J. Thimma scite author profile

Molecular-based techniques are becoming desirable as tools for identification of infectious diseases. Amongst the Burkholderia spp., there is a need to differentiate Burkholderia pseudomallei from Burkholderia cepacia, as misidentification could lead to false treatment of patients. In this study, conventional PCR assay targeting three genes was developed. Primers were designed for the amplification of Burkholderia genus-specific groEL gene, B. pseudomallei-specific mprA gene and B. cepacia-specific zmpA gene. The specificity and sensitivity of the assay was tested with 15 negative control strains and 71 Burkholderia spp. isolates including positive controls B. pseudomallei K96243 and ATCC B. cepacia strain. All B. pseudomallei strains were positive for groEL (139 bp) and mprA (162 bp), indicating a sensitivity of 100%. All B. cepacia strains produced amplicons for detection of groEL and zmpA (147 bp). Specificity using negative strains was 100%. In this study, a PCR assay specific for the detection of Burkholderia spp. and differentiation of the genus B. pseudomallei and B. cepacia was developed. The conventional assay has to be performed separately for each species due to the similar size of the PCR products amplified. This format may therefore be recommended for use as a diagnostic tool in laboratories where real-time PCR machines are not available. However, the real-time PCR was able to detect and differentiate the genus and species in single duplex assay.

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Survival and Intra-Nuclear Trafficking of Burkholderia pseudomallei: Strategies of Evasion from Immune Surveillance?

Vadivelu¹,

Vellasamy²,

Thimma³

et al. 2017

PLoS Negl Trop Dis

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BackgroundDuring infection, successful bacterial clearance is achieved via the host immune system acting in conjunction with appropriate antibiotic therapy. However, it still remains a tip of the iceberg as to where persistent pathogens namely, Burkholderia pseudomallei (B. pseudomallei) reside/hide to escape from host immune sensors and antimicrobial pressure.MethodsWe used transmission electron microscopy (TEM) to investigate post-mortem tissue sections of patients with clinical melioidosis to identify the localisation of a recently identified gut microbiome, B. pseudomallei within host cells. The intranuclear presence of B. pseudomallei was confirmed using transmission electron microscopy (TEM) of experimentally infected guinea pig spleen tissues and Live Z-stack, and ImageJ analysis of fluorescence microscopy analysis of in vitro infection of A549 human lung epithelial cells.ResultsTEM investigations revealed intranuclear localization of B. pseudomallei in cells of infected human lung and guinea pig spleen tissues. We also found that B. pseudomallei induced actin polymerization following infection of A549 human lung epithelial cells. Infected A549 lung epithelial cells using 3D-Laser scanning confocal microscopy (LSCM) and immunofluorescence microscopy confirmed the intranuclear localization of B. pseudomallei.ConclusionB. pseudomallei was found within the nuclear compartment of host cells. The nucleus may play a role as an occult or transient niche for persistence of intracellular pathogens, potentially leading to recurrrent episodes or recrudescence of infection.

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Infection of Burkholderia cepacia Induces Homeostatic Responses in the Host for Their Prolonged Survival: The Microarray Perspective

et al. 2013

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Burkholderia cepacia is an opportunistic human pathogen associated with life-threatening pulmonary infections in immunocompromised individuals. Pathogenesis of B. cepacia infection involves adherence, colonisation, invasion, survival and persistence in the host. In addition, B. cepacia are also known to secrete factors, which are associated with virulence in the pathogenesis of the infection. In this study, the host factor that may be the cause of the infection was elucidated in human epithelial cell line, A549, that was exposed to live B. cepacia (mid-log phase) and its secretory proteins (mid-log and early-stationary phases) using the Illumina Human Ref-8 microarray platform. The non-infection A549 cells were used as a control. Expression of the host genes that are related to apoptosis, inflammation and cell cycle as well as metabolic pathways were differentially regulated during the infection. Apoptosis of the host cells and secretion of pro-inflammatory cytokines were found to be inhibited by both live B. cepacia and its secretory proteins. In contrast, the host cell cycle and metabolic processes, particularly glycolysis/glycogenesis and fatty acid metabolism were transcriptionally up-regulated during the infection. Our microarray analysis provided preliminary insights into mechanisms of B. cepacia pathogenesis. The understanding of host response to an infection would provide novel therapeutic targets both for enhancing the host’s defences and repressing detrimental responses induced by the invading pathogen.

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J. Thimma

Identification of immunogenic proteins from Burkholderia cepacia secretome using proteomic analysis

Development and evaluation of polymerase chain reaction assay to detectBurkholderiagenus and to differentiate the species in clinical specimens

Survival and Intra-Nuclear Trafficking of Burkholderia pseudomallei: Strategies of Evasion from Immune Surveillance?

Infection of Burkholderia cepacia Induces Homeostatic Responses in the Host for Their Prolonged Survival: The Microarray Perspective

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