Your search keyword '"Sampson SL"' showing total 77 results

1. Nutrient supply and nucleus pulposus cell function: effects of the transport properties of the cartilage endplate and potential implications for intradiscal biologic therapy

Author

Wong, J, Sampson, SL, Bell-Briones, H, Ouyang, A, Lazar, AA, Lotz, JC, and Fields, AJ

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Adult, Aged, Aggrecans, Animals, Biological Transport, Cadaver, Cartilage, Articular, Cattle, Cell Survival, Cell Transplantation, Collagen Type II, Culture Techniques, Diffusion Chambers, Culture, Fluorescence Recovery After Photobleaching, Gene Expression, Genetic Therapy, Humans, Intercellular Signaling Peptides and Proteins, Intervertebral Disc Degeneration, Lumbar Vertebrae, Matrix Metalloproteinase 2, Middle Aged, Nucleus Pulposus, Nutrients, Plant Extracts, Regenerative Medicine, Spectroscopy, Fourier Transform Infrared, Cartilage endplate, Disc degeneration, Fourier transform infrared imaging, Nutrient transport, Nucleus pulposus cell, Low back pain, Biomedical Engineering, Human Movement and Sports Sciences, Arthritis & Rheumatology, Clinical sciences, Sports science and exercise

Abstract

ObjectiveIntradiscal biologic therapy is a promising strategy for managing intervertebral disc degeneration. However, these therapies require a rich nutrient supply, which may be limited by the transport properties of the cartilage endplate (CEP). This study investigated how fluctuations in CEP transport properties impact nutrient diffusion and disc cell survival and function.DesignHuman CEP tissues harvested from six fresh cadaveric lumbar spines (38-66 years old) were placed at the open sides of diffusion chambers. Bovine nucleus pulposus (NP) cells cultured inside the chambers were nourished exclusively by nutrients diffusing through the CEP tissues. After 72 h in culture, depth-dependent NP cell viability and gene expression were measured, and related to CEP transport properties and biochemical composition determined using fluorescence recovery after photobleaching and Fourier transform infrared (FTIR) spectroscopy.ResultsSolute diffusivity varied nearly 4-fold amongst the CEPs studied, and chambers with the least permeable CEPs appeared to have lower aggrecan, collagen-2, and matrix metalloproteinase-2 gene expression, as well as a significantly shorter viable distance from the CEP/nutrient interface. Increasing chamber cell density shortened the viable distance; however, this effect was lost for low-diffusivity CEPs, which suggests that these CEPs may not provide enough nutrient diffusion to satisfy cell demands. Solute diffusivity in the CEP was associated with biochemical composition: low-diffusivity CEPs had greater amounts of collagen and aggrecan, more mineral, and lower cross-link maturity.ConclusionsCEP transport properties dramatically affect NP cell survival/function. Degeneration-related CEP matrix changes could hinder the success of biologic therapies that require increased nutrient supply.

Published

2019

2. Physicochemical and Biological Evaluation of Curdlan-Poly(Lactic-Co-Glycolic Acid) Nanoparticles as a Host-Directed Therapy Against Mycobacterium Tuberculosis

Author

D'Souza, S, Du Plessis, SM, Egieyeh, S, Bekale, RB, Maphasa, RE, Irabin, AF, Sampson, SL, and Dube, A

Published

2022

3. Whole genome sequencing reveals genomic heterogeneity and antibiotic purification in Mycobacterium tuberculosis isolates

Author

Black, PA, primary, de Vos, M., additional, Louw, GE, additional, van der Merwe, RG, additional, Dippenaar, A., additional, Streicher, EM, additional, Abdallah, AM, additional, Sampson, SL, additional, Victor, TC, additional, Dolby, T., additional, Simpson, JA, additional, van Helden, PD, additional, Warren, RM, additional, and Pain, A., additional

Published

2015

4. Assessing the propensity of TB clinical isolates to form viable but non-replicating subpopulations.

Author

Coetzee JL, Kriel NL, Loubser J, Dippenaar A, Sampson SL, Malherbe ST, and Mouton JM

Subjects

Humans, Microbial Sensitivity Tests, Genotype, Whole Genome Sequencing, Drug Resistance, Bacterial, THP-1 Cells, Mycobacterium tuberculosis genetics, Mycobacterium tuberculosis isolation & purification, Mycobacterium tuberculosis drug effects, Antitubercular Agents pharmacology, Antitubercular Agents therapeutic use, Tuberculosis microbiology

Abstract

Current tuberculosis (TB) treatment is typically effective against drug-susceptible Mycobacterium tuberculosis, but can fail due to acquired drug resistance or phenotypic resistance. M. tuberculosis persisters, a subpopulation of viable but non-replicating (VBNR) antibiotic-tolerant bacteria, are thought to contribute to poor TB treatment outcomes. In this exploratory study, we investigated treatment-naïve drug-susceptible clinical isolates collected from people with TB, who subsequently had unsuccessful treatment outcomes. These were compared to isolates from cured individuals in terms of their ability to form VBNR subpopulations. Clinical isolates from individuals with unfavorable treatment outcomes form larger subpopulations of VBNR M. tuberculosis (2.67-13.71%) than clinical isolates from cured cases (0- 1.63%) following infection of THP-1 macrophages. All isolates were drug susceptible based on phenotypic and genotypic analysis. Whole genome sequencing identified 23 non-synonymous genomic variants shared by treatment failure clinical isolates, that were not present in isolates from cured cases. This exploratory study highlights the ability of treatment-naïve clinical isolates to form heterogeneous populations containing VBNR M. tuberculosis. We also demonstrate that clinical isolates from individuals with unsuccessful treatment outcomes form higher percentages of VBNR M. tuberculosis. The findings of this exploratory study suggest that an increased propensity to form VBNR subpopulations may impact TB treatment outcome., Competing Interests: Declarations Competing interests The authors declare no competing interests. Ethical approval Ethical approval was obtained from the Stellenbosch Human Research Ethics Committee (Registration Number N10/01/013) and the Biological and Environmental Safety committee (Registration Number BES-2023-13049)., (© 2024. The Author(s).)

Published

2024

5. Minimum Information for Conducting and Reporting In Vitro Intracellular Infection Assays.

Author

Subramaniam S, Joyce P, Ogunniyi AD, Dube A, Sampson SL, Lehr CM, and Prestidge CA

Subjects

Reproducibility of Results, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Bacteria, Research Design, Anti-Infective Agents

Abstract

Bacterial pathogens are constantly evolving to outsmart the host immune system and antibiotics developed to eradicate them. One key strategy involves the ability of bacteria to survive and replicate within host cells, thereby causing intracellular infections. To address this unmet clinical need, researchers are adopting new approaches, such as the development of novel molecules that can penetrate host cells, thus exerting their antimicrobial activity intracellularly, or repurposing existing antibiotics using nanocarriers (i.e., nanoantibiotics) for site-specific delivery. However, inconsistency in information reported across published studies makes it challenging for scientific comparison and judgment of experiments for future direction by researchers. Together with the lack of reproducibility of experiments, these inconsistencies limit the translation of experimental results beyond pre-clinical evaluation. Minimum information guidelines have been instrumental in addressing such challenges in other fields of biomedical research. Guidelines and recommendations provided herein have been designed for researchers as essential parameters to be disclosed when publishing their methodology and results, divided into four main categories: (i) experimental design, (ii) establishing an in vitro model, (iii) assessment of efficacy of novel therapeutics, and (iv) statistical assessment. These guidelines have been designed with the intention to improve the reproducibility and rigor of future studies while enabling quantitative comparisons of published studies, ultimately facilitating translation of emerging antimicrobial technologies into clinically viable therapies that safely and effectively treat intracellular infections.

Published

2024

6. Discovery and biological evaluation of an adamantyl-amide derivative with likely MmpL3 inhibitory activity.

Author

Kapp E, Calitz H, Streicher EM, Dippenaar A, Egieyeh S, Jordaan A, Warner DF, Joubert J, Malan SF, and Sampson SL

Subjects

Antitubercular Agents pharmacology, Antitubercular Agents metabolism, Membrane Transport Proteins genetics, Amides metabolism, Amides pharmacology, Microbial Sensitivity Tests, Bacterial Proteins metabolism, Mycobacterium tuberculosis

Abstract

A series of molecules containing bulky lipophilic scaffolds was screened for activity against Mycobacterium tuberculosis and a number of compounds with antimycobacterial activity were identified. The most active compound, (2E)-N-(adamantan-1-yl)-3-phenylprop-2-enamide (C1), has a low micromolar minimum inhibitory concentration, low cytotoxicity (therapeutic index = 32.26), low mutation frequency and is active against intracellular Mycobacterium tuberculosis. Whole genome sequencing of mutants resistant to C1 showed a mutation in mmpL3 which may point to the involvement of MmpL3 in the antimycobacterial activity of the compound. In silico mutagenesis and molecular modelling studies were performed to better understand the binding of C1 within MmpL3 and the role that the specific mutation may play in the interaction at protein level. These analyses revealed that the mutation increases the energy required for binding of C1 within the protein translocation channel of MmpL3. The mutation also decreases the solvation energy of the protein, suggesting that the mutant protein might be more solvent-accessible, thereby restricting its interaction with other molecules. The results reported here describe a new molecule that may interact with the MmpL3 protein, providing insights into the effect of mutations on protein-ligand interactions and enhancing our understanding of this essential protein as a priority drug target., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2023. Published by Elsevier Ltd.)

Published

2023

7. Persistence of Mycobacterium tuberculosis in response to infection burden and host-induced stressors.

Author

Parbhoo T, Schurz H, Mouton JM, and Sampson SL

Subjects

Humans, Phagosomes microbiology, Phagocytosis, Macrophages microbiology, Mycobacterium tuberculosis, Tuberculosis

Abstract

Introduction: As infection with Mycobacterium tuberculosis progresses, the bacilli experience various degrees of host stressors in the macrophage phagosome such as low pH, nutrient deprivation, or exposure to toxic agents, which promotes cell-to-cell phenotypic variation. This includes a physiologically viable but non- or slowly replicating persister subpopulation, which is characterised by a loss of growth on solid media, while remaining metabolically active. Persisters additionally evade the host immune response and macrophage antimicrobial processes by adapting their metabolic pathways to maintain survival and persistence in the host., Methods: A flow cytometry-based dual-fluorescent replication reporter assay, termed fluorescence dilution, provided a culture-independent method to characterize the single-cell replication dynamics of M. tuberculosis persisters following macrophage infection. Fluorescence dilution in combination with reference counting beads and a metabolic esterase reactive probe, calcein violet AM, provided an effective approach to enumerate and characterize the phenotypic heterogeneity within M. tuberculosis following macrophage infection., Results: Persister formation appeared dependent on the initial infection burden and intracellular bacterial burden. However, inhibition of phagocytosis by cytochalasin D treatment resulted in a significantly higher median percentage of persisters compared to inhibition of phagosome acidification by bafilomycin A1 treatment., Discussion: Our results suggest that different host factors differentially impact the intracellular bacterial burden, adaptive mechanisms and entry into persistence in macrophages., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Parbhoo, Schurz, Mouton and Sampson.)

Published

2022

8. Phenotypic adaptation of Mycobacterium tuberculosis to host-associated stressors that induce persister formation.

Author

Parbhoo T, Mouton JM, and Sampson SL

Subjects

Animals, Anti-Bacterial Agents pharmacology, Host-Pathogen Interactions, Humans, Mycobacterium tuberculosis metabolism, Tuberculosis, Lymph Node

Abstract

Mycobacterium tuberculosis exhibits a remarkable ability to interfere with the host antimicrobial response. The pathogen exploits elaborate strategies to cope with diverse host-induced stressors by modulating its metabolism and physiological state to prolong survival and promote persistence in host tissues. Elucidating the adaptive strategies that M. tuberculosis employs during infection to enhance persistence is crucial to understanding how varying physiological states may differentially drive disease progression for effective management of these populations. To improve our understanding of the phenotypic adaptation of M. tuberculosis , we review the adaptive strategies employed by M. tuberculosis to sense and coordinate a physiological response following exposure to various host-associated stressors. We further highlight the use of animal models that can be exploited to replicate and investigate different aspects of the human response to infection, to elucidate the impact of the host environment and bacterial adaptive strategies contributing to the recalcitrance of infection., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Parbhoo, Mouton and Sampson.)

Published

2022

9. Evidence, Challenges, and Knowledge Gaps Regarding Latent Tuberculosis in Animals.

Author

Ncube P, Bagheri B, Goosen WJ, Miller MA, and Sampson SL

Abstract

Mycobacterium bovis and other Mycobacterium tuberculosis complex (MTBC) pathogens that cause domestic animal and wildlife tuberculosis have received considerably less attention than M. tuberculosis , the primary cause of human tuberculosis (TB). Human TB studies have shown that different stages of infection can exist, driven by host-pathogen interactions. This results in the emergence of heterogeneous subpopulations of mycobacteria in different phenotypic states, which range from actively replicating (AR) cells to viable but slowly or non-replicating (VBNR), viable but non-culturable (VBNC), and dormant mycobacteria. The VBNR, VBNC, and dormant subpopulations are believed to underlie latent tuberculosis (LTB) in humans; however, it is unclear if a similar phenomenon could be happening in animals. This review discusses the evidence, challenges, and knowledge gaps regarding LTB in animals, and possible host-pathogen differences in the MTBC strains M. tuberculosis and M. bovis during infection. We further consider models that might be adapted from human TB research to investigate how the different phenotypic states of bacteria could influence TB stages in animals. In addition, we explore potential host biomarkers and mycobacterial changes in the DosR regulon, transcriptional sigma factors, and resuscitation-promoting factors that may influence the development of LTB.

Published

2022

10. Localization of EccA 3 at the growing pole in Mycobacterium smegmatis.

Author

Kriel NL, Newton-Foot M, Bennion OT, Aldridge BB, Mehaffy C, Belisle JT, Walzl G, Warren RM, Sampson SL, and Gey van Pittius NC

Subjects

Bacterial Proteins genetics, Bacterial Proteins metabolism, Mycobacterium smegmatis genetics, Mycobacterium smegmatis metabolism, Mycolic Acids metabolism, Operon, Mycobacterium, Mycobacterium tuberculosis genetics

Abstract

Background: Bacteria require specialized secretion systems for the export of molecules into the extracellular space to modify their environment and scavenge for nutrients. The ESX-3 secretion system is required by mycobacteria for iron homeostasis. The ESX-3 operon encodes for one cytoplasmic component (EccA 3 ) and five membrane components (EccB3 - EccE3 and MycP 3 ). In this study we sought to identify the sub-cellular location of EccA 3 of the ESX-3 secretion system in mycobacteria., Results: Fluorescently tagged EccA 3 localized to a single pole in the majority of Mycobacterium smegmatis cells and time-lapse fluorescent microscopy identified this pole as the growing pole. Deletion of ESX-3 did not prevent polar localization of fluorescently tagged EccA 3 , suggesting that EccA 3 unipolar localization is independent of other ESX-3 components. Affinity purification - mass spectrometry was used to identify EccA 3 associated proteins which may contribute to the localization of EccA 3 at the growing pole. EccA 3 co-purified with fatty acid metabolism proteins (FAS, FadA3, KasA and KasB), mycolic acid synthesis proteins (UmaA, CmaA1), cell division proteins (FtsE and FtsZ), and cell shape and cell cycle proteins (MurS, CwsA and Wag31). Secretion system related proteins Ffh, SecA1, EccA1, and EspI were also identified., Conclusions: Time-lapse microscopy demonstrated that EccA3 is located at the growing pole in M. smegmatis. The co-purification of EccA 3 with proteins known to be required for polar growth, mycolic acid synthesis, the Sec secretion system (SecA1), and the signal recognition particle pathway (Ffh) also suggests that EccA 3 is located at the site of active cell growth., (© 2022. The Author(s).)

Published

2022

11. Dynamic mathematical model development and validation of in vitro Mycobacterium smegmatis growth under nutrient- and pH-stress.

Author

Apiyo D, Mouton JM, Louw C, Sampson SL, and Louw TM

Subjects

Hydrogen-Ion Concentration, Models, Theoretical, Nutrients, Mycobacterium smegmatis, Mycobacterium tuberculosis

Abstract

Mycobacterium tuberculosis can exist within a host for lengthy periods, tolerating even antibiotic challenge. This non-heritable, antibiotic tolerant "persister" state, is thought to underlie latent Tuberculosis (TB) infection and a deeper understanding thereof could inform treatment strategies. In addition to experimental studies, mathematical and computational modelling approaches are widely employed to study persistence from both an in vivo and in vitro perspective. However, specialized models (partial differential equations, agent-based, multiscale, etc.) rely on several difficult to determine parameters. In this study, a dynamic mathematical model was developed to predict the response of Mycobacterium smegmatis (a model organism for M. tuberculosis) grown in batch culture and subjected to a range of in vitro environmental stresses. Lag phase dynamics, pH variations and internal nitrogen storage were mechanistically modelled. Experimental results were used to train model parameters using global optimization, with extensive subsequent model validation to ensure extensibility to more complex modelling frameworks. This included an identifiability analysis which indicated that seven of the thirteen model parameters were uniquely identifiable. Non-identifiable parameters were critically evaluated. Model predictions compared to validation data (based on experimental results not used during training) were accurate with less than 16% maximum absolute percentage error, indicating that the model is accurate even when extrapolating to new experimental conditions. The bulk growth model can be extended to spatially heterogeneous simulations such as an agent-based model to simulate in vitro granuloma models or, eventually, in vivo conditions, where distributed environmental conditions are difficult to measure., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

12. In silico repurposing of a Novobiocin derivative for activity against latency associated Mycobacterium tuberculosis drug target nicotinate-nucleotide adenylyl transferase (Rv2421c).

Author

Cloete R, Shahbaaz M, Grobbelaar M, Sampson SL, and Christoffels A

Subjects

Inhibitory Concentration 50, Computer Simulation, Aminocoumarins chemistry, Aminocoumarins pharmacology, Quantitative Structure-Activity Relationship, Molecular Dynamics Simulation, Protein Conformation, Novobiocin analogs & derivatives, Novobiocin pharmacology, Antitubercular Agents chemistry, Antitubercular Agents pharmacology, Mycobacterium tuberculosis drug effects, Nicotinamide-Nucleotide Adenylyltransferase antagonists & inhibitors, Nicotinamide-Nucleotide Adenylyltransferase chemistry

Abstract

Nicotinamide-nucleotide adenylyl transferase (Rv2421c) was selected as a potential drug target, because it has been shown, in vitro, to be essential for Mycobacterium tuberculosis growth. It is conserved between mycobacterium species, is up-regulated during dormancy, has a known 3D crystal structure and has no known human homologs. A model of Rv2421c in complex with nicotinic acid adenine dinucleotide and magnesium ion was constructed and subject tovirtual ligand screening against the Prestwick Chemical Library and the ZINC database, which yielded 155 potential hit molecules. Of the 155 compounds identified five were pursued further using an IC50 based 3D-QSAR study. The 3D-QSAR model validated the inhibition properties of the five compounds based on R2 value of 0.895 and Q2 value of 0.944 compared to known inhibitors of Rv2421c. Higher binding affinities was observed for the novel ZINC13544129 and two FDA approved compounds (Novobiocin sodium salt, Sulfasalazine). Similarly, the total interaction energy was found to be the highest for Cromolyn disodium system (-418.88 kJ/mol) followed by Novobiocin (-379.19 kJ/mol) and Sulfasalazine with (-330.13 kJ/mol) compared to substrate DND having (-185.52 kJ/mol). Subsequent in vitro testing of the five compounds identified Novobiocin sodium salt with activity against Mycobacterium tuberculosis at 50 μM, 25μM and weakly at 10μM concentrations. Novobiocin salt interacts with a MG ion and active site residues His20, Thr86, Gly107 and Leu164 similar to substrate DND of Mycobacterium tuberculosis Rv2421c. Additional in silico structural analysis of known Novobiocin sodium salt derivatives against Rv2421c suggest Coumermycin as a promising alternative for the treatment of Mycobacterium tuberculosis based on large number of hydrogen bond interactions with Rv2421c similar in comparison to Novobiocin salt and substrate DND., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

13. Inhaled particulate matter affects immune responsiveness of human lung phagocytes to mycobacteria.

Author

Paarwater BA, Mouton JM, Sampson SL, Malherbe ST, Shaw JA, Walzl G, Kotze LA, and du Plessis N

Subjects

Bronchoalveolar Lavage Fluid, Female, Humans, Lung microbiology, Lung pathology, Male, Monokines immunology, Phagocytes microbiology, Phagocytes pathology, Inhalation Exposure adverse effects, Lung immunology, Mycobacterium bovis immunology, Mycobacterium tuberculosis immunology, Particulate Matter adverse effects, Phagocytes immunology

Abstract

The influence of smoke-derived or air pollution-derived cytoplasmic particulate matter (PM) can be detrimental and can lead to failed lung immunity. We investigated mycobacterial uptake, intracellular replication, and soluble immune-mediator responses of human bronchoalveolar lavage cells (BALCs) loaded with/without PM, to infection with mycobacterial strains. We observed that only BALCs containing PM display an ex vivo phenotypic profile dominated by spontaneous interleukin (IL)-10 production. PM-loaded BALCs retained the ability to phagocytose both Mycobacterium bovis Bacille Calmette Guérin (BCG) and Mycobacterium tuberculosis ( M.tb ) ΔleuDΔpanCD at equal efficacy as clear non-PM-loaded BALCs. However, immune responsiveness, such as the production of IL-6 ( P = 0.015) and tumor necrosis factor-α (TNF)-α ( P = 0.0172) immediately post M. bovis BCG infection, were dramatically lower in black BALCs loaded with PM versus clear non-PM-loaded BALCs. By 24 h post infection, differential immune responses to M. bovis BCG between black versus clear BALC waned, and instead, production of IL-6 ( P = 0.03) and IL-1α ( P = 0.04) by black BALCs was lower versus clear BALCs following M.tb ΔleuDΔpanCD infection. Considering that TNF-α and IL-6 are characterized as critical to host protection against mycobacteria, our findings suggest that BALCs loaded with inhaled PM, display lower levels of antimycobacterial mediators and that the response magnitude differs according to infective mycobacterial strain. Even though this did not translate into altered mycobacterial killing at early time points post infection, the long-term impact of such changes remains to be established.

Published

2021

14. Drug resistant tuberculosis cases from the Copperbelt province and Northern regions of Zambia: Genetic diversity, demographic and clinical characteristics.

Author

Chisompola NK, Streicher EM, Dippenaar A, Whitfield MG, Tembo M, Mwanza S, Warren RM, and Sampson SL

Subjects

Adolescent, Adult, Antitubercular Agents pharmacology, Bacterial Typing Techniques, DNA Transposable Elements, Female, Genetic Variation, Genotype, Humans, Male, Microbial Sensitivity Tests, Middle Aged, Molecular Typing, Polymorphism, Restriction Fragment Length, Tuberculosis, Multidrug-Resistant microbiology, Young Adult, Zambia epidemiology, Mycobacterium tuberculosis classification, Mycobacterium tuberculosis drug effects, Tuberculosis, Multidrug-Resistant epidemiology

Abstract

Tuberculosis (TB) caused by Mycobacterium tuberculosis remains a major cause of death worldwide. Diverse genotypes have been demonstrated to drive the epidemiology of drug resistant (DR-) TB globally. Currently, there is limited knowledge on the genotypes and transmission dynamics of M. tuberculosis in Zambia. This study aimed to describe the genotypes of DR-TB from the Copperbelt and Northern regions of Zambia. Molecular typing tools of insertion sequence 6110-restriction fragment length polymorphism (IS6110-RFLP) and spacer oligonucleotide typing (spoligotyping) were applied. We demonstrate that diverse genotypes are associated with DR-TB in Zambia. The predominant genotype was lineage 4; other strains belonged to lineage 2 and 3. Genotypes previously identified as driving the epidemiology of drug susceptible TB have been identified as drivers of DR-TB. Genotyping analysis showed clustering of strains among patients from different regions of the country; suggesting that DR-TB is widespread. Molecular findings combined with phenotypic and epidemiologic findings play a critical role in identifying circulating genotypes and possible transmission chains. Clustering of drug resistant strains was demonstrated to be 48% and 86% according to IS6110-RFLP and spoligotyping, respectively. However, gaps in clinical and demographic data skew the interpretation, and call for data collection policy improvements., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

15. PPE38-Secretion-Dependent Proteins of M. tuberculosis Alter NF-kB Signalling and Inflammatory Responses in Macrophages.

Author

Gallant J, Heunis T, Beltran C, Schildermans K, Bruijns S, Mertens I, Bitter W, and Sampson SL

Subjects

Humans, Inflammation immunology, Mycobacterium tuberculosis immunology, Mycobacterium tuberculosis pathogenicity, Signal Transduction immunology, THP-1 Cells, Virulence immunology, Antigens, Bacterial immunology, Macrophages immunology, NF-kappa B immunology, Tuberculosis immunology, Virulence Factors immunology

Abstract

It was previously shown that secretion of PE-PGRS and PPE-MPTR proteins is abolished in clinical M. tuberculosis isolates with a deletion in the ppe38-71 operon, which is associated with increased virulence. Here we investigate the proteins dependent on PPE38 for their secretion and their role in the innate immune response using temporal proteomics and protein turnover analysis in a macrophage infection model. A decreased pro-inflammatory response was observed in macrophages infected with PPE38-deficient M. tuberculosis CDC1551 as compared to wild type bacteria. We could show that dampening of the pro-inflammatory response is associated with activation of a RelB/p50 pathway, while the canonical inflammatory pathway is active during infection with wild type M. tuberculosis CDC1551. These results indicate a molecular mechanism by which M. tuberculosis PE/PPE proteins controlled by PPE38 have an effect on modulating macrophage responses through NF-kB signalling., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The reviewer RB has declared a past collaboration with one of the authors WB at the time of review., (Copyright © 2021 Gallant, Heunis, Beltran, Schildermans, Bruijns, Mertens, Bitter and Sampson.)

Published

2021

16. Antimycobacterial Activity, Synergism, and Mechanism of Action Evaluation of Novel Polycyclic Amines against Mycobacterium tuberculosis .

Author

Kapp E, Joubert J, Sampson SL, Warner DF, Seldon R, Jordaan A, de Vos M, Sharma R, and Malan SF

Abstract

Mycobacterium tuberculosis has developed extensive resistance to numerous antimycobacterial agents used in the treatment of tuberculosis. Insufficient intracellular accumulation of active moieties allows for selective survival of mycobacteria with drug resistance mutations and accordingly promotes the development of microbial drug resistance. Discovery of compounds with new mechanisms of action and physicochemical properties that promote intracellular accumulation, or compounds that act synergistically with other antimycobacterial drugs, has the potential to reduce and prevent further drug resistance. To this end, antimycobacterial activity, mechanism of action, and synergism in combination therapy were investigated for a series of polycyclic amine derivatives. Compound selection was based on the presence of moieties with possible antimycobacterial activity, the inclusion of bulky lipophilic carriers to promote intracellular accumulation, and previously demonstrated bioactivity that potentially support inhibition of efflux pump activity. The most potent antimycobacterial demonstrated a minimum inhibitory concentration (MIC 99 ) of 9.6  μ M against Mycobacterium tuberculosis H37Rv. Genotoxicity and inhibition of the cytochrome bc 1 respiratory complex were excluded as mechanisms of action for all compounds. Inhibition of cell wall synthesis was identified as a likely mechanism of action for the two most active compounds ( 14 and 15 ). Compounds 5 and 6 demonstrated synergistic activity with the known Rv1258c efflux pump substrate, spectinomycin, pointing to possible efflux pump inhibition. For this series, the nature of the side chain, rather than the type of polycyclic carrier, seems to play a determining role in the antimycobacterial activity and cytotoxicity of the compounds. Contrariwise, the nature of the polycyclic carrier, particularly the azapentacycloundecane cage, appears to promote synergistic activity. Results point to the possibility of combining an azapentacycloundecane carrier with a side chain that promotes antimycobacterial activity to develop dual acting molecules for the treatment of Mycobacterium tuberculosis., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2021 Erika Kapp et al.)

Published

2021

17. ProVision: a web-based platform for rapid analysis of proteomics data processed by MaxQuant.

Author

Gallant JL, Heunis T, Sampson SL, and Bitter W

Subjects

Data Analysis, Internet, Workflow, Proteomics, Software

Abstract

Summary: Proteomics is a powerful tool for protein expression analysis and is becoming more readily available to researchers through core facilities or specialized collaborations. However, one major bottleneck for routine implementation and accessibility of this technology to the wider scientific community is the complexity of data analysis. To this end, we have created ProVision, a free open-source web-based analytics platform that allows users to analyze data from two common proteomics relative quantification workflows, namely label-free and tandem mass tag-based experiments. Furthermore, ProVision allows the freedom to interface with the data analysis pipeline while maintaining a user-friendly environment and providing default parameters for fast statistical and exploratory data analysis. Finally, multiple customizable quality control, differential expression plots as well as enrichments and protein-protein interaction prediction can be generated online in one platform., Availability and Implementation: Quick start and step-by-step tutorials as well as tutorial data are fully incorporated in the web application. This application is available online at https://provision.shinyapps.io/provision/ for free use. The source code is available at https://github.com/JamesGallant/ProVision under the GPL version 3.0 license., (© The Author(s) 2020. Published by Oxford University Press.)

Published

2020

18. Mechanisms of Drug-Induced Tolerance in Mycobacterium tuberculosis.

Author

Goossens SN, Sampson SL, and Van Rie A

Subjects

Antitubercular Agents therapeutic use, Bacterial Proteins metabolism, Citric Acid Cycle drug effects, Gene Expression Regulation, Bacterial drug effects, Humans, Lipid Metabolism drug effects, Microbial Sensitivity Tests, Mutation, Mycobacterium tuberculosis drug effects, Tuberculosis drug therapy, Antitubercular Agents pharmacology, Drug Resistance, Multiple, Bacterial, Mycobacterium tuberculosis metabolism, Tuberculosis microbiology

Abstract

Successful treatment of tuberculosis (TB) can be hampered by Mycobacterium tuberculosis populations that are temporarily able to survive antibiotic pressure in the absence of drug resistance-conferring mutations, a phenomenon termed drug tolerance. We summarize findings on M. tuberculosis tolerance published in the past 20 years. Key M. tuberculosis responses to drug pressure are reduced growth rates, metabolic shifting, and the promotion of efflux pump activity. Metabolic shifts upon drug pressure mainly occur in M. tuberculosis 's lipid metabolism and redox homeostasis, with reduced tricarboxylic acid cycle activity in favor of lipid anabolism. Increased lipid anabolism plays a role in cell wall thickening, which reduces sensitivity to most TB drugs. In addition to these general mechanisms, drug-specific mechanisms have been described. Upon isoniazid exposure, M. tuberculosis reprograms several pathways associated with mycolic acid biosynthesis. Upon rifampicin exposure, M. tuberculosis upregulates the expression of its drug target rpoB Upon bedaquiline exposure, ATP synthesis is stimulated, and the transcription factors Rv0324 and Rv0880 are activated. A better understanding of M. tuberculosis 's responses to drug pressure will be important for the development of novel agents that prevent the development of drug tolerance following treatment initiation. Such agents could then contribute to novel TB treatment-shortening strategies., (Copyright © 2020 American Society for Microbiology.)

Published

2020

19. Recent Developments in the Application of Flow Cytometry to Advance our Understanding of Mycobacterium tuberculosis Physiology and Pathogenesis.

Author

Parbhoo T, Sampson SL, and Mouton JM

Subjects

Flow Cytometry, Humans, Mycobacterium tuberculosis, Tuberculosis

Abstract

The ability of the bacterial pathogen Mycobacterium tuberculosis to adapt and survive within human cells to disseminate to other individuals and cause active disease is poorly understood. Research supports that as M. tuberculosis adapts to stressors encountered in the host, it exhibits variable physiological and metabolic states that are time and niche-dependent. Challenges associated with effective treatment and eradication of tuberculosis (TB) are in part attributed to our lack of understanding of these different mycobacterial phenotypes. This is mainly due to a lack of suitable tools to effectively identify/detect heterogeneous bacterial populations, which may include small, difficult-to-culture subpopulations. Importantly, flow cytometry allows rapid and affordable multiparametric measurements of physical and chemical characteristics of single cells, without the need to preculture cells. Here, we summarize current knowledge of flow cytometry applications that have advanced our understanding of the physiology of M. tuberculosis during TB disease. Specifically, we review how host-associated stressors influence bacterial characteristics such as metabolic activity, membrane potential, redox status and the mycobacterial cell wall. Further, we highlight that flow cytometry offers unprecedented opportunities for insight into bacterial population heterogeneity, which is increasingly appreciated as an important determinant of disease outcome. © 2020 The Authors. Cytometry Part A published by Wiley Periodicals, Inc. on behalf of International Society for Advancement of Cytometry., (© 2020 The Authors. Cytometry Part A published by Wiley Periodicals, Inc. on behalf of International Society for Advancement of Cytometry.)

Published

2020

20. Identification of gene fusion events in Mycobacterium tuberculosis that encode chimeric proteins.

Author

Gallant J, Mouton J, Ummels R, Ten Hagen-Jongman C, Kriel N, Pain A, Warren RM, Bitter W, Heunis T, and Sampson SL

Abstract

Mycobacterium tuberculosis is a facultative intracellular pathogen responsible for causing tuberculosis. The harsh environment in which M. tuberculosis survives requires this pathogen to continuously adapt in order to maintain an evolutionary advantage. However, the apparent absence of horizontal gene transfer in M. tuberculosis imposes restrictions in the ways by which evolution can occur. Large-scale changes in the genome can be introduced through genome reduction, recombination events and structural variation. Here, we identify a functional chimeric protein in the ppe38-71 locus, the absence of which is known to have an impact on protein secretion and virulence. To examine whether this approach was used more often by this pathogen, we further develop software that detects potential gene fusion events from multigene deletions using whole genome sequencing data. With this software we could identify a number of other putative gene fusion events within the genomes of M. tuberculosis isolates. We were able to demonstrate the expression of one of these gene fusions at the protein level using mass spectrometry. Therefore, gene fusions may provide an additional means of evolution for M. tuberculosis in its natural environment whereby novel chimeric proteins and functions can arise., (© The Author(s) 2019. Published by Oxford University Press on behalf of NAR Genomics and Bioinformatics.)

Published

2020

21. Molecular epidemiology of drug resistant Mycobacterium tuberculosis in Africa: a systematic review.

Author

Chisompola NK, Streicher EM, Muchemwa CMK, Warren RM, and Sampson SL

Subjects

Africa epidemiology, Antitubercular Agents therapeutic use, Drug Resistance, Multiple, Bacterial drug effects, Extensively Drug-Resistant Tuberculosis drug therapy, Extensively Drug-Resistant Tuberculosis microbiology, Genotype, High-Throughput Nucleotide Sequencing, Humans, Polymorphism, Restriction Fragment Length, Epidemics, Extensively Drug-Resistant Tuberculosis epidemiology, Extensively Drug-Resistant Tuberculosis transmission, Molecular Epidemiology methods, Mycobacterium tuberculosis genetics

Abstract

Background: The burden of drug resistant tuberculosis in Africa is largely driven by the emergence and spread of multidrug resistant (MDR) and extensively drug resistant (XDR) Mycobacterium tuberculosis strains. MDR-TB is defined as resistance to isoniazid and rifampicin, while XDR-TB is defined as MDR-TB with added resistance to any of the second line injectable drugs and any fluoroquinolone. The highest burden of drug resistant TB is seen in countries further experiencing an HIV epidemic. The molecular mechanisms of drug resistance as well as the evolution of drug resistant TB strains have been widely studied using various genotyping tools. The study aimed to analyse the drug resistant lineages in circulation and transmission dynamics of these lineages in Africa by describing outbreaks, nosocomial transmission and migration. Viewed as a whole, this can give a better insight into the transmission dynamics of drug resistant TB in Africa., Methods: A systematic review was performed on peer reviewed original research extracted from PubMed reporting on the lineages associated with drug resistant TB from African countries, and their association with outbreaks, nosocomial transmission and migration. The search terms "Tuberculosis AND drug resistance AND Africa AND (spoligotyping OR molecular epidemiology OR IS6110 OR MIRU OR DNA fingerprinting OR RFLP OR VNTR OR WGS)" were used to identify relevant articles reporting the molecular epidemiology of drug resistant TB in Africa., Results: Diverse genotypes are associated with drug resistant TB in Africa, with variations in strain predominance within the continent. Lineage 4 predominates across Africa demonstrating the ability of "modern strains" to adapt and spread easily. Most studies under review reported primary drug resistance as the predominant type of transmission. Drug resistant TB strains are associated with community and nosocomial outbreaks involving MDR- and XDR-TB strains. The under-use of molecular epidemiological tools is of concern, resulting in gaps in knowledge of the transmission dynamics of drug resistant TB on the continent., Conclusions: Genetic diversity of M. tuberculosis strains has been demonstrated across Africa implying that diverse genotypes are driving the epidemiology of drug resistant TB across the continent.

Published

2020

22. Spatial distribution of Mycobacterium Tuberculosis in metropolitan Harare, Zimbabwe.

Author

Chirenda J, Gwitira I, Warren RM, Sampson SL, Murwira A, Masimirembwa C, Mateveke KM, Duri C, Chonzi P, Rusakaniko S, and Streicher EM

Subjects

Adolescent, Adult, Child, Child, Preschool, Female, Geographic Information Systems, HIV pathogenicity, HIV Infections complications, HIV Infections microbiology, HIV Infections virology, Health Services Accessibility, Humans, Male, Middle Aged, Spatial Analysis, Tuberculosis complications, Tuberculosis microbiology, Tuberculosis virology, Urban Population, Young Adult, Zimbabwe epidemiology, Disease Transmission, Infectious, HIV Infections epidemiology, Mycobacterium tuberculosis pathogenicity, Tuberculosis epidemiology

Abstract

Introduction: The contribution of high tuberculosis (TB) transmission pockets in propagating area-wide transmission has not been adequately described in Zimbabwe. This study aimed to describe the presence of hotspot transmission of TB cases in Harare city from 2011 to 2012 using geospatial techniques., Methods: Anonymised TB patient data stored in an electronic database at Harare City Health department was analysed using geospatial methods. Confirmed TB cases were mapped using geographic information system (GIS). Global Moran's I and Anselin Local Moran's I (LISA) were used to assess clustering and the local Getis-Ord Gi* was used to estimate hotspot phenomenon of TB cases in Harare City for the period between 2011 and 2012., Results: A total of 12,702 TB cases were accessed and mapped on the Harare City map. In both 2011 and 2012, ninety (90%) of cases were new and had a high human immunodeficiency virus (HIV)/TB co-infection rate of 72% across all suburbs. Tuberculosis prevalence was highest in the Southern district in both 2011 and 2012. There were pockets of spatial distribution of TB prevalence across West South West, Southern, Western, South Western and Eastern health districts. TB hot spot occurrence was restricted to the West South West, parts of South Western, Western health districts. West South West district had an increased peri-urban population with inadequate social services including health facilities. These conditions were conducive for increased intensity of TB occurrence, a probable indication of high transmission especially in the presence of high HIV co-infection., Conclusions and Recommendations: Increased TB transmission was limited to a health district with high informal internal migrants with limited health services in Harare City. To minimise spread of TB into greater Harare, there is need to improve access to TB services in the peri-urban areas., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

23. Identifying nucleic acid-associated proteins in Mycobacterium smegmatis by mass spectrometry-based proteomics.

Author

Kriel NL, Heunis T, Sampson SL, Gey van Pittius NC, Williams MJ, and Warren RM

Subjects

Bacterial Proteins chemistry, Bacterial Proteins genetics, Chromatography, Affinity, DNA-Directed RNA Polymerases chemistry, DNA-Directed RNA Polymerases genetics, Gene Expression Regulation, Bacterial, Gene Ontology, Nucleic Acids metabolism, Proteomics, DNA-Binding Proteins chemistry, DNA-Binding Proteins genetics, Mass Spectrometry methods, Mycobacterium smegmatis genetics, Mycobacterium smegmatis metabolism, RNA-Binding Proteins chemistry, RNA-Binding Proteins genetics

Abstract

Background: Transcriptional responses required to maintain cellular homeostasis or to adapt to environmental stress, is in part mediated by several nucleic-acid associated proteins. In this study, we sought to establish an affinity purification-mass spectrometry (AP-MS) approach that would enable the collective identification of nucleic acid-associated proteins in mycobacteria. We hypothesized that targeting the RNA polymerase complex through affinity purification would allow for the identification of RNA- and DNA-associated proteins that not only maintain the bacterial chromosome but also enable transcription and translation., Results: AP-MS analysis of the RNA polymerase β-subunit cross-linked to nucleic acids identified 275 putative nucleic acid-associated proteins in the model organism Mycobacterium smegmatis under standard culturing conditions. The AP-MS approach successfully identified proteins that are known to make up the RNA polymerase complex, as well as several other known RNA polymerase complex-associated proteins such as a DNA polymerase, sigma factors, transcriptional regulators, and helicases. Gene ontology enrichment analysis of the identified proteins revealed that this approach selected for proteins with GO terms associated with nucleic acids and cellular metabolism. Importantly, we identified several proteins of unknown function not previously known to be associated with nucleic acids. Validation of several candidate nucleic acid-associated proteins demonstrated for the first time DNA association of ectopically expressed MSMEG_1060, MSMEG_2695 and MSMEG_4306 through affinity purification., Conclusions: Effective identification of nucleic acid-associated proteins, which make up the RNA polymerase complex as well as other DNA- and RNA-associated proteins, was facilitated by affinity purification of the RNA polymerase β-subunit in M. smegmatis. The successful identification of several transcriptional regulators suggest that our approach could be sensitive enough to investigate the nucleic acid-associated proteins that maintain cellular functions and mediate transcriptional and translational change in response to environmental stress.

Published

2020

24. Whole genome sequencing provides additional insights into recurrent tuberculosis classified as endogenous reactivation by IS6110 DNA fingerprinting.

Author

Dippenaar A, De Vos M, Marx FM, Adroub SA, van Helden PD, Pain A, Sampson SL, and Warren RM

Subjects

Adult, Cohort Studies, Drug Resistance, Bacterial genetics, Female, Humans, Male, Middle Aged, Recurrence, DNA Fingerprinting methods, Tuberculosis genetics, Whole Genome Sequencing methods

Abstract

Recurrent tuberculosis (TB) after successful TB treatment occurs due to endogenous reactivation (relapse) or exogenous reinfection. We revisited the conclusions of relapse in a high TB incidence setting that were drawn on the basis of IS6110 restriction fragment length polymorphism (RFLP) analysis in a large retrospective cohort study in suburban Cape Town, South Africa. Using whole genome sequencing (WGS), we undertook pair-wise genome comparison of Mycobacterium tuberculosis strains cultured from diagnostic sputum samples collected at the index and recurrent TB episode for 25 recurrent TB cases who had been classified as relapse based on identical DNA fingerprint patterns in the earlier study. We found that paired strain genome sequences were identical or showed minimal variant differences in 22 of 25 recurrent TB cases, consistent with relapse. One showed 20 variant differences, suggestive of exogenous reinfection. Two of the 25 had mixed infections, each with the index episode strain detected as the dominant strain at recurrence in one of these patients, the minority strain harboured drug-resistance conferring mutations (rpoB, katG). In conclusion, our study highlights the additional value of WGS for investigating recurrent TB in settings with high infection pressure and closely related circulating strains, where the extent of re- and mixed infection may be underestimated., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

25. Evolution of rifampicin treatment for tuberculosis.

Author

Grobbelaar M, Louw GE, Sampson SL, van Helden PD, Donald PR, and Warren RM

Subjects

Dose-Response Relationship, Drug, Drug Resistance, Bacterial drug effects, Humans, Rifampin pharmacology, World Health Organization, Rifampin administration & dosage, Tuberculosis drug therapy

Abstract

Rifampicin was discovered in 1965 and remains one of the most important drugs in tuberculosis treatment that is valued for its sterilizing activity and ability to shorten treatment. Antimicrobial activity of rifampicin was initially proved in vitro; subsequently numerous in vivo studies showed the bactericidal properties and dose-dependent effect of rifampicin. Rifampicin was first during the late 1960s to treat patients suffering from chronic drug-resistant pulmonary TB. Decades later, rifampicin continues to be studied with particular emphasis on whether higher doses could shorten the duration of treatment without increasing relapse or having adverse effects. Lesion-specific drug penetration and pharmacokinetics of rifampicin are improving our understanding of effective concentration while potentially refining drug regimen designs. Another prospective aspect of high-dose rifampicin is its potential use in treating discrepant mutation thereby eliminating the need for MDR treatment. To date, several clinical trials have shown the safety, efficacy, and tolerability of high-dose rifampicin. Currently, high-dose rifampicin has been used successfully in a routine clinical setting for the treatment of high-risk patients. However, the WHO and other relevant policy makers have not committed to implementing a controlled rollout thereof. This review describes the course that rifampicin has travelled to the present-day exploration of high-dose rifampicin treatment., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

26. Comprehensive Characterization of the Attenuated Double Auxotroph Mycobacterium tuberculosis Δ leuD Δ panCD as an Alternative to H37Rv.

Author

Mouton JM, Heunis T, Dippenaar A, Gallant JL, Kleynhans L, and Sampson SL

Abstract

Although currently available model organisms such as Mycobacterium smegmatis and Mycobacterium bovis Bacillus Calmette-Guérin (BCG) have significantly contributed to our understanding of tuberculosis (TB) biology, these models have limitations such as differences in genome size, growth rates and virulence. However, attenuated Mycobacterium tuberculosis strains may provide more representative, safer models to study M. tuberculosis biology. For example, the M. tuberculosis Δ leuD Δ panCD double auxotroph, has undergone rigorous in vitro and in vivo safety testing. Like other auxotrophic strains, this has subsequently been approved for use in biosafety level (BSL) 2 facilities. Auxotrophic strains have been assessed as models for drug-resistant M. tuberculosis and for studying latent TB. These offer the potential as safe and useful models, but it is important to understand how well these recapitulate salient features of non-attenuated M. tuberculosis. We therefore performed a comprehensive comparison of M. tuberculosis H37Rv and M. tuberculosis Δ leuD Δ panCD . These strains demonstrated similar in vitro and intra-macrophage replication rates, similar responses to anti-TB agents and whole genome sequence conservation. Shotgun proteomics analysis suggested that M. tuberculosis Δ leuD Δ panCD has a heightened stress response that leads to reduced bacterial replication during exposure to acid stress, which has been verified using a dual-fluorescent replication reporter assay. Importantly, infection of human peripheral blood mononuclear cells with the 2 strains elicited comparable cytokine production, demonstrating the suitability of M. tuberculosis Δ leuD Δ panCD for immunological assays. We provide comprehensive evidence to support the judicious use of M. tuberculosis Δ leuD Δ panCD as a safe and suitable model organism for M. tuberculosis research, without the need for a BSL3 facility.

Published

2019

27. Matrix modification for enhancing the transport properties of the human cartilage endplate to improve disc nutrition.

Author

Dolor A, Sampson SL, Lazar AA, Lotz JC, Szoka FC, and Fields AJ

Subjects

Adult, Aged, Biological Transport drug effects, Cartilage cytology, Cell Survival, Collagen metabolism, Extracellular Matrix drug effects, Extracellular Matrix metabolism, Humans, In Vitro Techniques, Intervertebral Disc Degeneration drug therapy, Intervertebral Disc Degeneration metabolism, Middle Aged, Recombinant Proteins metabolism, Recombinant Proteins pharmacology, Cartilage drug effects, Cartilage metabolism, Intervertebral Disc drug effects, Intervertebral Disc metabolism, Matrix Metalloproteinase 8 metabolism, Matrix Metalloproteinase 8 pharmacology

Abstract

Poor solute transport through the cartilage endplate (CEP) impairs disc nutrition and could be a key factor that limits the success of intradiscal biologic therapies. Here we demonstrate that treating the CEP with matrix metalloproteinase-8 (MMP-8) reduces the matrix constituents that impede solute uptake and thereby improves nutrient diffusion. Human CEP tissues harvested from four fresh cadaveric lumbar spines (age range: 38-66 years old) were treated with MMP-8. Treatment caused a dose-dependent reduction in sGAG, localized reductions to the amount of collagen, and alterations to collagen structure. These matrix modifications corresponded with 16-24% increases in the uptake of a small solute (376 Da). Interestingly, the effects of MMP-8 treatment depended on the extent of non-enzymatic glycation: treated CEPs with high concentrations of advanced glycation end products (AGEs) exhibited the lowest uptake compared to treated CEPs with low concentrations of AGEs. Moreover, AGE concentrations were donor-specific, and the donor tissues with the highest AGE concentrations appeared to have lower uptake than would be expected based on the initial amounts of collagen and sGAG. Finally, increasing solute uptake in the CEP improved cell viability inside diffusion chambers, which supports the nutritional relevance of enhancing the transport properties of the CEP. Taken together, our results provide new insights and in vitro proof-of-concept for a treatment approach that could improve disc nutrition for biologic therapy: specifically, matrix reduction by MMP-8 can enhance solute uptake and nutrient diffusion through the CEP, and AGE concentration appears to be an important, patient-specific factor that influences the efficacy of this approach., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

28. Recovery of Mycobacterium tuberculosis from positive mycobacterium growth indicator tubes stored at room temperature for up to 6 years in low-income and High-Tuberculosis-Burden Country.

Author

Chirenda J, Chipinduro M, de Kock M, Spies C, Sakubani CT, Warren RM, Sampson SL, and Streicher EM

Subjects

Biological Specimen Banks, Cold Temperature, Colony Count, Microbial, Cross-Sectional Studies, Developing Countries, Humans, Mycobacterium tuberculosis growth & development, Time Factors, Zimbabwe, DNA, Bacterial isolation & purification, Microbial Viability, Mycobacterium tuberculosis isolation & purification, Specimen Handling methods

Abstract

Background: Biobanking of Mycobacterium tuberculosis (Mtb) sputum samples for future research activities recommends the use of -70°C or -80°C freezers. Infrastructure for biobanking is not readily available in the majority of low-income countries. This study aimed to assess the recovery rate of Mtb isolates stored at room temperature for more than 6 years in Zimbabwe., Methods: Census samples of all confirmed rifampicin-resistant/multidrug-resistant tuberculosis isolates that were stored in mycobacterial growth indicator tubes (MGITs) at room temperature from 2011 to 2016 were identified and retrieved. The samples were subcultured on MGIT and 7H10 solid media for the extraction of genomic deoxyribonucleic acid using the phenol/chloroform method followed by precipitation with isopropanol., Results: A total of 248/400 (62%) isolates were successfully recovered. Recovery rates increased with declining time since the last culture, with 51% for samples stored for 6 years which increased to 77% for those stored for 1 year. The isolates that grew but were contaminated during the first subculture at the National Microbiology Reference Laboratory in Harare could not be recovered through decontamination because of limited resources. Decontamination was only possible during the second culture at the University of Stellenbosch., Conclusion: Storage of Mtb isolates at room temperature is a viable option in low-income countries where currently recommended biobanking procedures may not be available. This low-cost biobanking will facilitate research activities years later as new questions arise. Standard infection prevention and control when handling Mtb samples stored under room temperature for long periods is strongly recommended as these bacteria remain viable longer than previously reported., Competing Interests: None

Published

2019

29. Effects of dynamic loading on solute transport through the human cartilage endplate.

Author

Sampson SL, Sylvia M, and Fields AJ

Subjects

Adult, Aged, Biological Transport, Biomechanical Phenomena, Cartilage metabolism, Humans, Intervertebral Disc metabolism, Intervertebral Disc physiology, Middle Aged, Porosity, Weight-Bearing, Cartilage physiology

Abstract

Nutrient and metabolite transport through the cartilage endplate (CEP) is important for maintaining proper disc nutrition, but the mechanisms of solute transport remain unclear. One unresolved issue is the role of dynamic loading. In comparison to static loading, dynamic loading is thought to enhance transport by increasing convection. However, the CEP has a high resistance to fluid flow, which could limit solute convection. Here we measure solute transport through site-matched cadaveric human lumbar CEP tissues under static vs. dynamic loading, and we determine how the degree of transport enhancement from dynamic loading depends on CEP porosity and solute size. We found that dynamic loading significantly increased small and large solute transport through the CEP: on average, dynamic loading increased the transport of sodium fluorescein (376 Da) by a factor of 1.85 ± 0.64 and the transport of a large dextran (4000 Da) by a factor of 4.97 ± 3.05. Importantly, CEP porosity (0.65 ± 0.07; range: 0.47-0.76) strongly influenced the degree of transport enhancement. Specifically, for both solutes, transport enhancement was greater for CEPs with low porosity than for CEPs with high porosity. This is because the CEPs with low porosity were susceptible to larger improvements in fluid flow under dynamic loading. The CEP becomes less porous and less hydrated with aging and as disc degeneration progresses. Together, these findings suggest that as those changes occur, dynamic loading has a greater effect on solute transport through the CEP compared to static loading, and thus may play a larger role in disc nutrition., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

30. Mycobacterium Tuberculosis and Interactions with the Host Immune System: Opportunities for Nanoparticle Based Immunotherapeutics and Vaccines.

Author

Bekale RB, Du Plessis SM, Hsu NJ, Sharma JR, Sampson SL, Jacobs M, Meyer M, Morse GD, and Dube A

Subjects

Animals, Host-Pathogen Interactions, Humans, Immunotherapy, Nanoparticles, Tuberculosis microbiology, Tuberculosis prevention & control, Vaccination, Immune System immunology, Immune System microbiology, Mycobacterium tuberculosis immunology, Mycobacterium tuberculosis metabolism

Abstract

Tuberculosis (TB) caused by Mycobacterium tuberculosis remains a deadly infectious disease. The thin pipeline of new drugs for TB, the ineffectiveness in adults of the only vaccine available, i.e. the Bacillus Calmette-Guerin vaccine, and increasing global antimicrobial resistance, has reinvigorated interest in immunotherapies. Nanoparticles (NPs) potentiate the effect of immune modulating compounds (IMC), enabling cell targeting, improved transfection of antigens, enhanced compound stability and provide opportunities for synergistic action, via delivery of multiple IMCs. In this review we describe work performed in the application of NPs towards achieving immune modulation for TB treatment and vaccination. Firstly, we present a comprehensive review of M. tuberculosis and how the bacterium modulates the host immune system. We find that current work suggest great promise of NP based immunotherapeutics as novel treatments and vaccination systems. There is need to intensify research efforts in this field, and rationally design novel NP immunotherapeutics based on current knowledge of the mycobacteriology and immune escape mechanisms employed by M. tuberculosis.

Published

2018

31. Geospatial distribution of Mycobacterium tuberculosis genotypes in Africa.

Author

Chihota VN, Niehaus A, Streicher EM, Wang X, Sampson SL, Mason P, Källenius G, Mfinanga SG, Pillay M, Klopper M, Kasongo W, Behr MA, Gey van Pittius NC, van Helden PD, Couvin D, Rastogi N, and Warren RM

Subjects

Africa epidemiology, Cluster Analysis, Databases, Factual, Demography, Humans, Mycobacterium tuberculosis classification, Mycobacterium tuberculosis isolation & purification, Phylogeny, Principal Component Analysis, Tuberculosis epidemiology, Genotype, Mycobacterium tuberculosis genetics, Tuberculosis microbiology

Abstract

Objective: To investigate the distribution of Mycobacterium tuberculosis genotypes across Africa., Methods: The SITVIT2 global repository and PUBMED were searched for spoligotype and published genotype data respectively, of M. tuberculosis from Africa. M. tuberculosis lineages in Africa were described and compared across regions and with those from 7 European and 6 South-Asian countries. Further analysis of the major lineages and sub-lineages using Principal Component analysis (PCA) and hierarchical cluster analysis were done to describe clustering by geographical regions. Evolutionary relationships were assessed using phylogenetic tree analysis., Results: A total of 14727 isolates from 35 African countries were included in the analysis and of these 13607 were assigned to one of 10 major lineages, whilst 1120 were unknown. There were differences in geographical distribution of major lineages and their sub-lineages with regional clustering. Southern African countries were grouped based on high prevalence of LAM11-ZWE strains; strains which have an origin in Portugal. The grouping of North African countries was due to the high percentage of LAM9 strains, which have an origin in the Eastern Mediterranean region. East African countries were grouped based on Central Asian (CAS) and East-African Indian (EAI) strain lineage possibly reflecting historic sea trade with Asia, while West African Countries were grouped based on Cameroon lineage of unknown origin. A high percentage of the Haarlem lineage isolates were observed in the Central African Republic, Guinea, Gambia and Tunisia, however, a mixed distribution prevented close clustering., Conclusions: This study highlighted that the TB epidemic in Africa is driven by regional epidemics characterized by genetically distinct lineages of M. tuberculosis. M. tuberculosis in these regions may have been introduced from either Europe or Asia and has spread through pastoralism, mining and war. The vast array of genotypes and their associated phenotypes should be considered when designing future vaccines, diagnostics and anti-TB drugs., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

32. Mycobacterial nucleoid associated proteins: An added dimension in gene regulation.

Author

Kriel NL, Gallant J, van Wyk N, van Helden P, Sampson SL, Warren RM, and Williams MJ

Subjects

Bacterial Proteins metabolism, Chromosomes, Bacterial ultrastructure, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Histones genetics, Histones metabolism, Models, Molecular, Mycobacterium tuberculosis metabolism, Nucleic Acid Conformation, Stress, Physiological, Transcription, Genetic, Bacterial Proteins genetics, Gene Expression Regulation, Bacterial, Mycobacterium tuberculosis genetics

Abstract

Nucleoid associated proteins (NAPs) are known organisers of chromosomal structure and regulators of transcriptional expression. The number of proposed NAPs in mycobacteria are significantly lower than the number identified in other organisms. An interesting feature of mycobacterial NAPs is their low sequence similarity with those in other species, a property that has hindered their identification. In this review, we discuss the current evidence for the proposed classification of six mycobacterial proteins, Lsr2, EspR, mIHF, HupB, MDP2 and NapM, as NAPs in mycobacterial species with an emphasis on their roles in modulating chromosome structure and transcriptional regulation. In addition, we highlight the technical difficulties associated with investigating and providing evidence for the classification of proteins as NAPs in mycobacteria. We also address the role of mycobacterial NAPs as mediators of stress responses and highlight the recent developments aimed at targeting NAP-DNA interactions for the development of novel anti-TB drugs., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

33. Small Molecule Efflux Pump Inhibitors in Mycobacterium tuberculosis: A Rational Drug Design Perspective.

Author

Kapp E, Malan SF, Joubert J, and Sampson SL

Subjects

Anti-Bacterial Agents chemical synthesis, Anti-Bacterial Agents chemistry, Biological Transport, Active drug effects, Microbial Sensitivity Tests, Multidrug Resistance-Associated Proteins metabolism, Small Molecule Libraries chemical synthesis, Small Molecule Libraries chemistry, Anti-Bacterial Agents pharmacology, Multidrug Resistance-Associated Proteins antagonists & inhibitors, Mycobacterium tuberculosis drug effects, Small Molecule Libraries pharmacology

Abstract

Drug resistance in Mycobacterium tuberculosis (M. tuberculosis) complicates management of tuberculosis. Efflux pumps contribute to low level resistance and acquisition of additional high level resistance mutations through sub-therapeutic concentrations of intracellular antimycobacterials. Various efflux pump inhibitors (EPIs) have been described for M. tuberculosis but little is known regarding the mechanism of efflux inhibition. As knowledge relating to the mechanism of action and drug target is central to the rational drug design of safe and sufficiently selective EPIs, this review aims to examine recent developments in the study of EPIs in M. tuberculosis from a rational drug development perspective and to provide an overview to facilitate systematic development of therapeutically effective EPIs. Review of literature points to a reduction in cellular energy or direct binding to the efflux pump as likely mechanisms for most EPIs described for M. tuberculosis. This review demonstrates that, where a direct interaction with efflux pumps is expected, both molecular structure and general physicochemical properties should be considered to accurately predict efflux pump substrates and inhibitors. Non-competitive EPIs do not necessarily demonstrate the same requirements as competitive inhibitors and it is therefore essential to differentiate between competitive and non-competitive inhibition to accurately determine structure activity relationships for efflux pump inhibition. It is also evident that there are various similarities between inhibitors of prokaryotic and eukaryotic efflux pumps but, depending on the specific chemical scaffolds under investigation, it may be possible to design EPIs that are less prone to inhibition of human P-glycoprotein, thereby reducing side effects and drug-drug interactions., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.)

Published

2018

34. Proteogenomic Investigation of Strain Variation in Clinical Mycobacterium tuberculosis Isolates.

Author

Heunis T, Dippenaar A, Warren RM, van Helden PD, van der Merwe RG, Gey van Pittius NC, Pain A, Sampson SL, and Tabb DL

Subjects

Gene Expression Regulation, Bacterial genetics, Genetic Variation genetics, Genome, Bacterial genetics, Humans, Mycobacterium tuberculosis pathogenicity, Peptides isolation & purification, Tandem Mass Spectrometry, Tuberculosis drug therapy, Tuberculosis microbiology, Mycobacterium tuberculosis genetics, Peptides genetics, Proteogenomics, Tuberculosis genetics

Abstract

Mycobacterium tuberculosis consists of a large number of different strains that display unique virulence characteristics. Whole-genome sequencing has revealed substantial genetic diversity among clinical M. tuberculosis isolates, and elucidating the phenotypic variation encoded by this genetic diversity will be of the utmost importance to fully understand M. tuberculosis biology and pathogenicity. In this study, we integrated whole-genome sequencing and mass spectrometry (GeLC-MS/MS) to reveal strain-specific characteristics in the proteomes of two clinical M. tuberculosis Latin American-Mediterranean isolates. Using this approach, we identified 59 peptides containing single amino acid variants, which covered ∼9% of all coding nonsynonymous single nucleotide variants detected by whole-genome sequencing. Furthermore, we identified 29 distinct peptides that mapped to a hypothetical protein not present in the M. tuberculosis H37Rv reference proteome. Here, we provide evidence for the expression of this protein in the clinical M. tuberculosis SAWC3651 isolate. The strain-specific databases enabled confirmation of genomic differences (i.e., large genomic regions of difference and nonsynonymous single nucleotide variants) in these two clinical M. tuberculosis isolates and allowed strain differentiation at the proteome level. Our results contribute to the growing field of clinical microbial proteogenomics and can improve our understanding of phenotypic variation in clinical M. tuberculosis isolates.

Published

2017

35. Versatility of 7-Substituted Coumarin Molecules as Antimycobacterial Agents, Neuronal Enzyme Inhibitors and Neuroprotective Agents.

Author

Kapp E, Visser H, Sampson SL, Malan SF, Streicher EM, Foka GB, Warner DF, Omoruyi SI, Enogieru AB, Ekpo OE, Zindo FT, and Joubert J

Subjects

Animals, Anti-Bacterial Agents pharmacology, Binding Sites, Cell Line, Cell Survival drug effects, Cholinesterase Inhibitors pharmacology, Coumarins pharmacology, Cricetulus, Drug Resistance, Bacterial, Humans, Microbial Sensitivity Tests, Molecular Structure, Monoamine Oxidase Inhibitors pharmacology, Neuroprotective Agents pharmacology, Protein Binding, Structure-Activity Relationship, Anti-Bacterial Agents chemistry, Cholinesterase Inhibitors chemistry, Coumarins chemistry, Monoamine Oxidase Inhibitors chemistry, Mycobacterium tuberculosis drug effects, Neuroprotective Agents chemistry

Abstract

A medium-throughput screen using Mycobacterium tuberculosis H37Rv was employed to screen an in-house library of structurally diverse compounds for antimycobacterial activity. In this initial screen, eleven 7-substituted coumarin derivatives with confirmed monoamine oxidase-B and cholinesterase inhibitory activities, demonstrated growth inhibition of more than 50% at 50 µM. This prompted further exploration of all the 7-substituted coumarins in our library. Four compounds showed promising MIC 99 values of 8.31-29.70 µM and 44.15-57.17 µM on M. tuberculosis H37Rv in independent assays using GAST-Fe and 7H9+OADC media, respectively. These compounds were found to bind to albumin, which may explain the variations in MIC between the two assays. Preliminary data showed that they were able to maintain their activity in fluoroquinolone resistant mycobacteria. Structure-activity relationships indicated that structural modification on position 4 and/or 7 of the coumarin scaffold could direct the selectivity towards either the inhibition of neuronal enzymes or the antimycobacterial effect. Moderate cytotoxicities were observed for these compounds and slight selectivity towards mycobacteria was indicated. Further neuroprotective assays showed significant neuroprotection for selected compounds irrespective of their neuronal enzyme inhibitory properties. These coumarin molecules are thus interesting lead compounds that may provide insight into the design of new antimicrobacterial and neuroprotective agents., Competing Interests: The authors declare no conflict of interest.

Published

2017

36. Exploring the potential of T7 bacteriophage protein Gp2 as a novel inhibitor of mycobacterial RNA polymerase.

Author

du Plessis J, Cloete R, Burchell L, Sarkar P, Warren RM, Christoffels A, Wigneshweraraj S, and Sampson SL

Subjects

Antitubercular Agents chemistry, Antitubercular Agents pharmacology, Bacterial Proteins chemistry, Bacterial Proteins genetics, Bacteriophage T7 genetics, DNA-Directed RNA Polymerases chemistry, DNA-Directed RNA Polymerases genetics, Drug Discovery methods, Escherichia coli enzymology, Escherichia coli genetics, Gene Expression Regulation, Bacterial, Gene Expression Regulation, Enzymologic, Molecular Dynamics Simulation, Mycobacterium tuberculosis genetics, Mycobacterium tuberculosis pathogenicity, Principal Component Analysis, Protein Binding, Protein Conformation, Protein Interaction Domains and Motifs, Repressor Proteins chemistry, Repressor Proteins genetics, Transcription, Genetic, Bacterial Proteins metabolism, Bacteriophage T7 enzymology, DNA-Directed RNA Polymerases metabolism, Mycobacterium tuberculosis enzymology, Repressor Proteins metabolism

Abstract

Over the past six decades, there has been a decline in novel therapies to treat tuberculosis, while the causative agent of this disease has become increasingly resistant to current treatment regimens. Bacteriophages (phages) are able to kill bacterial cells and understanding this process could lead to novel insights for the treatment of mycobacterial infections. Phages inhibit bacterial gene transcription through phage-encoded proteins which bind to RNA polymerase (RNAP), thereby preventing bacterial transcription. Gp2, a T7 phage protein which binds to the beta prime (β') subunit of RNAP in Escherichia coli, has been well characterized in this regard. Here, we aimed to determine whether Gp2 is able to inhibit RNAP in Mycobacterium tuberculosis as this may provide new possibilities for inhibiting the growth of this deadly pathogen. Results from an electrophoretic mobility shift assay and in vitro transcription assay revealed that Gp2 binds to mycobacterial RNAP and inhibits transcription; however to a much lesser degree than in E. coli. To further understand the molecular basis of these results, a series of in silico techniques were used to assess the interaction between mycobacterial RNAP and Gp2, providing valuable insight into the characteristics of this protein-protein interaction., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

37. Two promoters in the esx-3 gene cluster of Mycobacterium smegmatis respond inversely to different iron concentrations in vitro.

Author

Fang Z, Newton-Foot M, Sampson SL, and Gey van Pittius NC

Subjects

Bacterial Secretion Systems metabolism, Gene Expression Regulation, Bacterial, Iron metabolism, Multigene Family, Mycobacterium smegmatis metabolism, Promoter Regions, Genetic

Abstract

Background: The ESX secretion system, also known as the Type VII secretion system, is mostly found in mycobacteria and plays important roles in nutrient acquisition and host pathogenicity. One of the five ESXs, ESX-3, is associated with mycobactin-mediated iron acquisition. Although the functions of some of the membrane-associated components of the ESX systems have been described, the role of by mycosin-3 remains elusive. The esx-3 gene cluster encoding ESX-3 in both Mycobacterium tuberculosis and Mycobacterium smegmatis has two promoters, suggesting the presence of two transcriptional units. Previous studies indicated that the two promoters only showed a difference in response under acid stress (pH 4.2). This study aimed to study the effect of a mycosin-3 deletion on the physiology of M. smegmatis and to assess the promoter activities in wildtype, mycosin-3 mutant and complementation strains., Results: The gene mycP 3 was deleted from wildtype M. smegmatis via homologous recombination. The mycP 3 gene was complemented in the deletion mutant using each of the two intrinsic promoters from the M. smegmatis esx-3 gene cluster. The four strains were compared in term of bacterial growth and intracellular iron content. The two promoter activities were assessed under iron-rich, iron-deprived and iron-rescued conditions by assessing the mycP 3 expression level. Although the mycP 3 gene deletion did not significantly impact bacterial growth or intracellular iron levels in comparison to the wild-type and complemented strains, the two esx-3 promoters were shown to respond inversely to iron deprivation and iron rescue., Conclusion: This finding correlates with the previously published data that the first promoter upstream of msmeg0615, is upregulated under low iron levels but downregulated under high iron levels. In addition, the second promoter, upstream of msmeg0620, behaves in an inverse fashion to the first promoter implying that the genes downstream may have additional roles when the iron levels are high.

Published

2017

38. Mammalian cell cultures as models for Mycobacterium tuberculosis-human immunodeficiency virus (HIV) interaction studies: A review.

Author

Chingwaru W, Glashoff RH, Vidmar J, Kapewangolo P, and Sampson SL

Abstract

Mycobacterium tuberculosis and human immunodeficiency virus (HIV) co-infections have remained a major public health concern worldwide, particularly in Southern Africa. Yet our understanding of the molecular interactions between the pathogens has remained poor due to lack of suitable preclinical models for such studies. We reviewed the use, this far, of mammalian cell culture models in HIV-MTB interaction studies. Studies have described the use of primary human cell cultures, including (1) monocyte-derived macrophage (MDM) fractions of peripheral blood mononuclear cell (PBMC), alveolar macrophages (AM), (2) cell lines such as the monocyte-derived macrophage cell line (U937), T lymphocyte cell lines (CEMx174, ESAT-6-specific CD4(+) T-cells) and an alveolar epithelial cell line (A549) and (3) special models such as stem cells, three dimensional (3D) or organoid cell models (including a blood-brain barrier cell model) in HIV-MTB interaction studies. The use of cell cultures from other mammals, including: mouse cell lines [macrophage cell lines RAW 264.7 and J774.2, fibroblast cell lines (NIH 3T3, C3H clones), embryonic fibroblast cell lines and T-lymphoma cell lines (S1A.TB, TIMI.4 and R1.1)]; rat (T cells: Rat2, RGE, XC and HH16, and alveolar cells: NR8383) and primary guinea pigs derived AMs, in HIV-MTB studies is also described. Given the spectrum of the models available, cell cultures offer great potential for host-HIV-MTB interactions studies., (Copyright © 2016 Hainan Medical College. Production and hosting by Elsevier B.V. All rights reserved.)

Published

2016

39. Prevalence of pyrazinamide resistance across the spectrum of drug resistant phenotypes of Mycobacterium tuberculosis.

Author

Whitfield MG, Streicher EM, Dolby T, Simpson JA, Sampson SL, Van Helden PD, Van Rie A, and Warren RM

Subjects

Genotype, Humans, Microbial Sensitivity Tests, Mutation, Mycobacterium tuberculosis genetics, Mycobacterium tuberculosis pathogenicity, Phenotype, Prevalence, South Africa epidemiology, Tuberculosis, Multidrug-Resistant diagnosis, Tuberculosis, Multidrug-Resistant epidemiology, Tuberculosis, Multidrug-Resistant microbiology, Antitubercular Agents therapeutic use, Drug Resistance, Multiple, Bacterial genetics, Mycobacterium tuberculosis drug effects, Pyrazinamide therapeutic use, Tuberculosis, Multidrug-Resistant drug therapy

Abstract

Pyrazinamide resistance is largely unknown in the spectrum of drug resistant phenotypes. We summarize data on PZA resistance in clinical isolates from South Africa. PZA DST should be performed when considering its inclusion in treatment of patients with rifampicin-resistant TB or MDR-TB., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

40. Elucidating population-wide mycobacterial replication dynamics at the single-cell level.

Author

Mouton JM, Helaine S, Holden DW, and Sampson SL

Subjects

Animals, Cell Line, DNA Replication, Mice, Mycobacterium tuberculosis genetics, RAW 264.7 Cells, Anti-Bacterial Agents pharmacology, Drug Resistance, Bacterial genetics, Macrophages microbiology, Mycobacterium tuberculosis drug effects, Mycobacterium tuberculosis growth & development, Single-Cell Analysis methods, Tuberculosis microbiology

Abstract

Mycobacterium tuberculosis infections result in a spectrum of clinical outcomes, and frequently the infection persists in a latent, clinically asymptomatic state. The within-host bacterial population is likely to be heterogeneous, and it is thought that persistent mycobacteria arise from a small population of viable, but non-replicating (VBNR) cells. These are likely to be antibiotic tolerant and necessitate prolonged treatment. Little is known about these persistent mycobacteria, since they are very difficult to isolate. To address this, we have successfully developed a replication reporter system for use in M. tuberculosis. This approach, termed fluorescence dilution, exploits two fluorescent reporters; a constitutive reporter allows the tracking of bacteria, while an inducible reporter enables the measurement of bacterial replication. The application of fluorescence single-cell analysis to characterize intracellular M. tuberculosis identified a distinct subpopulation of non-growing mycobacteria in murine macrophages. The presence of VBNR and actively replicating mycobacteria was observed within the same macrophage after 48 h of infection. Furthermore, our results suggest that macrophage uptake resulted in enrichment of non- or slowly replicating bacteria (as revealed by d-cycloserine treatment); this population is likely to be highly enriched for persisters, based on its drug-tolerant phenotype. These results demonstrate the successful application of the novel dual fluorescence reporter system both in vitro and in macrophage infection models to provide a window into mycobacterial population heterogeneity.

Published

2016

41. The plasmid-mediated evolution of the mycobacterial ESX (Type VII) secretion systems.

Author

Newton-Foot M, Warren RM, Sampson SL, van Helden PD, and Gey van Pittius NC

Subjects

Bacteria genetics, Bacterial Proteins genetics, Multigene Family, Mycobacterium metabolism, Mycobacterium tuberculosis genetics, Mycobacterium tuberculosis metabolism, Mycobacterium tuberculosis pathogenicity, Phylogeny, Plasmids, Protein Transport, Mycobacterium classification, Mycobacterium genetics, Type VII Secretion Systems genetics

Abstract

Background: The genome of Mycobacterium tuberculosis contains five copies of the ESX gene cluster, each encoding a dedicated protein secretion system. These ESX secretion systems have been defined as a novel Type VII secretion machinery, responsible for the secretion of proteins across the characteristic outer mycomembrane of the mycobacteria. Some of these secretion systems are involved in virulence and survival in M. tuberculosis; however they are also present in other non-pathogenic mycobacteria, and have been identified in some non-mycobacterial actinomycetes. Three components of the ESX gene cluster have also been found clustered in some gram positive monoderm organisms and are predicted to have preceded the ESX gene cluster., Results: This study used in silico and phylogenetic analyses to describe the evolution of the ESX gene cluster from the WXG-FtsK cluster of monoderm bacteria to the five ESX clusters present in M. tuberculosis and other slow-growing mycobacteria. The ancestral gene cluster, ESX-4, was identified in several nonmycomembrane producing actinobacteria as well as the mycomembrane-containing Corynebacteriales in which the ESX cluster began to evolve and diversify. A novel ESX gene cluster, ESX-4EVOL, was identified in some non-mycobacterial actinomycetes and M. abscessus subsp. bolletii. ESX-4EVOL contains all of the conserved components of the ESX gene cluster and appears to be a precursor of the mycobacterial ESX duplications. Between two and seven ESX gene clusters were identified in each mycobacterial species, with ESX-2 and ESX-5 specifically associated with the slow growers. The order of ESX duplication in the mycobacteria is redefined as ESX-4, ESX-3, ESX-1 and then ESX-2 and ESX-5. Plasmid-encoded precursor ESX gene clusters were identified for each of the genomic ESX-3, -1, -2 and -5 gene clusters, suggesting a novel plasmid-mediated mechanism of ESX duplication and evolution., Conclusions: The influence of the various ESX gene clusters on vital biological and virulence-related functions has clearly influenced the diversification and success of the various mycobacterial species, and their evolution from the non-pathogenic fast-growing saprophytic to the slow-growing pathogenic organisms.

Published

2016

42. Recombination in pe/ppe genes contributes to genetic variation in Mycobacterium tuberculosis lineages.

Author

Phelan JE, Coll F, Bergval I, Anthony RM, Warren R, Sampson SL, Gey van Pittius NC, Glynn JR, Crampin AC, Alves A, Bessa TB, Campino S, Dheda K, Grandjean L, Hasan R, Hasan Z, Miranda A, Moore D, Panaiotov S, Perdigao J, Portugal I, Sheen P, de Oliveira Sousa E, Streicher EM, van Helden PD, Viveiros M, Hibberd ML, Pain A, McNerney R, and Clark TG

Subjects

DNA, Bacterial genetics, Evolution, Molecular, Genome, Bacterial, Genomics methods, Genotype, Mutation, Phylogeny, Selection, Genetic, Sequence Analysis, DNA, Genes, Bacterial, Multigene Family, Mycobacterium tuberculosis genetics, Polymorphism, Single Nucleotide, Recombination, Genetic

Abstract

Background: Approximately 10% of the Mycobacterium tuberculosis genome is made up of two families of genes that are poorly characterized due to their high GC content and highly repetitive nature. The PE and PPE families are typified by their highly conserved N-terminal domains that incorporate proline-glutamate (PE) and proline-proline-glutamate (PPE) signature motifs. They are hypothesised to be important virulence factors involved with host-pathogen interactions, but their high genetic variability and complexity of analysis means they are typically disregarded in genome studies., Results: To elucidate the structure of these genes, 518 genomes from a diverse international collection of clinical isolates were de novo assembled. A further 21 reference M. tuberculosis complex genomes and long read sequence data were used to validate the approach. SNP analysis revealed that variation in the majority of the 168 pe/ppe genes studied was consistent with lineage. Several recombination hotspots were identified, notably pe_pgrs3 and pe_pgrs17. Evidence of positive selection was revealed in 65 pe/ppe genes, including epitopes potentially binding to major histocompatibility complex molecules., Conclusions: This, the first comprehensive study of the pe and ppe genes, provides important insight into M. tuberculosis diversity and has significant implications for vaccine development.

Published

2016

43. Strength in Diversity: Hidden Genetic Depths of Mycobacterium tuberculosis.

Author

Sampson SL

Subjects

Antitubercular Agents pharmacology, Humans, Mycobacterium tuberculosis classification, Mycobacterium tuberculosis drug effects, Mycobacterium tuberculosis isolation & purification, Tuberculosis microbiology, Genetic Variation, Mycobacterium tuberculosis genetics

Abstract

Next-generation whole genome sequencing data is currently being utilised to explore Mycobacterium tuberculosis genetic diversity. Studies have focused in particular on the evolution of drug resistance, and have revealed a surprising degree of dynamic population heterogeneity, with implications for transmission studies, treatment regimens and new drug target development., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

44. Efflux pump inhibitors: targeting mycobacterial efflux systems to enhance TB therapy.

Author

Pule CM, Sampson SL, Warren RM, Black PA, van Helden PD, Victor TC, and Louw GE

Subjects

Antitubercular Agents metabolism, Clofazimine metabolism, Clofazimine pharmacology, Diarylquinolines metabolism, Diarylquinolines pharmacology, Humans, Antitubercular Agents pharmacology, Biological Transport, Active drug effects, Drug Resistance, Bacterial drug effects, Membrane Transport Proteins metabolism, Mycobacterium tuberculosis drug effects

Abstract

The emergence of drug resistance continues to plague TB control, with a global increase in the prevalence of MDR-TB. This acts as a gateway to XDR-TB and thus emphasizes the urgency for drug development and optimal treatment options. Bedaquiline is the first new anti-TB drug approved by the FDA in 40 years and has been shown to be an effective treatment option for MDR Mycobacterium tuberculosis infection. Bedaquiline has also recently been included in clinical trials for new regimens with the aim of improving and shortening treatment periods. Alarmingly, efflux-mediated bedaquiline resistance, as well as efflux-mediated cross-resistance to clofazimine, has been identified in treatment failures. This mechanism of resistance results in efflux of a variety of anti-TB drugs from the bacterial cell, thereby decreasing the intracellular drug concentration. In doing so, the bacillus is able to render the antibiotic treatment ineffective. Recent studies have explored strategies to reverse the resistance phenotype conferred by efflux pump activation. It was observed that the addition of efflux pump inhibitors partially restored drug susceptibility in vitro and in vivo. This has significant clinical implications, especially in MDR-TB management where treatment options are extremely limited. This review aims to highlight the current efflux pump inhibitors effective against M. tuberculosis, the effect of efflux pump inhibitors on mycobacterial growth and the clinical promise of treatment with efflux pump inhibitors and standard anti-TB therapy., (© The Author 2015. Published by Oxford University Press on behalf of the British Society for Antimicrobial Chemotherapy. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

45. Whole genome sequence analysis of Mycobacterium suricattae.

Author

Dippenaar A, Parsons SDC, Sampson SL, van der Merwe RG, Drewe JA, Abdallah AM, Siame KK, Gey van Pittius NC, van Helden PD, Pain A, and Warren RM

Subjects

Animals, Base Sequence, DNA, Bacterial isolation & purification, Evolution, Molecular, Mycobacterium tuberculosis classification, Mycobacterium tuberculosis isolation & purification, Phylogeny, Polymorphism, Single Nucleotide, DNA, Bacterial genetics, Genome, Bacterial, Herpestidae microbiology, High-Throughput Nucleotide Sequencing, Mycobacterium tuberculosis genetics, Sequence Analysis, DNA methods

Abstract

Tuberculosis occurs in various mammalian hosts and is caused by a range of different lineages of the Mycobacterium tuberculosis complex (MTBC). A recently described member, Mycobacterium suricattae, causes tuberculosis in meerkats (Suricata suricatta) in Southern Africa and preliminary genetic analysis showed this organism to be closely related to an MTBC pathogen of rock hyraxes (Procavia capensis), the dassie bacillus. Here we make use of whole genome sequencing to describe the evolution of the genome of M. suricattae, including known and novel regions of difference, SNPs and IS6110 insertion sites. We used genome-wide phylogenetic analysis to show that M. suricattae clusters with the chimpanzee bacillus, previously isolated from a chimpanzee (Pan troglodytes) in West Africa. We propose an evolutionary scenario for the Mycobacterium africanum lineage 6 complex, showing the evolutionary relationship of M. africanum and chimpanzee bacillus, and the closely related members M. suricattae, dassie bacillus and Mycobacterium mungi., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

46. Mycobacterium tuberculosis pncA Polymorphisms That Do Not Confer Pyrazinamide Resistance at a Breakpoint Concentration of 100 Micrograms per Milliliter in MGIT.

Author

Whitfield MG, Warren RM, Streicher EM, Sampson SL, Sirgel FA, van Helden PD, Mercante A, Willby M, Hughes K, Birkness K, Morlock G, van Rie A, and Posey JE

Subjects

Base Sequence, DNA, Bacterial genetics, Drug Resistance, Bacterial genetics, Humans, Microbial Sensitivity Tests, Mycobacterium tuberculosis isolation & purification, Polymorphism, Single Nucleotide genetics, Sequence Analysis, DNA, South Africa, United States, Amidohydrolases genetics, Antitubercular Agents pharmacology, Mycobacterium tuberculosis drug effects, Mycobacterium tuberculosis genetics, Pyrazinamide pharmacology

Abstract

Sequencing of the Mycobacterium tuberculosis pncA gene allows for pyrazinamide susceptibility testing. We summarize data on pncA polymorphisms that do not confer resistance at a susceptibility breakpoint of 100 μg/ml pyrazinamide in MGIT within a cohort of isolates from South Africa and the U.S. Centers for Disease Control and Prevention., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015

47. Molecular Epidemiological Interpretation of the Epidemic of Extensively Drug-Resistant Tuberculosis in South Africa.

Author

Streicher EM, Sampson SL, Dheda K, Dolby T, Simpson JA, Victor TC, Gey van Pittius NC, van Helden PD, and Warren RM

Subjects

Base Sequence, DNA Fingerprinting, Epidemics, Extensively Drug-Resistant Tuberculosis microbiology, Genetic Markers genetics, Humans, Microbial Sensitivity Tests, Molecular Epidemiology methods, Mycobacterium tuberculosis classification, Mycobacterium tuberculosis genetics, Sequence Analysis, DNA, South Africa epidemiology, Tuberculosis, Pulmonary microbiology, Antitubercular Agents pharmacology, Drug Resistance, Multiple, Bacterial genetics, Extensively Drug-Resistant Tuberculosis epidemiology, Mycobacterium tuberculosis drug effects, Tuberculosis, Pulmonary epidemiology

Abstract

We show that the interpretation of molecular epidemiological data for extensively drug-resistant tuberculosis (XDR-TB) is dependent on the number of different markers used to define transmission. Using spoligotyping, IS6110 DNA fingerprinting, and DNA sequence data, we show that XDR-TB in South Africa (2006 to 2008) was predominantly driven by the acquisition of second-line drug resistance., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015

48. A Global Perspective on Pyrazinamide Resistance: Systematic Review and Meta-Analysis.

Author

Whitfield MG, Soeters HM, Warren RM, York T, Sampson SL, Streicher EM, van Helden PD, and van Rie A

Subjects

Humans, Tuberculosis, Multidrug-Resistant microbiology, Antitubercular Agents therapeutic use, Mycobacterium tuberculosis drug effects, Pyrazinamide therapeutic use, Tuberculosis, Multidrug-Resistant drug therapy

Abstract

Background: Pyrazinamide (PZA) is crucial for tuberculosis (TB) treatment, given its unique ability to eradicate persister bacilli. The worldwide burden of PZA resistance remains poorly described., Methods: Systematic PubMed, Science Direct and Scopus searches for articles reporting phenotypic (liquid culture drug susceptibility testing or pyrazinamidase activity assays) and/or genotypic (polymerase chain reaction or DNA sequencing) PZA resistance. Global and regional summary estimates were obtained from random-effects meta-analysis, stratified by presence or risk of multidrug resistant TB (MDR-TB). Regional summary estimates were combined with regional WHO TB incidence estimates to determine the annual burden of PZA resistance. Information on single nucleotide polymorphisms (SNPs) in the pncA gene was aggregated to obtain a global summary., Results: Pooled PZA resistance prevalence estimate was 16.2% (95% CI 11.2-21.2) among all TB cases, 41.3% (29.0-53.7) among patients at high MDR-TB risk, and 60.5% (52.3-68.6) among MDR-TB cases. The estimated global burden is 1.4 million new PZA resistant TB cases annually, about 270,000 in MDR-TB patients. Among 1,815 phenotypically resistant isolates, 608 unique SNPs occurred at 397 distinct positions throughout the pncA gene., Interpretation: PZA resistance is ubiquitous, with an estimated one in six incident TB cases and more than half of all MDR-TB cases resistant to PZA globally. The diversity of SNPs across the pncA gene complicates the development of rapid molecular diagnostics. These findings caution against relying on PZA in current and future TB drug regimens, especially in MDR-TB patients.

Published

2015

49. Phylogeny to function: PE/PPE protein evolution and impact on Mycobacterium tuberculosis pathogenicity.

Author

Fishbein S, van Wyk N, Warren RM, and Sampson SL

Subjects

Animals, Antigenic Variation, Antigens, Bacterial genetics, Bacterial Proteins classification, Bacterial Proteins genetics, Bacterial Proteins immunology, Guinea Pigs, Membrane Proteins genetics, Multigene Family, Mycobacterium tuberculosis physiology, Virulence genetics, Antigens, Bacterial physiology, Bacterial Proteins physiology, Evolution, Molecular, Membrane Proteins physiology, Mycobacterium tuberculosis genetics, Mycobacterium tuberculosis pathogenicity, Phylogeny

Abstract

The pe/ppe genes represent one of the most intriguing aspects of the Mycobacterium tuberculosis genome. These genes are especially abundant in pathogenic mycobacteria, with more than 160 members in M. tuberculosis. Despite being discovered over 15 years ago, their function remains unclear, although various lines of evidence implicate selected family members in mycobacterial virulence. In this review, we use PE/PPE phylogeny as a framework within which we examine the diversity and putative functions of these proteins. We report on the evolution and diversity of the respective gene families, as well as the implications thereof for function and host immune recognition. We summarize recent findings on pe/ppe gene regulation, also placing this in the context of PE/PPE phylogeny. We collate data from several large proteomics datasets, providing an overview of PE/PPE localization, and discuss the implications this may have for host responses. Assessment of the current knowledge of PE/PPE diversity suggests that these proteins are not variable antigens as has been so widely speculated; however, they do clearly play important roles in virulence. Viewing the growing body of pe/ppe literature through the lens of phylogeny reveals trends in features and function that may be associated with the evolution of mycobacterial pathogenicity., (© 2015 John Wiley & Sons Ltd.)

Published

2015

50. Iron acquisition strategies in mycobacteria.

Author

Fang Z, Sampson SL, Warren RM, Gey van Pittius NC, and Newton-Foot M

Subjects

Bacterial Proteins physiology, Biological Transport physiology, Gene Expression Regulation, Bacterial physiology, Heme metabolism, Humans, Mycobacterium tuberculosis metabolism, Secretory Pathway physiology, Siderophores physiology, Iron metabolism, Mycobacterium metabolism

Abstract

Iron is an essential element to most life forms including mycobacterial species. However, in the oxidative atmosphere iron exists as insoluble salts. Free and soluble iron ions are scarce in both the extracellular and intracellular environment which makes iron assimilation very challenging to mycobacteria. Tuberculosis, caused by the pathogen, Mycobacterium tuberculosis, is one of the most infectious and deadly diseases in the world. Extensive studies regarding iron acquisition strategies have been documented in mycobacteria, including work on the mycobacterial iron chelators (siderophores), the iron-responsive regulon, and iron transport and utilization pathways. Under low iron conditions, expression of the genes encoding iron importers, exporters and siderophore biosynthetic enzymes is up-regulated significantly increasing the ability of the bacteria to acquire limited host iron. Disabling these proteins impairs the growth of mycobacteria under low iron conditions both in vitro and in vivo, and that of pathogenic mycobacteria in animal models. Drugs targeting siderophore-mediated iron transport could offer promising therapeutic options. However, the discovery and characterization of an alternative iron acquisition mechanism, the heme transport and utilization pathway, questions the effectiveness of the siderophore-centered therapeutic strategy. Links have been found between these two distinct iron acquisition mechanisms, thus, targeting a few candidate proteins or mechanisms may influence both pathways, leading to effective elimination of the bacteria in the host., (Copyright © 2015. Published by Elsevier Ltd.)

Published

2015