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Mycolic acid as antigen or analyte in tuberculosisGomes, Monica Nunes 16 July 2008 (has links)
Tuberculosis has become one of the world’s most devastating diseases, with more than two million deaths and eight million new cases occurring annually due to the development of drug-resistant strains of Mycobacterium tuberculosis, the breakdown of the immune system of its host by HIV, lapses in public health programmes and the fact that diagnosis of TB is not 100% reliable. Early, affordable, unsophisticated and accurate diagnosis of TB to facilitate timely and proper treatment has become of highest priority to public health. Mycolic acid (MA) is the major lipid cell wall component of Mycobacterium tuberculosis and is unique to mycobacteria and closely aligned genera. Mycolic acids have been shown to be unique antigens for TB diagnosis and have been utilized in standard serodiagnostic techniques, but sensitivity and specificity was found to be unsatisfactory. Two vastly different techniques were investigated in this study – one making use of antibodies and MA, the other, just MA and its unique physical properties of interaction with other MA using fluorescently labelled MA. In the first approach, Sepharose protein-A was employed to trap patient IgG antibodies. The anti-MA antibodies were then quantified by probing with liposomes containing fluorescently labelled MA. Although it generally worked well, a few false –positive and –negative results were obtained. This assay appeared to be more accurate than the standard ELISA immunoassay but it is more labour intensive and not even remotely as amenable to large-scale screening and automation as ELISA. The second approach is based on the release of fluorescent MA from immobilized liposomes on glass by means of the specific attraction that MA in test liposomes or TB patient serum was perceived to have on the immobilized MA. The end-point measured was the remaining fluorescent MA on the surface. Differences were observed between the control and patients’ sera at a very high dilution but not between the HIV negative, TB positive and HIV positive, TB positive patients. This was merely an exploratory investigation and more work still needs to be done before the test is ready for validation with large numbers of serum samples. If subsequent studies confirm these findings, then this concept may be converted into a simple, rapid and affordable TB diagnostic test or be used in combination with the IAsys affinity biosensor to provide a more thorough diagnosis / Dissertation (MSc (Biochemistry))--University of Pretoria, 2009. / Biochemistry / unrestricted
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Generation of a database of mass spectra patterns of selected Mycobacterium species using MALDI-ToF mass spectrometryOduwole, Elizabeth O. 12 1900 (has links)
Thesis (MScMedSc (Pathology. Medical Microbiology))--Stellenbosch University, 2008. / The genus Mycobacterium is a group of acid–fast, aerobic, slow- growing organisms which include
more than 90 different species. A member of this genus, Mycobacterium tuberculosis, belonging to
the Mycobacterium tuberculosis complex (MTB), is the causative agent of tuberculosis (TB). This
disease is currently considered a global emergency, with more than 2 million deaths and over 8
million new cases annually. TB is the world’s second most common cause of death after
HIV/AIDS. About one-third of the world’s population is estimated to be infected with TB. This
catastrophic situation is further compounded by the emergence of Multi Drug Resistant tuberculosis
(MDR-TB) and in more recent times, Extensive Drug Resistant tuberculosis (XDR-TB). Early
diagnosis is critical to the successful management of patients as it allows informed use of
chemotherapy. Also, early diagnosis is also of great importance if the menace of MDR-TB and
XDR-TB is to be curbed and controlled.
As MTB is highly infectious for humans, it is of paramount importance that TB be diagnosed as
early as possible to stop the spread of the disease. Traditional conventional laboratory procedures
involving microscopy, culture and sensitivity tests may require turnaround times of 3-4 weeks or
longer. Tremendous technological advancement over the years such as the advent of automated
liquid culture systems like the BACTEC® 960 and the MGITTM Tube system, and the development
of a myriad of molecular techniques most of which involves nucleic acid amplification (NAA) for
the rapid identification of mycobacterial isolates from cultures or even directly from clinical
specimens have contributed immensely to the early diagnosis of tuberculosis. Most of these NAA
tests are nevertheless fraught with various limitations, thus the search for a rapid, sensitive and
specific way of diagnosing tuberculosis is still an active area of research. The search has expanded to areas that would otherwise not have been considered ‘conventional’ in diagnostic
mycobacteriology. One of such areas is mass spectrometry.
This study joins the relatively few studies of its kind encountered in available literature to establish
the ground work for the application of mass spectrometry, specifically Matrix Assisted Laser
Desorption/Ionization Time-of-Flight Mass Spectrometry (MALDI-ToF MS) in the field of
diagnostic mycobacteriology. This is an area which is in need of the speed, sensitivity and
specificity that MALDI-ToF technique promises to offer. Since this technology is still in its
infancy, the use of utmost care in the preparation of reagents, and the handling and storage of the
organisms used to generate reference mass spectra for the database cannot be overemphasized.
Similarly, the optimization of certain crucial experimental factors such as inactivating method and
choice of matrix is of paramount importance.
The main aim of this thesis was to generate a database of reference mass spectra fingerprints of
selected (repository) Mycobacterium species. This necessitated the standardization of an
experimental protocol which ensured that experimental factors and the various instrument
parameters were optimized for maximum spectra generation and reproducibility. A standard
operating procedure (SOP) for generating the database of reference mass spectra finger print of
selected Mycobacterium species was developed and used to investigate the ability of the database to
differentiate between species belonging to the same clinical disease complex as well as the nontuberculosis
complex.
The findings of this study imply that if the defined protocol is followed, the database generated has
the potential to routinely identify and differentiate (under experimental conditions) more species of Mycobacterium than is currently practical using PCR and its related techniques. It is therefore a
realistic expectation that when the database is clinically validated and tested in the next phase of the
study, it will contribute immensely to the diagnosis of tuberculosis and other mycobacterioses. It
will also aid in the identification of emerging pathogens particularly amongst the non-tuberculous
mycobacteria.
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Pharmacogenetics of Arylamine N-acetyltransferase genes in South African populationsWerely, Cedric J. 12 1900 (has links)
Thesis (PhD)--Stellenbosch University, 2012. / Includes bibliography / ENGLISH ABSTRACT: Tuberculosis (TB) has been declared a global health emergency by the World Health Organisation, and consequently there is an urgency to develop improved methods of diagnosis and treatment. Despite the current TB epidemic, the disease can be treated effectively using isoniazid (INH) in combination with other antibiotics. However, INH is inactivated in the body by certain drug metabolising enzymes, which may reduce the efficacy of TB treatment. The activity of these drug metabolising enzymes, called NAT, are in turn reduced by nucleotide changes (SNPs) in the gene. These genetic variants (alleles) have been correlated with the rapid- (FA), intermediate- (IA), and slow acetylation (SA) enzymatic activity, and one is therefore able to investigate potential phenotypic effects via genotypic analyses.
We investigated these genetic changes in the NAT1 and NAT2 genes in individuals from the local Coloured community (SAC) since this group has one of the highest TB incidences in the country. NAT2 is primarily responsible for the inactivation of INH, whilst NAT1 metabolises para-aminosalicyclic acid (PAS) which is used in the treatment of drug resistant TB.
The NAT2 results indicated that the NAT2 alleles were not equally represented in three local ethnic groups studied, and subsequently the rapid, intermediate and slow acetylation activity reflected these differences. However, the relative frequency of these variants in the SAC and Caucasian groups were relatively low. These differences require further investigation to determine their overall relevance to the NAT2 activity differences between groups.
In the case of the NAT1 analysis we also observed differences in the relative frequency of various NAT1 alleles between Caucasian and SAC individuals. However, many of these NAT1 SNPs and alleles have not as yet been characterised, so effects of these variants are currently unknown. Interestingly, the NAT1*4 and NAT1*10 alleles were the most prevalent NAT1 alleles in both Caucasians and SAC. The NAT1*4 allele exhibits the rapid NAT1 activity, whilst the activity of the NAT1*10 allele is currently subject to ongoing debate. In this respect, the analysis of NAT1 continues to be a topic for ongoing research.
These results, observed for the NAT genes, underscore the importance of doing genetic analyses in local ethnic groups, since these differences may vary significantly between the groups. / AFRIKAANSE OPSOMMING: Tuberkulose (TB) is deur die Wêreldgesondheidsorganisasie (WGO) tot 'n globale gesondheidsnood verklaar en derhalwe is dit noodsaaklik dat nuwe, verbeterde diagnostiese metodes ontwikkel word, wat tot meer effektiewe behandeling kan lei. Ten spyte van die huidige TB-epidemie, kan die siekte doeltreffend behandel word deur middel van isoniasied (INH), in kombinasie te met ander antibiotika. INH kan egter geïnaktiveer word deur sekere ensieme in die liggaam, met die gevolg dat INH nie meer effektief is nie in die behandeling van TB. Die aktiwiteit van hierdie ensiem, die sogenaamde NAT2 (Arielamien N-asetieltransferase 2) ensiem, word op sy beurt beïnvloed deur sekere nukleotied veranderings (SNPs) in die geen. Hierdie genetiese veranderings gekorreleer met ensiemaktiwiteitsveranderings (geklassifiseer as vinnig (FA) Intermediêr (IA) en stadig (SA)), wat mens in staat stel om potensiële fenotipiese effekte te ondersoek deur middel van genotipiese analise.
Ons het hierdie genetiese veranderings ondersoek in die NAT1 en NAT2 gene in individue van die Kleurling-gemeenskap (SAC) omdat díe bevolkingsgroep die hoogste voorkoms van TB in die land het. NAT2 is primêr verantwoordelik vir die inaktivering van INH, terwyl NAT1 para-amienosalisilaat (PAS) inaktiveer, wat gebruik word in die behandeling van midel-weerstandige TB.
Die NAT2 resultate dui daarop dat die allele van die NAT2 geen nie eweredig verteenwoordig wasin die drie etniese groepe nie en derhalwe word die vinnige (FA), intermediêre (IA) en stadige (SA) ensiemaktiwiteite deur hierdie verskille weerspieël. Hoewel die teenwoordigheid van hierdie variante relatief laag was in die SAC en Koukasiër gemeenskappe, is verdere studies nodig om die omvang van hierdie verskille te bepaal ten onsigte van NAT2 aktiwiteit tussen groepe.
In die geval van die NAT1 analise het ons verskille waargeneem in die voorkoms van verskeie NAT1 allele tussen Koukasiese en SAC individue. Baie van hierdie NAT1 SNPs is egter nog nie gekarakteriseer nie, en derhalwe is die effek van hierdie NAT1 variante onbekend. Die NAT1*4 en NAT1*10 allele was die prominentste NAT1 alleel in beide Koukasiërs en SAC. Die NAT1*4 is betrokke by vinnige NAT1 aktiwiteit, terwyl die effek van die NAT1*10 alleel nog onderhewig is aan aktiefwe debat. In hierdie verband, is die studie van NAT1 steeds 'n onderwerp vir toekomstige navorsing.
Hierdie resultate, wat vir die NAT gene waargeneem is, beklemtoon die belangrikheid van verdere genetiese analises in plaaslike etniese groepe, aangesien hierdie verskille beduidend kan wees tussen die verskillende groepe.
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