Arginine methylation in the E2F1 pathway

Zheng, Shunsheng

January 2013

The E2F1 pathway plays an important role in coordinating early cell cycle progression. Deregulation of the E2F1 pathway, which may be brought about by somatic mutations in genes such as INK4A, RB1 and CDK4, is found in a majority of cancers. The transcription factor E2F1 is able to activate genes involved in proliferation as well as apoptosis, but the mechanisms that govern these opposing biological effects remain poorly understood. In this study, I would describe how E2F1 activity can be regulated by two novel post-translational modifications which result in different functional consequences. It was found that PRMT1 asymmetrically methylates E2F1 at R109, while PRMT5 symmetrically methylates R111 and R113. The symmetric dimethyl marks on E2F1 promoted the recruitment of Skp2, a component of the E3 ubiquitin ligase complex, which coincided with decreased protein stability and transcriptional activity, as well as enhanced cell proliferation and reduced apoptosis. The asymmetric dimethyl marks on E2F1 was found to hinder symmetric dimethylation, leading to reduced cell proliferation and enhanced apoptosis. The competition between PRMT1 and PRMT5 at the E2F1 RG-rich motif was found to be regulated by the adjacent cyclin A binding site. Induction of DNA damage, which resulted in decreased cyclin A level, corresponded to an increase in PRMT1 and decrease in PRMT5 binding. This study uncovers a new mechanism in E2F1 regulation and establishes the importance of arginine methylation in cell proliferation and apoptosis.

616.994

Arylamine N-Acetyltransferases from mycobacteria : investigations of a potential target for anti-tubercular therapy

Abuhammad, Areej

January 2013

Reactivation of latent infection is the major cause of tuberculosis (TB). Cholesterol is a critical carbon source during latent infection. Catabolism of cholesterol contributes to the pool of propionyl-CoA, a precursor that is incorporated into cell-wall lipids. Arylamine N-acetyltransferase (NAT) is encoded within a gene cluster that is involved in the sterol-ring degradation and is essential for intracellular survival. NAT from M. tuberculosis (TBNAT) can utilise propionyl-CoA and therefore was proposed as a target for TB-drug development. Deleting the nat gene or inhibiting the NAT enzyme prevents intracellular survival and results in depletion of cell-wall lipids. NAT inhibitors, including the piperidinol class, were identified by high-throughput screening. The insolubility of recombinant TBNAT has been a major limitation in pursuing it as a drug target. Subcloning tbnat into a pVLT31 vector resulted in a yield of 6-16 mg/litre-bacterial-culture of pure-soluble recombinant TBNAT. The increased yield allowed for extensive screening for crystallisation conditions. However, since a structure was not obtained, the model NAT from M. marinum (MMNAT) was employed to further understand NAT as a target. Screening against a panel of Acyl-CoA cofactors showed that MMNAT can also utilise propionyl-CoA. The MMNAT structure in complex with the high affinity substrate hydralazine was determined (2.1 Å) and the architecture of the arylamine pocket was delineated. A novel mechanism for the acetylation reaction of hydralazine has emerged. It is proposed that the acetyl group is transferred from acetyl-CoA to the heterocyclic aromatic nitrogen of hydralazine, which explains the immediate cyclisation of the acetylated metabolite into an N-methyltriazolophthalazine. By employing mass spectroscopy, enzyme assays, computational docking and structural studies, a covalent mechanism of inhibition by the piperidinol class was established, and the inhibitor-binding pocket was identified. Inhibitors with new scaffolds were identified using the in silico 3D-shape screening and thermal shift assay.

616.99

Actions of NAADP and other agents in cardiac myocytes

Bayliss, Rebecca Anne

January 2014

Modulation of cardiac rate and contraction through calcium-dependent and independent means are of central import to the ability of an organism to adapt to its environment. Nicotinic acid adenine dinucleotide phosphate (NAADP) is a potent calcium-releasing second messenger across a broad range of tissues and organisms. In cardiac myocytes, NAADP is thought to stimulate calcium release from acidic stores which then bolsters filling and release during CICR. Questions remain: as to the potential need for amplification to generate the size of responses observed and the physiological role of the NAADP pathway. In contractile myocytes, photorelease of NAADP caused significant increase in calcium transient amplitude and velocity of transient upstroke and decay. Effects were absent during NAADP photorelease in the presence of Ned-19 or CaMKII inhibitors. Cellular calcium transient responses to β-adrenergic stimulation were significantly reduced in the presence of inhibitors of the NAADP pathway. These data support the hypothesis that NAADP-induced calcium release is relevant during adrenergic stimulation and requires amplification through CaMKII. Rate modulation at the sino-atrial node can occur through the hyperpolarisation-activated current I_(f). Basal cardiac rate is a major determinant in cardiac mortality and compounds which specifically affect rate have clinical utility. A compound currently used to treat inflammatory conditions was found to have a significant rate-reducing effect in sino-atrial node preparations mediated by inhibition of I_(f). Apelin, an endogenous peptide, has been reported to potently generate improved contractility without development of hypertrophy. Study of its effects in single cells have provided conflicting information, at least in part because of the difficulty in working with the compound. A method for the consistent observation of apelin-mediated contractile responses is presented, focusing on the timecourse of cell contraction. These observations suggest a role for apelin in both inotropy and lusitropy and will enable further research.

612.1

Novel Ca2+ signalling pathways in vascular smooth muscle and endothelial cells

Lim, Chloe Siew Suan

January 2014

Novel Ca²⁺ signalling pathways in both endothelial cells and smooth muscle cells of rat small resistance arteries were investigated using a combination of confocal imaging, isometric tension recordings, and electrophysiology to study freshly isolated arteries and cells. We first examined the hypothesis that hyperpolarization could alter endothelial cell Ca²⁺ events. Hyperpolarization evoked by direct opening of K_ATP channels in the smooth muscle with levcromakalim triggered an increase in the frequency of Ca²⁺ events in the endothelium of rat cremaster arterioles. These Ca²⁺ events were discrete in nature, requiring subcellular regions of interest to reliably identify them. Opening of K_ATP channels indirectly through β-adrenoceptor stimulation with isoprenaline, caused a similar increase in the frequency of endothelial cell Ca²⁺ events in rat mesenteric third order arteries. These events also had a similar, focal profile. Pharmacological investigation suggested that the response to isoprenaline was receptor-mediated, and dependent on Ca²⁺ influx and opening of K_ATP channels. The presence of β-adrenoceptors on endothelial cells was confirmed using fluorescently-tagged β-adrenoceptor ligands, which showed punctate labelling in smooth muscle and endothelial cells of rat mesenteric arteries. Freshly isolated endothelial cells also showed Ca²⁺ increases to isoprenaline, although this was not consistently observed. Following on from the observed endothelial cell Ca²⁺ response to hyperpolarization, we tested the hypothesized involvement of hyperpolarization-activated, cyclic nucleotide-gated (HCN) channels using the channel inhibitor, ZD7288. Pre-treatment with ZD7288 (1 μM) reduced both the endothelial cell Ca²⁺ response to isoprenaline (in mesenteric arteries) and levcromakalim (in cremaster arterioles). HCN channel subtypes were identified in cremaster arterioles through immunolabelling. We also observed an interesting effect of higher concentrations of ZD7288 to potentially inhibit K⁺ channels, including endothelial cell KCa channels, since hyperpolarization to isoprenaline, levcromakalim or acetylcholine (ACh) was reduced by 10 μM ZD7288, and relaxation to ACh was partially inhibited. ACh-mediated relaxation was also partially inhibited by the clinically used HCN channel blocker, ivabradine (0.3-30 μM). Finally, we identified an interaction of the Ca²⁺-releasing second messenger nicotinic acid adenine dinucleotide phosphate (NAADP) with BKCa channels in the smooth muscle. NAADP-mobilised Ca²⁺ has been reported to interact with ryanodine receptors hence we hypothesized an interaction with BK_Ca channels via Ca²⁺ sparks. We found that NAADP-AM relaxed and hyperpolarized rat mesenteric arteries, which was blocked by iberiotoxin (BK_Ca channel inhibitor) and high extracellular [K⁺] (45 mM). Furthermore, NAADP increased paxilline-sensitive K⁺ currents and the frequency and amplitude of spontaneous transient outward currents (STOCs) in freshly isolated vascular smooth muscle cells patched in the whole-cell configuration, further supporting an action at BK_Ca channels. All together these data identify novel Ca²⁺ signalling pathways in resistance arteries that are both activated by and promote hyperpolarization, which is a key determinant of vascular tone.

615.1

Antimycobacterial agents : a study of Liposomal-Encapsulation, comparitive permeability of bronchial tissue and in vitro activity against mycobacterium tuberculosis isolates

Van Rensburg, Lyne

12 1900

Thesis (MScMedSc)--Stellenbosch University, 2012. / Includes bibliography / ENGLISH ABSTRACT: In this thesis, research results are reported on the role of dipalmitoyl phosphatidyl choline (DPPC) and DPPC-liposomes on the in vitro permeability characteristics of various antimycobacterial drugs across porcine bronchial tissue. The permeability flux values of the different compounds (isoniazid, ofloxacin and moxifloxacin) and their relevant DPPC formulations were determined using a continuous flow through perfusion system. Mean steady state flux values were compared statistically by means of a t-test at a significance level of 5% as well as an F-test using whole curve comparisons. The results indicated that the different formulations of drug and their DPPC combinations retard the permeation of drug through bronchial tissue. However, moxifloxacin permeation was significantly enhanced when in a DPPC-liposomal formulation. These results demonstrate the important role that molecular weight, electrostatic charge, partitioning of the molecules in DPPC and DPPC-liposomes play in transmembrane diffusion. In addition, the effect of individual drugs and their DPPC combinations on the surface tension lowering property of DPPC was evaluated. The results obtained showed minimal decreases in the surface tension lowering capability of DPPC; however, the minimal increases in surface tension do not alter the integrity of DPPC to a large extent. Drug susceptibility testing of Mycobacterium tuberculosis cultures against the individual antitubercular drugs and their DPPC combinations was done by using the Radiometric BACTEC 460TB™ system. Drug-entrapped DPPC liposomes were tested at concentrations comparable to their relative minimum inhibitory concentrations (MIC). The results for the BACTEC assay indicated that the mycobacteria were susceptible to the developed drug entrapped liposomes; of which their encapsulation efficiencies for the relevant drugs were approximately ± 50%. It was concluded that drug-entrapped DPPC liposomes could fulfill the dual role of pulmonary drug delivery and alveolar stabilization due to antiatelectatic effect of DPPC which can improve the distribution of anti-tubercular drugs in the lung / AFRIKAANSE OPSOMMING: Hierdie tesis doen verslag oor navorsingsresultate met betrekking tot die rol van dipalmitoïel-fosfatidiel-cholien (DPPC) en DPPC-liposome in die in vitro-permeasiekenmerke van verskeie antimikobakteriese middels oor vark- brongiale weefsel. Die permeasievloedwaardes van die verskillende verbindings (isoniasied, ofloksasien en moksifloksasien) en hul betrokke DPPC-formules is met behulp van ’n deurlopende-deurvloei-perfusiestelsel bepaal. Gemiddelde vloedwaardes in ’n bestendige staat is statisties vergelyk met behulp van ’n t-toets op ’n beduidendheidsvlak van 5%, sowel as ’n F-toets met behulp van heelkurwevergelykings. Die resultate dui daarop dat die verskillende middelformules en hul DPPC-kombinasies middelpermeasie oor brongiale weefsel vertraag. Tog is die permeasie van moksifloksasien aansienlik versterk in ’n DPPC-liposomale formule. Hierdie resultate bevestig die belangrike rol van molekulêre gewig, elektrostatiese lading, die verdeling van molekules in DPPC sowel as DPPC-liposome in transmembraandiffusie. Daarbenewens is die uitwerking van individuele middels en hul DPPC-kombinasies op die oppervlakspanningsverligtingsvermoë van DPPC beoordeel. Die resultate toon minimale afnames in die oppervlakspanningsverligtingsvermoë van DPPC. Die minimale toenames in oppervlakspanning het egter meestal geen noemenswaardige effek op die integriteit van DPPC gehad nie. Voorts is die vatbaarheid van Mycobacterium tuberculosis-kwekings vir die individuele anti-tuberkulêre middels en hul DPPC-kombinasies met behulp van die radiometriese BACTEC 460TB™-stelsel getoets. Middel-ingeslote DPPC-liposome is getoets in konsentrasies wat met hul relatiewe minimum inhibisiekonsentrasies (MIK) vergelyk kan word. Die resultate van die BACTEC-toets toon dat die mikobakterieë vatbaar was vir die ontwikkelde middel-ingeslote liposome, met ’n enkapsuleringsdoeltreffendheid van ongeveer 50% vir die betrokke middels. Die studie kom tot die gevolgtrekking dat middel-ingeslote DPPC-liposome die dubbele rol van pulmonêre middel-lewering en alveolêre stabilisering kan vervul weens die anti-atelektatiese werking van DPPC, wat die verspreiding van anti-tuberkulêre middels in die long kan verbeter.

Surfactants

Theses -- Pharmacology

Dissertations -- Pharmacology

Theses -- Medicine

Dissertations -- Medicine

Permeability

Liposomes

Medical Sciences, Pharmacology

Evaluation of new therapies in Niemann-Pick type C disease

Al Eisa, Nada

January 2014

No description available.

616.3

The role of catechol-O-methyltransferase (COMT) in hippocampal function

Laatikainen, Linda Maria

January 2010

Catechol-O-methyltransferase (COMT) metabolises catechol-containing compounds, including dopamine. The aim of this thesis was to investigate whether COMT is involved in hippocampal function. This thesis also explored the role of functional polymorphisms within the COMT gene in the pathogenesis of schizophrenia and schizophrenia-related phenotypes. First, as part of a study investigating the role of COMT in schizophrenia, human hippocampal COMT mRNA levels were shown to be neither altered in schizophrenia or bipolar disease, nor affected by COMT genotype. Hence, functional COMT polymorphisms do not appear to operate by altering gross COMT mRNA expression. Importantly, this study showed that COMT is expressed in the human hippocampus. Second, the role of COMT in hippocampal neurochemistry was explored by studying the effect of pharmacological COMT inhibition on catecholamines and metabolites in rat hippocampal homogenates, and extracellularly, using microdialysis. Both demonstrated that COMT modulates hippocampal dopamine metabolism. Thus, hippocampal COMT is of functional significance with respect to dopamine. Third, the effect of COMT inhibition on hippocampus-dependent behaviour was investigated. The results suggested a memory-enhancing effect of pharmacological COMT inhibition on hippocampus-dependent associative and non-associative forms of short-term memory in rats. In contrast, acute COMT inhibition appeared to have no effect on behavioural correlates of ventral hippocampal function i.e. anxiety-like behaviour. In summary, the expression of COMT mRNA in the human hippocampus, as well as the effect of COMT inhibition on rat hippocampal neurochemistry and hippocampus-dependent behaviour provide evidence for a functional role of COMT in the hippocampus. Moreover, changes in COMT activity alter hippocampal dopamine metabolism, which could be a potential mechanism for the role of COMT in hippocampus-dependent short-term memory.

616.89

Analysis of mouse models of insulin secretion disorders

Kaizik, Stephan Martin

January 2010

No description available.

616.4