Factors influencing delay in seeking tuberculosis treatment in Belet-Weyne district, Somalia/

Nur, Abubakar Yusuf.

Unknown Date

Thesis (M. PH) -- University of the Western Cape, 2008. / Includes bibliographic references (leaves 46-49).

Badger social networks and their implications for disease transmission

Steward, Lucy Charlotte

January 2016

Diseases that infect wildlife populations pose a significant threat to public health, agriculture, and conservation efforts. The spread of these diseases can be influenced by the social structure of the population, and therefore often need to be accounted for in disease models. In this thesis I use high-resolution contact data to explore the social structure of a high-density population of European badgers (Meles meles). I explore how this structure might influence the spread of bovine tuberculosis (bTB), a debilitating disease of cattle for which badgers are a wildlife reservoir. Denning and home range data collected using radio tracking is also used to determine how this social structure is related to badger space use. I use social network analysis to identify the community structure of the badger population, revealing that badgers interact in fewer, more distinct groups than previously assumed. This is likely to inhibit the spread of disease through the population, given that the probability of infection entering a new social group will be reduced. However, among-group contact is still found to occur even between the most isolated groups. I show that this among-group contact is more likely to occur between less related individuals, possibly suggesting that breeding behaviour may drive among-group contact as a mechanism for inbreeding avoidance. To gain additional insight into this among-group contact, I determine how badger spatial behaviours are related. I show that the use of dens (setts) away from the social group’s main sett (outlier setts) in the spring is associated with extra-territorial ranging. I also show that this extra-territorial ranging is associated with more central network positions. The seasonality of this behaviour further suggests that this may be related to breeding activity. These findings suggest that behaviours associated with extra-group ranging may increase the risk of acquiring and transmitting infection. Therefore, use of outlier setts in the spring could act as a spatial proxy to identify high-risk individuals for disease spread, offering potential targets for disease control. Finally, I discuss the implications of these findings in regard to what they reveal about badger behaviour, disease transmission, and the design of effective disease control strategies. The importance of understanding population social structure for the study of wildlife disease in general is also discussed.

636.089

Understanding the evolution and function of the mycobacterial Type VII ESX secretion systems (T7SSs) and their substrates

Newton-Foot, Mae

03 1900

Thesis (PhD)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Mycobacterium tuberculosis, the causative agent of tuberculosis disease, contains five copies of the ESAT-6 gene cluster, each encoding a dedicated ESX protein secretion system which has been defined as a novel Type-VII secretion system. The ESX have been implicated in virulence and survival of M. tuberculosis, and as such present a promising target for novel treatment interventions. This study has investigated the evolution, regulation, functions and substrates of the ESX secretion systems. The evolutionary history of the ESX secretion systems was established using in silico and phylogenetic analyses of the sequenced mycobacteria, closely related actinomycetes and WXG-FtsK clusters from other bacteria. The ESX-4 gene cluster appears to have evolved with the start of the evolution of the mycomembrane, followed by the duplication of ESX-3, which marks the evolution of the genus Mycobacterium. The ESX-1 duplication occurred next, followed by ESX-2 and ESX-5 which occur only in the slow growing mycobacteria. Five additional ESX gene clusters were newly identified and named ESX-P1 to - P5. These additional ESX clusters occur, or are predicted to occur, on plasmid DNA, and appear to be progenitors of the genomic ESX-1 to -5 gene clusters, possibly indicating a plasmid-mediated mechanism of ESX duplication and evolution. The promoters expressing the M. tuberculosis ESX-1 to ESX-5 secretion systems were investigated using a promoter probe assay, and characterised using in silico analyses. Promoters were identified for ESX-1, -2, -3 and -5. The functions of the mycobacterial ESX secretion systems were investigated using whole proteomic, secretomic and metabolomic analyses of the fast growing, non-pathogenic M. smegmatis, which contains three of the ESX secretion systems, ESX-1, 3, and 4. ESX knockout strains of M. smegmatis were generated and used in comparative analyses with wild-type M. smegmatis. ESX-1 was highly expressed in wild-type M. smegmatis, however no specific pathways showed considerable variation when ESX-1 was deleted. Deletion of ESX-3 resulted in substantial variation to multiple cellular pathways, including amino acid, carbohydrate and fatty acid metabolism and oxidative stress. These and other differences indicate possible perturbed polyamine metabolism in the absence of ESX-3. Although no ESX-4 protein components were detected in wild type M. smegmatis, the ESX-4 knockout displayed substantial proteomic variation. Reduced levels of ESX-3 component proteins in the ESX-4 knockout suggest that ESX-4 influences ESX-3 expression. Other variation linked ESX-4 to cell division and molybdenum metabolism. Secretomic analyses of wild-type and ESX knockout M. smegmatis strains were used to search for novel substrates of the M. smegmatis ESX secretion systems. No prototype ESX substrates were identified in the culture filtrates, however 10 possible substrates of the ESX-1, -3 and -4 secretion systems, containing the general ESX secretion signal, YxxxD/E, were identified. The functions of some of these proteins correlate with the ESX functions identified in the proteomic and metabolomic analyses. This study sets the groundwork for future work in understanding the functional roles and expression patterns of these ESX secretion systems and in using global proteomic and metabolomic analyses to understand cellular changes in response to specific signals or genomic changes. / AFRIKAANSE OPSOMMING: Mycobacterium tuberculosis, die veroorsakende agent van tuberkulose, bevat vyf kopieë van die ESAT-6 geengroep, wat elk 'n toegewyde ESX proteïen sekresiesisteem, omskryf as 'n nuwe Tipe-VII sekresiestelsel, kodeer. Die ESX sekresiesisteme is betrokke by virulensie en oorlewing van M. tuberculosis, en is dus belowende teikens vir nuwe behandelings. Hierdie studie het die evolusie, regulasie, funksies en substrate van die ESX sekresiesisteme ondersoek. Die evolusionêre geskiedenis van die ESX sekresiesisteme is bepaal met behulp van in silico en filogenetiese analises van die volgordebepaalde mikobakterieë, nouverwante actinomisete en WXG-FtsK groepe van ander bakterieë. Die ESX-4 geengroep het saam met die evolusie van die mikomembraan ontwikkel, gevolg deur die duplisering van ESX-3, wat die evolusie van die genus Mycobacterium merk. Die ESX-1 duplisering het volgende plaasgevind, gevolg deur ESX-2 en ESX-5, wat slegs in die stadiggroeiende mikobakterieë voorkom. Vyf addisionele ESX geengroepe is nuut geïdentifiseer in hierdie studie en is ESX-P1 tot -P5 genoem. Hierdie addisionale ESX groepe is op, of word voorspel om op, plasmied DNS voor te kom, en mag voorlopers van die genomiese ESX-1 tot -5 geengroepe wees, wat moontlik dui op 'n plasmied-gemedieërde meganisme van ESX duplisering en evolusie. Die promoters wat verantwoordelik is vir die uitdrukking van die M. tuberculosis ESX-1 tot ESX-5 sekresiesisteme is ondersoek deur middel van 'n promoter aktiwiteitstoets, en gekarakteriseer deur in silico analises. Promoters is geidentifiseer vir ESX-1, -2, -3 en -5. Die funksies van die mikobakteriële ESX sekresiesisteme is ondersoek deur proteomiese, sekretomiese en metabolomiese analises van die vinnig-groeiende, nie-patogeniese mikobakterium M. smegmatis, wat ESX- 1, -3 en -4 sekresiesisteme besit. ESX uitslaanmutante van M. smegmatis is gegenereer en gebruik in die vergelykende analises met die wilde-tipe M. smegmatis. ESX-1 is hoogs uitgedruk in wilde-tipe M. smegmatis, maar geen spesifieke metabolise weë het aansienlike variasie getoon wanneer ESX-1 verwyder is. Delesie van ESX-3 het gelei tot aansienlike variasie in verskeie sellulêre weë, insluitend aminosuur-, koolhidraat- en vetsuur-metabolisme en oksidatiewe stres. Hierdie en ander verskille dui op moontlike versteurde poli-amien metabolisme in die afwesigheid van ESX-3. Hoewel geen ESX-4 proteïenkomponente opgespoor is in wilde-tipe M. smegmatis nie, vertoon die ESX-4 uitslaanmutant aansienlike proteomiese variasie. Laer vlakke van ESX-3 proteïne dui daarop dat ESX-4 die uitdrukking van ESX-3 beinvloed. Baie van die proteomiese variasie kan geassosieer word met verlaagde ESX-3 uitdrukking, maar ander variasie mag ESX-4 koppel met seldeling en molibdeen metabolisme. Sekretomiese analises van wilde-tipe en ESX uitslaanmutant M. smegmatis stamme is gebruik om nuwe substrate van die M. smegmatis ESX sekresiesisteme te identifiseer. Geen prototipe ESX substrate is geïdentifiseer in die kultuurfiltraat, maar 10 moontlike substrate van die ESX-1, -3 en -4 sekresiesisteme, met die algemene ESX sekresiesein, YxxxD/E, is geïdentifiseer. Die funksies van sommige van hierdie proteïene korreleer met die funksies geïdentifiseer in die proteomiese en metabolomiese analises. Hierdie studie stel die grondslag vir toekomstige werk in die begrip van die funksionele rol en uitdrukkingspatrone van die ESX sekresiesisteme en in die gebruik van globale proteomiese en metabolomiese analises om sellulêre veranderinge in reaksie op spesifieke seine of genomiese veranderinge te verstaan. / The National Research Foundation / German Academic Exchange Service (DAAD), / The Harry Crossley Foundation / The Ernst and Ethel Erikson Trust / Stellenbosch University

ESX protein secretion systems

Mycobacterium tuberculosis

TB

Tuberculosis disease

Theses -- Medicine

Dissertations -- Medicine

Theses -- Molecular biology

Dissertations -- Molecular biology

Secretomics

Proteomics

Biomedical Sciences

The evaluation of whole blood cytokine assay for diagnosis of M.tuberculosis infection in South African children with household tuberculosis contact.

Masilo, J. M.

04 1900

M. Tech. (Department of Biotechnology, Faculty of Applied and Computer Sciences), Vaal University of Technology. / Background: There are critical unmet needs for improved strategies in the detection and diagnosis of M.tuberculosis infection in children, and for prevention of tuberculosis disease in children. Bacillus Calmette-Guérin (BCG) vaccination has limited the utility of tuberculin skin testing (TST) in areas with high vaccine coverage. Objectives: The aim of this study was to estimate the prevalence of M.tuberculosis infection in children with household tuberculosis contacts, using QFT-GIT testing in comparison with TST. Methods: This study was a cross-sectional design to assess the performance of a new T-cell based blood test, namely QuantiFERON-TB Gold In Tube (QFT-GIT), for diagnosis of tuberculosis infection in the children (n=182) of adults (n=124) with pulmonary tuberculosis, additionally to determine the prevalence of M.tuberculosis infection in children with household tuberculosis contacts, using QFT-GIT testing in comparison with TST. The study was carried out at Chris Hani Hospital. For children involved in the study, tuberculosis exposure information was obtained, together with TST, QFT-GIT, and HIV testing. Data obtained from both experiments was statistically analysed using SPSS version 24 to determine whether there was a significant agreement between QFT-GIT and TST on the detection of M.tuberculosis prevalence in children with house hold contacts with confirmed M.tuberculosis infection. Results: This study examined the sensitivity and specificity of the QFT-GIT tests compared with the standard TST for diagnosing latent tuberculosis disease in paediatric contacts. Because of the lack of a latent tuberculosis “gold standard”, the specificity and sensitivity of QFT-GIT was calculated with a two-by-two table method. The specificity of the QFT-GIT was 84% and the sensitivity was 85%. There was a good correlation between QFT-GIT and TST (Cohen’s kappa of 0.705). Seventeen percent (17%) of the 182 children tested by QFT-GIT yielded indeterminate results. Age was associated with indeterminate QFT-GIT results in paediatric tuberculosis contacts. Point prevalence for QFT-GIT was recorded as 31% at baseline and 39.5% after six months indicating variability between QFT-GIT results at baseline and after six months. Conclusion: It was concluded that the prevalence of tuberculosis infection was common among South African children who live with an adult with active tuberculosis. The agreement between QFT-GIT assay and TST for the diagnosis of latent tuberculosis in children was high. Although TST and QFT-GIT assays appeared comparable, QFT-GIT showed higher positivity rate amongst those contacts with reported household tuberculosis exposure compared to TST. The QFTGIT assay was a better indicator of the risk of M.tuberculosis infection than TST in a BCG-vaccinated population.

M.tuberculosis infection in children

Blood cytokine assay

Bacillus Calmette-Guérin (BCG)

QFT-GIT assay

TST

Dissertations, Academic -- South Africa

Tuberculosis

Respiratory infections

Tuberculosis in children

Tuberculosis -- South Africa

Tuberculosis -- Treatment