line. Dexamethasone Gonadotropin Hormone receptors Genetic regulation Dissertations -- Biochemistry Theses -- Biochemistry Luteinizing hormone releasing hormone Adrenocortical hormones
104	Construction and validation of a detailed kinetic model of glycolysis in asexual Plasmodium falciparum : a feasibility study Penkler, Gerald Patrick 12 1900 (has links) Thesis (MSc (Biochemistry))--University of Stellenbosch, 2009. / ENGLISH ABSTRACT: In Africa alone, Plasmodium, the causative agent of malaria is estimated to kill a child, under the age of five every thirty seconds140. The ability of the parasite to rapidly attain resistance, has resulted in immunity of the parasite to all, except one group of frontline drugs. The need to develop novel drugs, vaccines and prevention strategies that are accessible and affordable for third world countries is of the utmost importance to prevent needless human suffering and death. The glycolytic pathway is an attractive drug target since it is the principal source of ATP for the parasite. Many of the glycolytic enzymes have been studied and proposed as drug targets, but the importance of these enzymes for the function of the pathway as a whole has not been considered. It is known, from the frameworks of metabolic control analysis, that control of the flux and metabolite concentration can be divided among the individual steps. Differential control analysis of Plasmodium and erythrocyte glycolysis may reveal potential drug targets. These analyses require a detailed kinetic model of Plasmodium glycolysis, and the feasibility of constructing and validating such a model was the aim of this study. In this work we determined the feasibility of constructing and validating a detailed kinetic model for the Plasmodium falciparum glycolytic pathway. Whether the construction and validation of this kinetic model was feasible or not was decided on the basis of the ability to: i) culture and isolate sufficient asexual parasites for enzymatic and steady state assays , ii) obtain kinetic parameters such as Km and Vmax for each glycolytic enzyme, either from literature or experimentally, iii) measure glycolytic fluxes, iv) determine glycolytic intermediate concentrations, v) construct a kinetic model from the kinetic parameters and vi) validate it with steady state glycolytic fluxes and metabolite concentrations Each of the above criteria were successfully addressed. In summary, the kinetic parameters and glycolytic fluxes that were measured experimentally, were used to construct and partially validate a detailed kinetic model, respectively. Further validation of the model by means of steady state metabolite concentrations was shown to be possible with the development of a suitable protocol to measure the glycolytic intermediate concentrations. The model presented in this work may play an important role in drug target identification and improving the current understanding of host-parasite interactions and glycolytic regulation. / AFRIKAANSE OPSOMMING: Plasmodium, die parasiet wat malaria veroorsaak, is in Afrika alleen elke dertig sekondes verantwoordelik vir die afsterwe van ’n kind jonger as vyf jaar. Die parasiet se vermoë om vinnig weerstand op te bou het daartoe gelei dat Plasmodium weerstandbiedend is teen byna alle nuwe teen-malaria middels, behalwe vir ’n enkele toonaangewende groep. Die ontwikkeling van nuwe malaria teen-middels is van uiterste belang om lyding te voorkom. ’n Goeie teiken vir teen-malaria middels is die glikolitiese padweg omdat die metaboliese padweg essensieël is vir die produksie van ATP, die energiebron van die parasiet. Desondanks die feit dat meeste van die glikolitiese ensieme al goed bestudeer en as teiken voorgestel is, is dit steeds onduidelik hoe hierdie ensieme saam funksioneer om die metaboliese weg, as geheel, tot stand te bring. Metaboliese kontrole analise het aangetoon dat die glikolitiese beheer verdeel is tussen die onderskeie glikolitiese ensieme, m.a.w. geen enkele ensiematiese stap het volledige beheer oor die fluksie van die glikolitiese padweg nie. Die afsonderlike analise en vergelyking van Plasmodium - en rooibloedselglikolise met behulp van differensiële metaboliese kontrole analise sal moontlik gebruik kan word om gasheervriendelike teikens vir nuwe middels aan te toon. So ’n analise benodig ’n omvattende kinetiese model van Plasmodium glikolise. Derhalwe was die doel van hierdie studie om vas te stel hoe uitvoerbaar dit is om ’n kinetiese model van Plasmodium glikolise te konstrueer en te valideer. Die uitvoerbaarheid van die konstruksie en validering van die kinetiese model was geasseseer op grond van die vermoë om: i) parasietkulture te kweek en genoegsame parasiete, wat in die aseksuele fase is, te isoleer sodat ensiembepalings en bestendige toestand-bepalings gedoen kan word, ii) kinetiese parameters soos Km - en Vmax-waardes vir elke glikolitiese ensiem, hetsy vanuit literatuur of eksperimentele werk, te verkry, iii) glikolitiese fluksie te meet, iv) glikolitiese intermediaatkonsentrasies te bepaal, v) ’n kinetiese model van die bepaalde kinetiese parameters op te stel en vi) die model te valideer met glikolitiese flukswaardes en metaboliet- konsentrasies wat in die bestendige toestand verkry is. Elk van die bogenoemde kriteria was met sukses in hierdie studie aangespreek. Ter opsomming, die eksperimenteel bepaalde kinetiese parameters en glikolietiese flukswaardes was gebruik om onderskeidelik ’n gedetaileerde kinetiese model te konstrueer en gedeeltelik te valideer. Daar was getoon dat verdere validering van die model deur middel van bestendige toestand metabolietkonsentrasies moontlik is met die ontwikkeling van ’n geskikte protokol om glikolitiese intermediaatkonsentrasies te meet. Die model, soos opgestel in hierdie studie, kan moontlik ’n belangrike rol speel om teikens vir nuwe malaria teen-middels te identifiseer en om gasheer-parasiet interaksies en glikolitiese regulering beter te verstaan. Kinetic model Dissertations -- Biochemistry Theses -- Biochemistry Glycolysis Malaria -- Treatment
105	The influence of Rooibos (Aspalathus linearis) on adrenal steroidogenic P450 enzymes Perold, Helene 03 1900 (has links) Thesis (MSc (Biochemistry))--University of Stellenbosch, 2009. / This study: 1. Describes the preparation of unfermented and fermented rooibos methanol and aqueous extracts. 2. Investigates the influence of unfermented and fermented rooibos methanol and aqueous extracts on the binding of natural steroid substrates to ovine adrenal microsomal cytochrome P450 enzymes, demonstrating that the binding of natural steroids is inhibited in the presence of rooibos extracts. 3. Describes an assay demonstrating the inhibitory effect of rooibos extracts on the catalytic activity of cytochrome 17α-hydroxylase (CYP17) and cytochrome 21-hydroxylase (CYP21) in ovine adrenal microsomes. 4. Investigates the influence of unfermented and fermented rooibos methanol extracts on the catalytic activity of individual cytochrome P450 enzymes – CYP17 and baboon CYP21, that are expressed in COS1 cells. 5. Demonstrates that fractions of the unfermented rooibos methanol extract inhibits the binding of natural steroid substrate to microsomal cytochrome P450 enzymes as well as the catalytic activity of baboon CYP21 expressed in COS1 cells. 6. Investigates the inhibitory influence of individual rooibos flavonoids on the catalytic activity of baboon CYP21 expressed in COS1 cells. Aspalathus linearis Cytochrome P-450 Adrenal steroidogenesis Flavonoids Enzymes Metalloenzymes Dissertations -- Biochemistry Theses -- Biochemistry
106	An investigation of the role of phosphorylation at Ser211 of the glucocorticoid receptor in ligand-specific transcriptional regulation Stubsrud, Elisabeth 12 1900 (has links) Thesis (MSc (Biochemistry))--University of Stellenbosch, 2005. / Endogenous glucocorticoids (GCs) modulate many physiological functions in the human body and synthetic GCs are the most effective therapy in the treatment of inflammation, autoimmune and endocrine disorders. However, the long-term usage of synthetic GCs is associated with severe side-effects. GCs mediate their effects through the ligand-dependent transcription factor, the glucocorticoid receptor (GR), either by causing an increase (transactivation) or a decrease (transrepression) in gene transcription. The bioactivity of a ligand in GR-mediated transcriptional regulation is established by a transcriptional doseresponse curve, where the potency (EC50 value) and the efficacy (maximal response) of the ligand are determined. A central question is how different GR ligands elicit their differential physiological responses for the same gene in the same cell. The main aim of this thesis is to investigate if the phosphorylation of GR at serine 211 (Ser211) correlates with the potency and/or efficacy of a particular ligand in transactivation and transrepression of gene expression. Dissertations -- Biochemistry Theses -- Biochemistry Phosphorylation Glucocorticoids -- Therapeutic use Ligands (Biochemistry) Gene expression
107	Effects of neutralising interleukin-6 on glucocorticoid-mediated adaptations to stress in rat skeletal muscle and liver Wilson, Nathaniel W. 12 1900 (has links) Thesis (MSc)--Stellenbosch University, 2005. / ENGLISH ABSTRACT: This study (2 x 2 factor design) describes an investigation into the physiological interaction between the peripheral endocrine and cytokine systems after the organism has been exposed to psychological stress. An in vivo rodent model with two interventions was used: (1) mild psychological stress (immobilisation for 2 hours per day, for 4 days); (2) an antiinterleukin (IL)-6-antibody injection. Thirty-nine male Wi star rats were divided into 4 groups and given either the antibody (CA, control antibody) or stress (IP, immobilisation placebo), or both (IA, immobilisation antibody), or neither (CP, control placebo). Antibody and placebo (saline) were injected intraperitoneally. Differences between groups for the following parameters were determined in blood or metabolic tissues, viz. skeletal muscle and liver: 1) corticosterone concentrations, 2) glucocorticoid receptor (GR) binding capacity and 3) activities of metabolic enzymes, tyrosine aminotransferase (TAT) and glutamine synthetase (GS). Groups lP and lA showed a significant loss in body mass (CP vs. lP, p<O.01; CA vs. lA, p<O.001), indicating a main effect of stress. The corticosterone concentrations of only group lP were significantly elevated compared to that of group CP (CP vs. lP, p<O.01), again indicating a main effect of stress. All three intervention groups (CA, lP, lA) had decreased GR binding capacity, with group lA showing a statistically greater decrease (CP vs. CA, p<O.05; IP vs. IA, p<O.01; CP vs. IP, p<O.001; CA vs. IA, p<O.001), indicating main effects of stress and antibody treatment. In groups IP and IA increased activities of both enzymes (TAT and GS) were measured (main effect of stress), with IA again showing the greatest statistically significant increase for both enzymes. The liver tissue displayed greater sensitivity to the stress and antibody regimes. This study provides the first conclusive in vivo evidence for IL-6 modulation of glucocorticoid action in peripheral tissues in response to mild psychological stress. / AFRIKAANSE OPSOMMING: Hierdie studie (met 'n 2 X 2 faktorontwerp) beskryf 'n ondersoek oor die fisiologiese interaksie tussen die perifere endokrien- en sitokiensisteme in organismes blootgestel aan psigologiese stres. Daar word gebruik gemaak van 'n in vivo-rotmodel met twee intervensies: (1) matige psigologiese stres (immobilisering vir 2 uur per dag vir 4 dae); (2) 'n anti-interleukin (IL)-6-antiliggaam inspuiting. Nege-en-dertig manlike Wistar rotte is in vier groepe verdeel en het óf antiliggaam (CA, antiliggaam kontrole), óf stres (IP, immobilisasie placebo), óf beide stres en antiliggaam (lA, immobilisasie antiliggaam) of geen behandeling ontvang (CP, placebo kontrole). Die antiliggaam- en placebo (soutoplossing)- inspuitings is intraperitoneaal toegedien. Verskille tussen die groepe van die volgende parameters, in metaboliese weefsels (skeletspier en lewer), was bepaal: 1) kortikosteroon konsentrasies, 2) glukokortikoïed reseptor (GR) bindingskapasiteit en 3) aktiwiteite van die metaboliese ensieme, tirosien aminotransferase (TAT) en glutamien sintetase (GS). Groepe IP en IA het 'n beduidende afname in gewig getoon (CP vs. IP, p<O.01;CA vs. IA, p<O.001), wat 'n hoof-effek van stres aandui. Die kortikosteroon konsentrasies van slegs IP het beduidend toegeneem in vergelyking met CP (CP vs. IP, p<O.01),wat weereens 'n hoof-effek van stres aandui. AI drie intervensiegroepe (CA, IP, IA) het verlaagte GR bindingskapasiteit getoon, met lA wat 'n groot statistiese afname getoon het (CP vs. CA, p<O.05; IP vs. IA, p<O.01;CP vs. IP, p<O.001;CA vs. IA, p<O.001),wat hoof-effekte van beide stres en antiliggaam-behandeling aandui. In groepe IP and IA is toenames in beide ensiemaktiwiteitvlakke (TAT en GS ensieme) getoon (hoof-effek van stres), met IA wat weereens die grootste toename gewys het. Die lewer het ook verhoogde sensitiwiteit tot die stres- en antiliggaamregimente. Hierdie studie lewer die eerste daadwerklike in vivo bewyse vir IL-6 modulering van glukokortikoïedaksie in perifere weefsels na reaksie op psigologiese stres. Interleukin-6 Glucocorticoids Cytokines Rats -- Effect of stress on Neurochemistry Dissertations -- Biochemistry Theses -- Biochemistry
108	Pichia pastoris : a viable expression system for steroidogenic cytochrome P450 enzymes Wepener, Ilse 12 1900 (has links) Thesis (MSc)--Stellenbosch University, 2005. / ENGLISH ABSTRACT: This study describes: I. The cloning of the CVP 19 gene and construction of the intracellular expression vector pPIC3.5K-CYP19. II. The transformation of the yeast, Pichia pastoris with the constructed vector. III. The expression ofP450arom in Pichia pastoris. IV. The determination of enzyme activity and isolation of the protein from the Pichia pastoris cells. V. The expression of P450c 17 in Pichia pastoris. VI. The determination of kinetic constants for the conversion of progesterone to 170H-progesterone and 160H-progesterone by P450c17. / AFRIKAANSE OPSOMMING: Hierdie studie beskryf: I. Die klonering van die CVP 19 geen en die konstruksie van die intrasellulêre uitdrukkingsplasmied, pPIC3.5K-CYPI9. II. Die transformasie van die gis, Pichia pastoris, met die gekonstrueerde plasmied. III. Die uitdrukking van aromatase in Pichia pastoris. IV. Die bepaling van ensiemaktiwiteit en die isolering van die proteïen vanuit Pichia pastoris. V. Die uitdrukking van P450c17 in Pichia pastoris. VI. Die bepaling van kinetiese konstantes vir die omsetting van progesteroon na 170H-progesteroon en 160H-progesteroon deur P450c17. Pichia pastoris Genetic vectors Yeast fungi Cytochrome P-450 Dissertations -- Biochemistry Theses -- Biochemistry
109	Evaluation of antioxidant and free radical scavenging activities of honeybush tea (Cyclopia) Hubbe, Michelle E. (Michelle Elzabet) 12 1900 (has links) Thesis (MSc)--Stellenbosch University, 2000. / ENGLISH ABSTRACT: Please refer to fulltext for abstract / AFRIKAANSE OPSOMMING: Sien asb volteks vir opsomming Tea -- Therapeutic use Free radicals (Chemistry) -- Inhibitors Antioxidants Dissertations -- Biochemistry Theses -- Biochemistry
110	Experimental supply demand analysis of yeast fermentative free energy metabolism : an in vivo and in situ investigation Smith, Justin Alan 12 1900 (has links) Thesis (MSc (Biochemistry))--University of Stellenbosch, 2010. / Please refer to full text for abstract Supply demand analysis Nuclear magnetic resonance spectroscopy Metabolism Saccharomyces cerevisiae Dissertations -- Biochemistry Theses -- Biochemistry Biochemistry

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