Your search keyword '"Kamariza M"' showing total 15 results

1. Detection of live mycobacteria with a solvatochromic trehalose probe for point-of-care tuberculosis diagnosis

Author

Kamariza, M., primary, Shieh, P., additional, Rodriguez-Rivera, F. P., additional, Ealand, C. S., additional, Chu, B., additional, Martinson, N., additional, Kana, B. D., additional, and Bertozzi, C. R., additional

Published

2017

2. Polygenic prediction across populations is influenced by ancestry, genetic architecture, and methodology.

Author

Wang Y, Kanai M, Tan T, Kamariza M, Tsuo K, Yuan K, Zhou W, Okada Y, Huang H, Turley P, Atkinson EG, and Martin AR

Abstract

Polygenic risk scores (PRSs) developed from multi-ancestry genome-wide association studies (GWASs), PRS multi , hold promise for improving PRS accuracy and generalizability across populations. To establish best practices for leveraging the increasing diversity of genomic studies, we investigated how various factors affect the performance of PRS multi compared with PRSs constructed from single-ancestry GWASs (PRS single ). Through extensive simulations and empirical analyses, we showed that PRS multi overall outperformed PRS single in understudied populations, except when the understudied population represented a small proportion of the multi-ancestry GWAS. Furthermore, integrating PRSs based on local ancestry-informed GWASs and large-scale, European-based PRSs improved predictive performance in understudied African populations, especially for less polygenic traits with large-effect ancestry-enriched variants. Our work highlights the importance of diversifying genomic studies to achieve equitable PRS performance across ancestral populations and provides guidance for developing PRSs from multiple studies., Competing Interests: H.H. received consultancy fees from Ono Pharmaceutical and honorarium from Xian Janssen Pharmaceutical., (© 2023 The Authors.)

Published

2023

3. The performance of tongue swabs for detection of pulmonary tuberculosis.

Author

Ealand CS, Sewcharran A, Peters JS, Gordhan BG, Kamariza M, Bertozzi CR, Waja Z, Martinson NA, and Kana BD

Subjects

Adult, Humans, Firmicutes, Tuberculosis, Pulmonary diagnosis, Bacillus, Mycobacterium tuberculosis, Lacticaseibacillus casei, HIV Infections complications, HIV Infections diagnosis

Abstract

Introduction: Oral and/or tongue swabs have demonstrated ability to detect Mycobacterium tuberculosis (Mtb) in adults with pulmonary tuberculosis (TB). Swabs provide useful alternative specimens for diagnosis of TB using molecular assays however, the diagnostic pickup by culture requires further improvement and development. Several studies identified the presence of differentially culturable tubercle bacilli (DCTB) populations in a variety of clinical specimens. These organisms do not grow in routine laboratory media and require growth factors in the form of culture filtrate (CF) from logarithmic phase cultures of Mtb H37Rv., Methods: Herein, we compared the diagnostic performance of sputum and tongue swabs using Mycobacterial Growth Indicator Tube (MGIT) assays, Auramine smear, GeneXpert and DCTB assays supplemented with or without CF., Results: From 89 eligible participants, 83 (93%), 66 (74%) and 79 (89%) were sputum positive by MGIT, smear and GeneXpert, respectively. The corresponding tongue swabs displayed a lower sensitivity with 39 (44%), 2 (2.0%) and 18 (20%) participants respectively for the same tests. We aimed to improve the diagnostic yield by utilizing DCTB assays. Sputum samples were associated with a higher positivity rate for CF-augmented DCTB at 82/89 (92%) relative to tongue swabs at 36/89 (40%). Similarly, sputum samples had a higher positivity rate for DCTB populations that were CF-independent at 64/89 (72%) relative to tongue swabs at 26/89 (29%). DCTB positivity increased significantly, relative to MGIT culture, for tongue swabs taken from HIV-positive participants. We next tested whether the use of an alternative smear stain, DMN-Trehalose, would improve diagnostic yield but noted no substantial increase., Discussion: Collectively, our data show that while tongue swabs yield lower bacterial numbers for diagnostic testing, the use of growth supplementation may improve detection of TB particularly in HIV-positive people but this requires further interrogation in larger studies., 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 © 2023 Ealand, Sewcharran, Peters, Gordhan, Kamariza, Bertozzi, Waja, Martinson and Kana.)

Published

2023

4. Differentially culturable tubercle bacteria as a measure of tuberculosis treatment response.

Author

Peters JS, McIvor A, Papadopoulos AO, Masangana T, Gordhan BG, Waja Z, Otwombe K, Letutu M, Kamariza M, Sterling TR, Bertozzi CR, Martinson NA, and Kana BD

Subjects

Humans, Bacterial Load, Sputum microbiology, Mycobacterium tuberculosis, Tuberculosis diagnosis, Tuberculosis drug therapy

Abstract

Introduction: Routine efficacy assessments of new tuberculosis (TB) treatments include quantitative solid culture or routine liquid culture, which likely miss quantification of drug tolerant bacteria. To improve these assessments, comparative analyses using additional measures such as quantification of differentially culturable tubercle bacteria (DCTB) are required. Essential for enabling this is a comparative measure of TB treatment responses using routine solid and liquid culture with liquid limiting dilutions (LLDs) that detect DCTB in sputum., Methods: We recruited treatment-naïve TB patients, with and without HIV-infection, and serially quantified their sputum for DCTB over the course of treatment., Results: Serial sputum sampling in 73 individuals during their first 14 days of treatment demonstrated that clearance of DCTB was slower compared to routine solid culture. Treatment response appeared to be characterized by four patterns: (1) Classic bi-phasic bacterial clearance; (2) early non-responders with slower clearance; (3) paradoxical worsening with an increase in bacterial count upon treatment initiation; and (4) non-responders with no change in bacterial load. During treatment, LLDs displayed greater bacterial yield when compared with quantitative solid culture. Upon treatment completion, 74% [46/62] of specimens displayed residual DCTB and within this group, two recurrences were diagnosed. Residual DCTB upon treatment completion was associated with a higher proportion of MGIT culture, GeneXpert, and smear positivity at two months post treatment. No recurrences occurred in the group without residual DCTB., Discussion: These data indicate that DCTB assays detect distinct subpopulations of organisms in sputum that are missed by routine solid and liquid culture, and offer important alternatives for efficacy assessments of new TB treatments. The residual DCTB observed upon treatment completion suggests that TB treatment does not always eliminate all bacterial populations, a finding that should be investigated in larger cohorts., 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 © 2023 Peters, McIvor, Papadopoulos, Masangana, Gordhan, Waja, Otwombe, Letutu, Kamariza, Sterling, Bertozzi, Martinson and Kana.)

Published

2023

5. Serial measurement of M. tuberculosis in blood from critically-ill patients with HIV-associated tuberculosis.

Author

Barr DA, Schutz C, Balfour A, Shey M, Kamariza M, Bertozzi CR, de Wet TJ, Dinkele R, Ward A, Haigh KA, Kanyik JP, Mizrahi V, Nicol MP, Wilkinson RJ, Lalloo DG, Warner DF, Meintjes G, and Davies G

Subjects

Critical Illness, Humans, Sensitivity and Specificity, Sputum microbiology, HIV Infections complications, HIV Infections drug therapy, Mycobacterium tuberculosis, Tuberculosis complications, Tuberculosis diagnosis, Tuberculosis drug therapy, Tuberculosis, Pulmonary microbiology

Abstract

Background: Despite being highly prevalent in hospitalised patients with severe HIV-associated tuberculosis (TB) and sepsis, little is known about the mycobacteriology of Mycobacterium tuberculosis bloodstream infection (MTBBSI). We developed methods to serially measure bacillary load in blood and used these to characterise MTBBSI response to anti-TB therapy (ATT) and relationship with mortality., Methods: We established a microscopy method for direct visualisation of M. tuberculosis bacilli in blood using a novel lysis-concentration protocol and the fluorescent probe, 4-N,N-dimethylaminonaphthalimide-trehalose (DMN-Tre). We tested blood using GeneXpert® MTB/RIF-Ultra (Xpert-ultra) and Myco/F lytic culture after processing blood through lysis-wash steps to remove PCR inhibitors and anti-microbial drug carry-over. HIV-positive patients predicted to have MTBBSI gave blood samples 0, 4, 24, 48 and 72 h after ATT initiation. Bacillary loads were quantified using microscopy, Xpert-ultra cycle threshold, and culture time-to-positivity. Pharmacodynamics were modelled using these measures combined on an ordinal scale, including association with 12-week mortality., Findings: M. tuberculosis was detected in 27 of 28 recruited participants; 25 (89%) by blood Xpert-ultra, 22 (79%) by DMN-Tre microscopy, and 21 (75%) by Myco/F lytic blood culture. Eight (29%) participants died by 12-week follow-up. In a combined pharmacodynamic model, predicted probabilities of negative DMN-Tre microscopy, blood Xpert-ultra, or blood culture after 72 h treatment were 0·64, 0·27, and 0·94, respectively, in those who survived, compared with 0·23, 0·06, and 0·71 in those who died (posterior probability of slower clearance of MTBBSI in those that died >0·99). DMN-Tre microscopy of blood demonstrated heterogenous bacillary morphologies, including microcolonies and clumps. Bacillary cell-length varied significantly with ATT exposure (mean cell-length increase 0·13 log-µm/day; 95%CrI 0·10-0·16)., Interpretation: Pharmacodynamics of MTBBSI treatment can be captured using DMN-Tre microscopy, blood Xpert-ultra and culture. This could facilitate interventional trials in severe HIV-associated TB., Funding: Wellcome Trust, NIH Fogarty International Center, South African MRC, NIHR(UK), National Research Foundation of South Africa., Competing Interests: Declaration of interests CRB and MK, are cofounders of OliLux Biosciences which has licensed patents related to the Two dyes presented in this paper. All other authors have declared that no conflict of interest exists., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

6. Misuse of the term 'trans-ethnic' in genomics research.

Author

Kamariza M, Crawford L, Jones D, and Finucane H

Subjects

Humans, PubMed, Racial Groups genetics, United States, Ethnicity genetics, Human Genetics, Language

Published

2021

7. Toward Point-of-Care Detection of Mycobacterium tuberculosis : A Brighter Solvatochromic Probe Detects Mycobacteria within Minutes.

Author

Kamariza M, Keyser SGL, Utz A, Knapp BD, Ealand C, Ahn G, Cambier CJ, Chen T, Kana B, Huang KC, and Bertozzi CR

Abstract

There is an urgent need for point-of-care tuberculosis (TB) diagnostic methods that are fast, inexpensive, and operationally simple. Here, we report on a bright solvatochromic dye trehalose conjugate that specifically detects Mycobacterium tuberculosis (Mtb) in minutes. 3-Hydroxychromone (3HC) dyes, known for having high fluorescence quantum yields, exhibit shifts in fluorescence intensity in response to changes in environmental polarity. We synthesized two analogs of 3HC-trehalose conjugates (3HC-2-Tre and 3HC-3-Tre) and determined that 3HC-3-Tre has exceptionally favorable properties for Mtb detection. 3HC-3-Tre-labeled mycobacterial cells displayed a 10-fold increase in fluorescence intensity compared to our previous reports on the dye 4,4- N,N -dimethylaminonapthalimide (DMN-Tre). Excitingly, we detected fluorescent Mtb cells within 10 min of probe treatment. Thus, 3HC-3-Tre permits rapid visualization of mycobacteria that ultimately could empower improved Mtb detection at the point-of-care in low-resource settings., Competing Interests: The authors declare the following competing financial interest(s): M.K. and C.R.B. are cofounders of OliLux Biosciences which has licensed patents related to the work in this paper. B.K. is a scientific advisor to OliLux Biosciences. B.K is cofounder of SmartSpot Quality CC and scientific advisor to SmartSpot Quality CC and Pulmosat. C.R.B. is a cofounder and scientific advisory board member of Lycia Therapeutics, Palleon Pharmaceuticals, Enable Bioscience, Redwood Biosciences (a subsidiary of Catalent), and InterVenn Biosciences, and a member of the board of directors of Eli Lilly & Company., (© 2021 The Authors. Published by American Chemical Society.)

Published

2021

8. Capture and visualization of live Mycobacterium tuberculosis bacilli from tuberculosis patient bioaerosols.

Author

Dinkele R, Gessner S, McKerry A, Leonard B, Seldon R, Koch AS, Morrow C, Gqada M, Kamariza M, Bertozzi CR, Smith B, McLoud C, Kamholz A, Bryden W, Call C, Kaplan G, Mizrahi V, Wood R, and Warner DF

Subjects

Adult, Cohort Studies, Humans, Microscopy, Fluorescence, Nanotechnology instrumentation, Breath Tests, Cough microbiology, Mycobacterium tuberculosis isolation & purification, Tuberculosis, Pulmonary microbiology

Abstract

Interrupting transmission is an attractive anti-tuberculosis (TB) strategy but it remains underexplored owing to our poor understanding of the events surrounding transfer of Mycobacterium tuberculosis (Mtb) between hosts. Determining when live, infectious Mtb bacilli are released and by whom has proven especially challenging. Consequently, transmission chains are inferred only retrospectively, when new cases are diagnosed. This process, which relies on molecular analyses of Mtb isolates for epidemiological fingerprinting, is confounded by the prolonged infectious period of TB and the potential for transmission from transient exposures. We developed a Respiratory Aerosol Sampling Chamber (RASC) equipped with high-efficiency filtration and sampling technologies for liquid-capture of all particulate matter (including Mtb) released during respiration and non-induced cough. Combining the mycobacterial cell wall probe, DMN-trehalose, with fluorescence microscopy of RASC-captured bioaerosols, we detected and quantified putative live Mtb bacilli in bioaerosol samples arrayed in nanowell devices. The RASC enabled non-invasive capture and isolation of viable Mtb from bioaerosol within 24 hours of collection. A median 14 live Mtb bacilli (range 0-36) were isolated in single-cell format from 90% of confirmed TB patients following 60 minutes bioaerosol sampling. This represented a significant increase over previous estimates of transmission potential, implying that many more organisms might be released daily than commonly assumed. Moreover, variations in DMN-trehalose incorporation profiles suggested metabolic heterogeneity in aerosolized Mtb. Finally, preliminary analyses indicated the capacity for serial image capture and analysis of nanowell-arrayed bacilli for periods extending into weeks. These observations support the application of this technology to longstanding questions in TB transmission including the propensity for asymptomatic transmission, the impact of TB treatment on Mtb bioaerosol release, and the physiological state of aerosolized bacilli., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

9. A Fluorogenic Trehalose Probe for Tracking Phagocytosed Mycobacterium tuberculosis .

Author

Dai T, Xie J, Zhu Q, Kamariza M, Jiang K, Bertozzi CR, and Rao J

Subjects

Mycobacterium tuberculosis cytology, Fluorescent Dyes chemistry, Mycobacterium tuberculosis metabolism, Phagocytosis, Trehalose chemistry

Abstract

Tuberculosis (TB) disease is a global epidemic caused by the pathogenic Mycobacterium tuberculosis (Mtb). Tools that can track the replication status of viable Mtb cells within macrophages are vital for the elucidation of host-pathogen interactions. Here, we present a cephalosphorinase-dependent green trehalose (CDG-Tre) fluorogenic probe that enables fluorescence labeling of single live Bacille Calmette-Guérin (BCG) cells within macrophages at concentrations as low as 2 μM. CDG-Tre fluoresces upon activation by BlaC, the β-lactamase uniquely expressed by Mtb, and the fluorescent product is subsequently incorporated within the bacterial cell wall via trehalose metabolic pathway. CDG-Tre showed high selectivity for mycobacteria over other clinically prevalent species in the Corynebacterineae suborder. The unique labeling strategy of BCG by CDG-Tre provides a versatile tool for tracking Mtb in both pre- and postphagocytosis and elucidating fundamental physiological and pathological processes related to the mycomembrane.

Published

2020

10. Sensitivity optimisation of tuberculosis bioaerosol sampling.

Author

Patterson B, Dinkele R, Gessner S, Morrow C, Kamariza M, Bertozzi CR, Kamholz A, Bryden W, Call C, Warner DF, and Wood R

Subjects

Adult, Carbon Dioxide chemistry, Exhalation, Female, Humans, Male, Mycobacterium tuberculosis isolation & purification, Tuberculosis microbiology, Aerosols analysis, Specimen Handling methods, Tuberculosis diagnosis

Abstract

Introduction: Detection of Mycobacterium tuberculosis (Mtb) in patient-derived bioaerosol is a potential tool to measure source case infectiousness. However, current bioaerosol sampling approaches have reported low detection yields in sputum-positive TB cases. To increase the utility of bioaerosol sampling, we present advances in bioaerosol collection and Mtb identification that improve detection yields., Methods: A previously described Respiratory Aerosol Sampling Chamber (RASC) protocol, or "RASC-1", was modified to incorporate liquid collection of bioaerosol using a high-flow wet-walled cyclone (RASC-2). Individuals with GeneXpert-positive pulmonary TB were sampled pre-treatment over 60-minutes. Putative Mtb bacilli were detected in collected fluid by fluorescence microscopy utilising DMN-Trehalose. Exhaled air and bioaerosol volumes were estimated using continuous CO2 monitoring and airborne particle counting, respectively. Mtb capture was calculated per exhaled air volume sampled and bioaerosol volume for RASC-1 (n = 35) and for RASC-2 (n = 21). Empty chamber samples were collected between patients as controls., Results: The optimised RASC-2 protocol sampled a median of 258.4L (IQR: 226.9-273.6) of exhaled air per patient compared with 27.5L (IQR: 23.6-30.3) for RASC-1 (p<0.0001). Bioaerosol volume collection was estimated at 2.3nL (IQR: 1.1-3.6) for RASC-2 compared with 0.08nL (IQR: 0.05-0.10) for RASC-1 (p<0.0001). The detection yield of viable Mtb improved from 43% (median 2 CFU, range: 1-14) to 95% (median 20.5 DMN-Trehalose positive bacilli, range: 2-155). These improvements represent a lowering of the limit of detection in the RASC-2 platform to 0.9 Mtb bacilli per 100L of exhaled air from 3.3 Mtb bacilli per 100L (RASC-1)., Conclusion: This study demonstrates that technical improvements in particle collection together with sensitive detection enable rapid quantitation of viable Mtb in bioaerosols of sputum positive TB cases. Increased sampling sensitivity may allow future TB transmission studies to be extended to sputum-negative and subclinical individuals, and suggests the potential utility of bioaerosol measurement for rapid intervention in other airborne infectious diseases., Competing Interests: WB and CC are employed by Zeteo Tech. AK is employed by Edge Embossing. Belonging to these commercial entities does not alter the authors’ adherence to PLOS ONE policies on sharing data and materials.

Published

2020

11. Population-scale longitudinal mapping of COVID-19 symptoms, behaviour and testing.

Author

Allen WE, Altae-Tran H, Briggs J, Jin X, McGee G, Shi A, Raghavan R, Kamariza M, Nova N, Pereta A, Danford C, Kamel A, Gothe P, Milam E, Aurambault J, Primke T, Li W, Inkenbrandt J, Huynh T, Chen E, Lee C, Croatto M, Bentley H, Lu W, Murray R, Travassos M, Coull BA, Openshaw J, Greene CS, Shalem O, King G, Probasco R, Cheng DR, Silbermann B, Zhang F, and Lin X

Subjects

Adult, Asymptomatic Diseases epidemiology, COVID-19, COVID-19 Testing, Coronavirus Infections diagnosis, Coronavirus Infections prevention & control, Coronavirus Infections psychology, Female, Humans, Longitudinal Studies, Male, Mobile Applications, Models, Statistical, Pandemics prevention & control, Pandemics statistics & numerical data, Pneumonia, Viral diagnosis, Pneumonia, Viral prevention & control, Pneumonia, Viral psychology, SARS-CoV-2, United States epidemiology, Betacoronavirus, Clinical Laboratory Techniques statistics & numerical data, Coronavirus Infections epidemiology, Pneumonia, Viral epidemiology

Abstract

Despite the widespread implementation of public health measures, coronavirus disease 2019 (COVID-19) continues to spread in the United States. To facilitate an agile response to the pandemic, we developed How We Feel, a web and mobile application that collects longitudinal self-reported survey responses on health, behaviour and demographics. Here, we report results from over 500,000 users in the United States from 2 April 2020 to 12 May 2020. We show that self-reported surveys can be used to build predictive models to identify likely COVID-19-positive individuals. We find evidence among our users for asymptomatic or presymptomatic presentation; show a variety of exposure, occupational and demographic risk factors for COVID-19 beyond symptoms; reveal factors for which users have been SARS-CoV-2 PCR tested; and highlight the temporal dynamics of symptoms and self-isolation behaviour. These results highlight the utility of collecting a diverse set of symptomatic, demographic, exposure and behavioural self-reported data to fight the COVID-19 pandemic.

Published

2020

12. Population-scale Longitudinal Mapping of COVID-19 Symptoms, Behavior, and Testing Identifies Contributors to Continued Disease Spread in the United States.

Author

Allen WE, Altae-Tran H, Briggs J, Jin X, McGee G, Raghavan R, Shi A, Kamariza M, Nova N, Pereta A, Danford C, Kamel A, Gothe P, Milam E, Aurambault J, Primke T, Li C, Inkenbrandt J, Huynh T, Chen E, Lee C, Croatto M, Bentley H, Lu W, Murray R, Travassos M, Openshaw J, Coull B, Greene C, Shalem O, King G, Probasco R, Cheng D, Silbermann B, Zhang F, and Lin X

Abstract

Despite social distancing and shelter-in-place policies, COVID-19 continues to spread in the United States. A lack of timely information about factors influencing COVID-19 spread and testing has hampered agile responses to the pandemic. We developed How We Feel, an extensible web and mobile application that aggregates self-reported survey responses, to fill gaps in the collection of COVID-19-related data. How We Feel collects longitudinal and geographically localized information on users' health, behavior, and demographics. Here we report results from over 500,000 users in the United States from April 2, 2020 to May 12, 2020. We show that self- reported surveys can be used to build predictive models of COVID-19 test results, which may aid in identification of likely COVID-19 positive individuals. We find evidence among our users for asymptomatic or presymptomatic presentation, as well as for household and community exposure, occupation, and demographics being strong risk factors for COVID-19. We further reveal factors for which users have been SARS-CoV-2 PCR tested, as well as the temporal dynamics of self- reported symptoms and self-isolation behavior in positive and negative users. These results highlight the utility of collecting a diverse set of symptomatic, demographic, and behavioral self- reported data to fight the COVID-19 pandemic.

Published

2020

13. Enhanced Bactericidal Effects of Pyrazinamide Toward Mycobacterium smegmatis and Mycobacterium tuberculosis upon Conjugation to a {Au(I)-triphenylphosphine} + Moiety.

Author

Stenger-Smith J, Kamariza M, Chakraborty I, Ouattara R, Bertozzi CR, and Mascharak PK

Abstract

As part of the quest for new gold drugs, we have explored the efficacy of three gold complexes derived from the tuberculosis drug pyrazinamide (PZA), namely, the gold(I) complex [Au(PPh 3 )(PZA)]OTf ( 1 , OTf = trifluoromethanesulfonate) and two gold(III) complexes [Au(PZA)Cl 2 ] ( 2 ) and [Au(PZO)Cl 2 ] ( 3 , PZO = pyrazinoic acid, the metabolic product of PZA) against two mycobacteria, Mycobacterium tuberculosis and Mycobacterium smegmatis . Only complex 1 with the {Au(PPh 3 )} + moiety exhibits significant bactericidal activity against both strains. In the presence of thiols, 1 gives rise to free PZA and {Au(PPh 3 )}-thiol polymeric species. A combination of PZA and the {Au(PPh 3 )}-thiol polymeric species appears to lead to enhanced efficacy of 1 against M. tuberculosis ., Competing Interests: The authors declare no competing financial interest., (Copyright © 2020 American Chemical Society.)

Published

2020

14. Rapid detection of Mycobacterium tuberculosis in sputum with a solvatochromic trehalose probe.

Author

Kamariza M, Shieh P, Ealand CS, Peters JS, Chu B, Rodriguez-Rivera FP, Babu Sait MR, Treuren WV, Martinson N, Kalscheuer R, Kana BD, and Bertozzi CR

Subjects

Actinomycetales isolation & purification, Actinomycetales metabolism, Humans, Molecular Diagnostic Techniques methods, Molecular Probes, Mycobacterium isolation & purification, Mycobacterium metabolism, Naphthalimides chemistry, Trehalose chemistry, Tuberculosis, Pulmonary microbiology, Mycobacterium tuberculosis isolation & purification, Mycobacterium tuberculosis metabolism, Sputum microbiology

Abstract

Tuberculosis (TB) is the leading cause of death from an infectious bacterial disease. Poor diagnostic tools to detect active disease plague TB control programs and affect patient care. Accurate detection of live Mycobacterium tuberculosis (Mtb), the causative agent of TB, could improve TB diagnosis and patient treatment. We report that mycobacteria and other corynebacteria can be specifically detected with a fluorogenic trehalose analog. We designed a 4- N,N -dimethylamino-1,8-naphthalimide-conjugated trehalose (DMN-Tre) probe that undergoes >700-fold increase in fluorescence intensity when transitioned from aqueous to hydrophobic environments. This enhancement occurs upon metabolic conversion of DMN-Tre to trehalose monomycolate and incorporation into the mycomembrane of Actinobacteria. DMN-Tre labeling enabled the rapid, no-wash visualization of mycobacterial and corynebacterial species without nonspecific labeling of Gram-positive or Gram-negative bacteria. DMN-Tre labeling was detected within minutes and was inhibited by heat killing of mycobacteria. Furthermore, DMN-Tre labeling was reduced by treatment with TB drugs, unlike the clinically used auramine stain. Lastly, DMN-Tre labeled Mtb in TB-positive human sputum samples comparably to auramine staining, suggesting that this operationally simple method may be deployable for TB diagnosis., (Copyright © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2018

15. Imaging Mycobacterial Trehalose Glycolipids.

Author

Kamariza M, Shieh P, and Bertozzi CR

Subjects

Cell Wall metabolism, Fluorescein chemistry, Humans, Microscopy, Confocal instrumentation, Microscopy, Confocal methods, Microscopy, Fluorescence instrumentation, Microscopy, Fluorescence methods, Molecular Imaging instrumentation, Mycobacterium tuberculosis metabolism, Naphthalimides chemistry, Sputum microbiology, Staining and Labeling instrumentation, Staining and Labeling methods, Trehalose analogs & derivatives, Trehalose biosynthesis, Tuberculosis microbiology, Glycolipids chemistry, Molecular Imaging methods, Mycobacterium tuberculosis isolation & purification, Trehalose chemistry, Tuberculosis diagnosis

Abstract

Cell surface trehalose mycolates are important modulators of mycobacterial pathogenesis and host immune response. We discuss the use of fluorescent and fluorogenic trehalose probes for the detection of the mycobacterial trehalose glycolipids. These probes enable real-time imaging of trehalose mycolate biosynthesis and mycomembrane dynamics in the laboratory as well as in clinical settings for the detection of mycobacteria in patient samples., (© 2018 Elsevier Inc. All rights reserved.)

Published

2018