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2. Correlating transcription and protein expression profiles of immune biomarkers following lipopolysaccharide exposure in lung epithelial cells.

Author

Jacobsen, Daniel E., Montoya, Makaela M., Llewellyn, Trent R., Martinez, Kaitlyn, Wilding, Kristen M., Lenz, Kiersten D., Manore, Carrie A., Kubicek-Sutherland, Jessica Z., and Mukundan, Harshini

Subjects
PROTEIN expression, EPITHELIAL cells, GENE expression, BIOMARKERS, LIPOPOLYSACCHARIDES, CHEMOKINE receptors, QUORUM sensing
Abstract

Universal and early recognition of pathogens occurs through recognition of evolutionarily conserved pathogen associated molecular patterns (PAMPs) by innate immune receptors and the consequent secretion of cytokines and chemokines. The intrinsic complexity of innate immune signaling and associated signal transduction challenges our ability to obtain physiologically relevant, reproducible and accurate data from experimental systems. One of the reasons for the discrepancy in observed data is the choice of measurement strategy. Immune signaling is regulated by the interplay between pathogen-derived molecules with host cells resulting in cellular expression changes. However, these cellular processes are often studied by the independent assessment of either the transcriptome or the proteome. Correlation between transcription and protein analysis is lacking in a variety of studies. In order to methodically evaluate the correlation between transcription and protein expression profiles associated with innate immune signaling, we measured cytokine and chemokine levels following exposure of human cells to the PAMP lipopolysaccharide (LPS) from the Gram-negative pathogen Pseudomonas aeruginosa. Expression of 84 messenger RNA (mRNA) transcripts and 69 proteins, including 35 overlapping targets, were measured in human lung epithelial cells. We evaluated 50 biological replicates to determine reproducibility of outcomes. Following pairwise normalization, 16 mRNA transcripts and 6 proteins were significantly upregulated following LPS exposure, while only five (CCL2, CSF3, CXCL5, CXCL8/IL8, and IL6) were upregulated in both transcriptomic and proteomic analysis. This lack of correlation between transcription and protein expression data may contribute to the discrepancy in the immune profiles reported in various studies. The use of multiomic assessments to achieve a systems-level understanding of immune signaling processes can result in the identification of host biomarker profiles for a variety of infectious diseases and facilitate countermeasure design and development. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Direct detection of bacteremia by exploiting host-pathogen interactions of lipoteichoic acid and lipopolysaccharide

Author

Kubicek-Sutherland, Jessica Z., Vu, Dung M., Noormohamed, Aneesa, Mendez, Heather M., Stromberg, Loreen R., Pedersen, Christine A., Hengartner, Astrid C., Klosterman, Katja E., Bridgewater, Haley A., Otieno, Vincent, Cheng, Qiuying, Anyona, Samuel B., Ouma, Collins, Raballah, Evans, Perkins, Douglas J., McMahon, Benjamin H., and Mukundan, Harshini

Published
2019
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7. Summary results of the 2014-2015 DARPA Chikungunya challenge

Author

Del Valle, Sara Y., McMahon, Benjamin H., Asher, Jason, Hatchett, Richard, Lega, Joceline C., Brown, Heidi E., Leany, Mark E., Pantazis, Yannis, Roberts, David J., Moore, Sean, Peterson, A Townsend, Escobar, Luis E., Qiao, Huijie, Hengartner, Nicholas W., and Mukundan, Harshini

Published
2018
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9. Quantitative multiplex detection of pathogen biomarkers on multichannel waveguides

Author

Mukundan, Harshini, Xie, Hongzhi, Price, Dominique, Kubicek-Sutherland, Jessica Z., Grace, W. Kevin, Anderson, Aaron S., Martinez, Jennifer S., Hartman, Nile, and Swanson, Basil I.

Subjects
Waveguides -- Usage, Biological markers -- Analysis, Detectors -- Usage, Chemistry
Abstract

No single biomarker can accurately predict disease. An ideal biodetection technology should be capable of the quantitative, reproducible, and sensitive detection of a limited suite of such molecules. To this end, we have developed a multiplex biomarker assay for protective antigen and lethal factor of the Bacillus anthracis lethal toxin using semiconductor quantum dots as the fluorescence reporters on our waveguide-based biosensor platform. The platform is extendable to a wide array of biomarkers, facilitating rapid, quantitative, sensitive, and multiplex detection, better than achievable by conventional immunoassay. Our assay allows for the sensitive (limit of detection 1 pM each), specific (minimal nonspecific binding), and rapid (15 min) detection of these biomarkers in complex biological samples (e.g., serum). To address the issue of reproducibility in measurement and to increase our sample throughput, we have incorporated multichannel waveguides capable of simultaneous multiplex detection of biomarkers in three samples in quadruplicate. In this paper, we present the design, fabrication, and development of multichannel waveguides for the simultaneous detection of lethal factor and protective antigen in serum. Evaluation of the multichannel waveguide shows an excellent concordance with single-channel data and effective, simultaneous, and reproducible measurement of lethal toxins in three samples. 10.1021/ac901497g

Published
2010

11. Progress Toward a Multiomic Understanding of Traumatic Brain Injury: A Review.

Author

Kocheril, Philip A, Moore, Shepard C, Lenz, Kiersten D, Mukundan, Harshini, and Lilley, Laura M

Subjects
BRAIN injuries, HEAD injuries, ALZHEIMER'S disease, PARKINSON'S disease, NEUROLOGICAL disorders, NEUROPSYCHOLOGY
Abstract

Traumatic brain injury (TBI) is not a single disease state but describes an array of conditions associated with insult or injury to the brain. While some individuals with TBI recover within a few days or months, others present with persistent symptoms that can cause disability, neuropsychological trauma, and even death. Understanding, diagnosing, and treating TBI is extremely complex for many reasons, including the variable biomechanics of head impact, differences in severity and location of injury, and individual patient characteristics. Because of these confounding factors, the development of reliable diagnostics and targeted treatments for brain injury remains elusive. We argue that the development of effective diagnostic and therapeutic strategies for TBI requires a deep understanding of human neurophysiology at the molecular level and that the framework of multiomics may provide some effective solutions for the diagnosis and treatment of this challenging condition. To this end, we present here a comprehensive review of TBI biomarker candidates from across the multiomic disciplines and compare them with known signatures associated with other neuropsychological conditions, including Alzheimer's disease and Parkinson's disease. We believe that this integrated view will facilitate a deeper understanding of the pathophysiology of TBI and its potential links to other neurological diseases. [ABSTRACT FROM AUTHOR]

Published
2022
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12. Portable Waveguide-Based Optical Biosensor.

Author

Kocheril, Philip A., Lenz, Kiersten D., Mascareñas, David D. L., Morales-Garcia, John E., Anderson, Aaron S., and Mukundan, Harshini

Subjects
BIOSENSORS, ENVIRONMENTAL monitoring, INTEGRATED optics, WORLD health, MILITARY personnel
Abstract

Rapid, on-site diagnostics allow for timely intervention and response for warfighter support, environmental monitoring, and global health needs. Portable optical biosensors are being widely pursued as a means of achieving fieldable biosensing due to the potential speed and accuracy of optical detection. We recently developed the portable engineered analytic sensor with automated sampling (PEGASUS) with the goal of developing a fieldable, generalizable biosensing platform. Here, we detail the development of PEGASUS's sensing hardware and use a test-bed system of identical sensing hardware and software to demonstrate detection of a fluorescent conjugate at 1 nM through biotin-streptavidin chemistry. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Epidemiological parameter review and comparative dynamics of influenza, respiratory syncytial virus, rhinovirus, human coronavirus, and adenovirus

Author

Spencer, Julie, Shutt, Deborah P, Moser, Sarah K, Clegg, Hannah, Wearing, Helen J, Mukundan, Harshini, and Manore, Carrie A

Subjects
viruses, virus diseases, respiratory tract diseases
Abstract

Influenza-like illness (ILI) accounts for a large burden of annual morbidity and mortality worldwide. A finer-grained knowledge of the parameters and dynamics of the viruses commonly underlying ILI is needed for modeling, diagnostic, and intervention efforts. We conducted an extensive literature review for epidemiological parameter values for influenza, respiratory syncytial virus (RSV), rhinovirus, human coronavirus (HCoV), and adenovirus. We also developed a deterministic SEIR model for ILI, and derived an expression for R0. We here report ranges and means for parameters for these five common viruses.

Published
2020
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16. ThIV–Desferrioxamine: characterization of a fluorescent bacterial probe.

Author

Aldrich, Kelly Elise, Livshits, Maksim Yuryevich, Stromberg, Loreen Rose, Janicke, Michael Timothy, Nhu Lam, Mila, Stein, Benjamin, Wagner, Gregory Lawerence, Abergel, Rebecca J., Mukundan, Harshini, Kozimor, Stosh Anthony, and Lilley, Laura Margaret

Subjects
FLUORESCENT probes, SPECTRAL imaging, MAGNETIC resonance imaging, NUCLEAR magnetic resonance spectroscopy, FLUORESCEIN isothiocyanate
Abstract

Diversifying our ability to guard against emerging pathogenic threats is essential for keeping pace with global health challenges, including those presented by drug-resistant bacteria. Some modern diagnostic and therapeutic innovations to address this challenge focus on targeting methods that exploit bacterial nutrient sequestration pathways, such as the desferrioxamine (DFO) siderophore used by Staphylococcus aureus (S. aureus) to sequester FeIII. Building on recent studies that have shown DFO to be a versatile vehicle for chemical delivery, we show proof-of-principle that the FeIII sequestration pathway can be used to deliver a potential radiotherapeutic. Our approach replaces the FeIII nutrient sequestered by H4DFO+ with ThIV and made use of a common fluorophore, FITC, which we covalently bonded to DFO to provide a combinatorial probe for simultaneous chelation paired with imaging and spectroscopy, H3DFO_FITC. Combining insight provided from FITC-based imaging with characterization by NMR spectroscopy, we demonstrated that the fluorescent DFO_FITC conjugate retained the ThIV chelation properties of native H4DFO+. Fluorescence microscopy with both [Th(DFO_FITC)] and [Fe(DFO_FITC)] complexes showed similar uptake by S. aureus and increased intercellular accumulation as compared to the FITC and unchelated H3DFO_FITC controls. Collectively, these results demonstrate the potential for the newly developed H3DFO_FITC conjugate to be used as a targeting vector and bacterial imaging probe for S. aureus. The results presented within provide a framework to expand H4DFO+ and H3DFO_FITC to relevant radiotherapeutics (like 227Th). [ABSTRACT FROM AUTHOR]

Published
2021
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17. Interaction of amphiphilic lipoarabinomannan with host carrier lipoproteins in tuberculosis patients: Implications for blood-based diagnostics.

Author

Jakhar, Shailja, Sakamuri, Ramamurthy, Vu, Dung, Dighe, Priya, Stromberg, Loreen R., Lilley, Laura, Hengartner, Nicolas, Swanson, Basil I., Moreau, Emmanuel, Dorman, Susan E., and Mukundan, Harshini

Subjects
TUBERCULOSIS patients, LIPOPROTEINS, MYCOBACTERIUM tuberculosis, BLOOD lipoproteins, MEMBRANE lipids, SYMPTOMS, LIPOPROTEIN A
Abstract

Lipoarabinomannan (LAM), an amphiphilic lipoglycan of the Mycobacterium tuberculosis cell wall, is a diagnostic target for tuberculosis. Previous work from our laboratory and others suggests that LAM is associated with host serum lipoproteins, which may in turn have implications for diagnostic assays. Our team has developed two serum assays for amphiphile detection: lipoprotein capture and membrane insertion. The lipoprotein capture assay relies on capture of the host lipoproteins, exploiting the biological association of host lipoprotein with microbial amphiphilic biomarkers to "concentrate" LAM. In contrast, the membrane insertion assay is independent of the association between pathogen amphiphiles and host lipoprotein association, and directly captures LAM based on its thermodynamic propensity for association with a supported lipid membrane, which forms the functional surface of an optical biosensor. In this manuscript, we explored the use of these assays for the detection of LAM in sera from adults whose tuberculosis status had been well-characterized using conventional microbiological tests, and endemic controls. Using the lipoprotein capture assay, LAM signal/noise ratios were >1.0 in 29/35 (83%) individuals with culture-confirmed active tuberculosis, 8/13 (62%) individuals with tuberculosis symptoms, but no positive culture for M. tuberculosis, and 0/6 (0%) symptom-free endemic controls. To evaluate serum LAM levels without bias associated with potential differences in circulating host lipoprotein concentrations between individuals, we subsequently processed available samples to liberate LAM from associated host lipoprotein assemblies followed by direct detection of the pathogen biomarker using the membrane insertion approach. Using the membrane insertion assay, signal/noise for detection of serum LAM was greater than that observed using the lipoprotein capture method for culture-confirmed TB patients (6/6), yet remained negative for controls (2/2). Taken together, these results suggest that detection of serum LAM is a promising TB diagnostic approach, but that further work is required to optimize assay performance and to decipher the implications of LAM/host lipoprotein associations for diagnostic assay performance and TB pathogenesis. [ABSTRACT FROM AUTHOR]

Published
2021
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18. Comparative genomic and phenotypic characterization of invasive non-typhoidal Salmonella isolates from Siaya, Kenya.

Author

Kubicek-Sutherland, Jessica Z., Xie, Gary, Shakya, Migun, Dighe, Priya K., Jacobs, Lindsey L., Daligault, Hajnalka, Davenport, Karen, Stromberg, Loreen R., Stromberg, Zachary R., Cheng, Qiuying, Kempaiah, Prakasha, Ong'echa, John Michael, Otieno, Vincent, Raballah, Evans, Anyona, Samuel, Ouma, Collins, Chain, Patrick S. G., Perkins, Douglas J., Mukundan, Harshini, and McMahon, Benjamin H.

Subjects
COMPARATIVE genomic hybridization, SALMONELLA food poisoning, SALMONELLA, SUCROSE, CHILD patients, SALMONELLA enterica serovar Typhi, FACTOR analysis, CRAYFISH
Abstract

Non-typhoidal Salmonella (NTS) is a major global health concern that often causes bloodstream infections in areas of the world affected by malnutrition and comorbidities such as HIV and malaria. Developing a strategy to control the emergence and spread of highly invasive and antimicrobial resistant NTS isolates requires a comprehensive analysis of epidemiological factors and molecular pathogenesis. Here, we characterize 11 NTS isolates that caused bloodstream infections in pediatric patients in Siaya, Kenya from 2003–2010. Nine isolates were identified as S. Typhimurium sequence type 313 while the other two were S. Enteritidis. Comprehensive genotypic and phenotypic analyses were performed to compare these isolates to those previously identified in sub-Saharan Africa. We identified a S. Typhimurium isolate referred to as UGA14 that displayed novel plasmid, pseudogene and resistance features as compared to other isolates reported from Africa. Notably, UGA14 is able to ferment both lactose and sucrose due to the acquisition of insertion elements on the pKST313 plasmid. These findings show for the first time the co-evolution of plasmid-mediated lactose and sucrose metabolism along with cephalosporin resistance in NTS further elucidating the evolutionary mechanisms of invasive NTS phenotypes. These results further support the use of combined genomic and phenotypic approaches to detect and characterize atypical NTS isolates in order to advance biosurveillance efforts that inform countermeasures aimed at controlling invasive and antimicrobial resistant NTS. Author summary: Non-typhoidal Salmonella (NTS) has been associated with life-threatening bacteremia in sub-Saharan Africa where co-morbidities such as HIV and malaria are highly prevalent. Children under the age of 5 are especially vulnerable to invasive NTS infections. The emergence and spread of multi-drug resistant invasive NTS isolates have limited the availability of effective treatment options. Understanding the molecular mechanisms that drive the evolution of invasive and antimicrobial resistant NTS strains is key to mitigating their impact on human health. In this study, we obtained 11 NTS isolates from the bloodstreams of children in Siaya, Kenya and performed both genotypic and phenotypic characterization compared to antimicrobial sensitive NTS strains. One strain, named UGA14, displayed a unique plasmid makeup compared to the other 10 isolates, which encoded for cephalosporin resistance as well as novel metabolic features allowing it to metabolize both lactose and sucrose. Not only was UGA14 multi-drug resistant but its unique metabolic profile made it indistinguishable from Escherichia coli on brilliant green agar indicating the failure of traditional culture-based techniques to inform diagnose and treatment decisions. These findings highlight the importance of comparative genotypic and phenotypic analyses to understand the driving mechanisms of invasive and drug-resistant pathogens and support the development of effective countermeasures. [ABSTRACT FROM AUTHOR]

Published
2021
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20. A systematic review and evaluation of Zika virus forecasting and prediction research during a public health emergency of international concern.

Author

Kobres, Pei-Ying, Chretien, Jean-Paul, Johansson, Michael A., Morgan, Jeffrey J., Whung, Pai-Yei, Mukundan, Harshini, Del Valle, Sara Y., Forshey, Brett M., Quandelacy, Talia M., Biggerstaff, Matthew, Viboud, Cecile, and Pollett, Simon

Subjects
PUBLIC health research, ZIKA virus, META-analysis, WORLD health, PANDEMICS
Abstract

Introduction: Epidemic forecasting and prediction tools have the potential to provide actionable information in the midst of emerging epidemics. While numerous predictive studies were published during the 2016–2017 Zika Virus (ZIKV) pandemic, it remains unknown how timely, reproducible, and actionable the information produced by these studies was. Methods: To improve the functional use of mathematical modeling in support of future infectious disease outbreaks, we conducted a systematic review of all ZIKV prediction studies published during the recent ZIKV pandemic using the PRISMA guidelines. Using MEDLINE, EMBASE, and grey literature review, we identified studies that forecasted, predicted, or simulated ecological or epidemiological phenomena related to the Zika pandemic that were published as of March 01, 2017. Eligible studies underwent evaluation of objectives, data sources, methods, timeliness, reproducibility, accessibility, and clarity by independent reviewers. Results: 2034 studies were identified, of which n = 73 met the eligibility criteria. Spatial spread, R0 (basic reproductive number), and epidemic dynamics were most commonly predicted, with few studies predicting Guillain-Barré Syndrome burden (4%), sexual transmission risk (4%), and intervention impact (4%). Most studies specifically examined populations in the Americas (52%), with few African-specific studies (4%). Case count (67%), vector (41%), and demographic data (37%) were the most common data sources. Real-time internet data and pathogen genomic information were used in 7% and 0% of studies, respectively, and social science and behavioral data were typically absent in modeling efforts. Deterministic models were favored over stochastic approaches. Forty percent of studies made model data entirely available, 29% provided all relevant model code, 43% presented uncertainty in all predictions, and 54% provided sufficient methodological detail to allow complete reproducibility. Fifty-one percent of predictions were published after the epidemic peak in the Americas. While the use of preprints improved the accessibility of ZIKV predictions by a median of 119 days sooner than journal publication dates, they were used in only 30% of studies. Conclusions: Many ZIKV predictions were published during the 2016–2017 pandemic. The accessibility, reproducibility, timeliness, and incorporation of uncertainty in these published predictions varied and indicates there is substantial room for improvement. To enhance the utility of analytical tools for outbreak response it is essential to improve the sharing of model data, code, and preprints for future outbreaks, epidemics, and pandemics. [ABSTRACT FROM AUTHOR]

Published
2019
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21. Detection of intact influenza viruses using biotinylated biantennary s-sialosides

Author

Kale, Ramesh R., Mukundan, Harshini, Price, Dominique N., Harris, J. Foster, Lewallen, Daniel M., Swanson, Basil L., Schmidt, Jurgen G., and Iyer, Suri S.

Subjects
Biotin -- Chemical properties, Glycoproteins -- Chemical properties, Influenza viruses -- Research, Sialic acids -- Chemical properties, Chemistry
Abstract

The article discusses the synthesis and properties of the viral neuraminidase (NA) resistant S-sialosides, which are used for the detection of intact influenza viruses. A new stable strategy for the production of stable glycoconjugates is also presented.

Published
2008

23. Association of Lipoarabinomannan with Human High Density Lipoprotein in Blood: Implications for Bio-distribution and Serum Diagnostics

Author

Sakamuri, Rama Murthy, Price, Dominique N., Lee, Myungsun, Cho, Sang Nae, Barry, Clifton E., Via, Laura E., Swanson, Basil I., and Mukundan, Harshini

Subjects
Immunoassay, Lipopolysaccharides, Male, Apolipoprotein A-I, Biosensing Techniques, bacterial infections and mycoses, Article, immune system diseases, hemic and lymphatic diseases, Case-Control Studies, Host-Pathogen Interactions, Humans, Tuberculosis, lipids (amino acids, peptides, and proteins), Female, Lipoproteins, HDL, Biomarkers
Abstract

Understanding the pathophysiology of tuberculosis, and the bio-distribution of pathogen-associated molecules in the host is essential for the development of efficient methods of intervention. One of the key virulence factors in the pathology of tuberculosis infection is Lipoarabinomannan (LAM). Previously, we have demonstrated the reliable detection of LAM in urine from tuberculosis patients in a sandwich immunoassay format. We have also applied an ultra-sensitive detection strategy developed for amphiphilic biomarkers, membrane insertion, to the detection of LAM with a limit of detection of 10 fM. Herein, we evaluate the application of membrane insertion to the detection of LAM in patient serum, and demonstrate that the circulating concentrations of 'monomeric' LAM in serum are very low, despite significantly higher concentrations in the urine. Using spiked samples, we demonstrate that this discrepancy is due to the association of LAM with high-density lipoprotein (HDL) nanodiscs in human serum. Indeed, pull-down of HDL nanodiscs from human serum allows for the recovery of HDL-associated LAM. These studies suggest that LAM is likely associated with carrier molecules such as HDL in the blood of patients infected with tuberculosis. This phenomenon may not be limited to LAM in that many pathogen-associated molecular patterns like LAM are amphiphilic in nature and may also be associated with host lipid carriers. Such interactions are likely to affect host-pathogen interactions, pathogen bio-distribution and clearance in the host, and must be thoroughly understood for the effective design of vaccines and diagnostics.

Published
2013

24. Presentation matters: Impact of association of amphiphilic LPS with serum carrier proteins on innate immune signaling.

Author

Stromberg, Loreen R., Mendez, Heather M., Kubicek-Sutherland, Jessica Z., Graves, Steven W., Hengartner, Nicolas W., and Mukundan, Harshini

Subjects
LIPOPOLYSACCHARIDES, CARRIER proteins, AMPHIPHILES, BLOOD serum analysis, DRUG delivery systems, CELLULAR signal transduction
Abstract

Recognition of Pathogen-associated Molecular Patterns (PAMPs) by Toll-like receptors is central to innate immunity. Many bacterial PAMPs such as lipopolysaccharide (LPS) and lipoteichoic acid have amphiphilic properties. The hydrophobicity of amphiphilic PAMPs contributes to increasing entropy and causes these molecules to self-aggregate or bind host carrier proteins in aqueous physiological environments. The goal of this work was to determine how innate immune signaling is impacted by physical presentation and association of amphiphilic PAMPs with serum carrier proteins, using LPS as an example molecule. Specifically, we measured LPS-induced cytokine profiles in murine macrophages when the antigen was presented associated with the various serum carrier proteins in serum versus a serum-depleted system. Our study demonstrates that the observed cytokine profiles are dramatically different when LPS is presented in buffer, versus in serum when it is associated with proteins, specifically with respect to inhibition of pro-inflammatory cytokines in the latter. These studies suggest that LPS-mediated cytokine expression is dependent on its presentation in physiological systems. The amphiphilicity of bacterial PAMPs and consequent association with lipoproteins is a feature, which should be taken into account in the design of in vitro experiments. Further studies of the interdependencies of different serum carriers can identify pathways for drug delivery and diagnostics. [ABSTRACT FROM AUTHOR]

Published
2018
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25. Rapid Detection of Mycobacterium tuberculosis Biomarkers using a Waveguide-based Biosensor

Author

Mukundan, Harshini, Kumar, Sandeep, Price, Dominique N., Ray, Sonja M., Lee, Ye-Jin, Min, Seonyeong, Eum, Seokyong, Sutherland, Jessica Kubicek, Resnick, Jesse M., Grace, W. Kevin, Anderson, Aaron S., Hwang, Soo Hee, Cho, Sang Nae, Via, Laura E., Barry, Clifton E., Sakamuri, Ramamurthy, and Swanson, Basil I.

Subjects
Immunoassay, Lipopolysaccharides, Male, Antigens, Bacterial, Coinfection, Reproducibility of Results, Enzyme-Linked Immunosorbent Assay, Biosensing Techniques, Mycobacterium tuberculosis, Sensitivity and Specificity, Article, Bacterial Proteins, HIV Seropositivity, Humans, Female, Reagent Kits, Diagnostic, Tuberculosis, Pulmonary, Acyltransferases, Biomarkers
Abstract

Early diagnosis of active tuberculosis (TB) remains an elusive challenge, especially in individuals with disseminated TB and HIV co-infection. Recent studies have shown a promise for the direct detection of pathogen-specific biomarkers such as lipoarabinomannan (LAM) for the diagnosis of TB in HIV-positive individuals. Currently, traditional immunoassay platforms that suffer from poor sensitivity and high non-specific interactions are used for the detection of such biomarkers. In this manuscript, we demonstrate the development of sandwich immunoassays for the direct detection of three TB-specific biomarkers, namely LAM, early secretory antigenic target 6 (ESAT6) and antigen 85 complex (Ag85), using a waveguide-based optical biosensor platform. Combining detection within the evanescent field of a planar optical waveguide with functional surfaces that reduce non-specific interactions allows for the ultra-sensitive and quantitative detection of biomarkers (an order of magnitude enhanced sensitivity, as compared to plate-based ELISA) in complex patient samples (urine, serum) within a short time. We also demonstrate the detection of LAM in urine from a small sample of subjects being treated for TB using this approach with excellent sensitivity and 100% corroboration with disease status. These results suggest that pathogen-specific biomarkers can be applied for the rapid and effective diagnosis of disease. It is likely that detection of a combination of biomarkers offers greater reliability of diagnosis, rather than detection of any single pathogen biomarker. NCT00341601.

Published
2012

26. Detection of Lipid and Amphiphilic Biomarkers for Disease Diagnostics.

Author

Kubicek-Sutherland, Jessica Z., Vu, Dung M., Mendez, Heather M., Jakhar, Shailja, and Mukundan, Harshini

Subjects
LIPID analysis, BIOMARKERS, COMMUNICABLE disease diagnosis
Abstract

Rapid diagnosis is crucial to effectively treating any disease. Biological markers, or biomarkers, have been widely used to diagnose a variety of infectious and non-infectious diseases. The detection of biomarkers in patient samples can also provide valuable information regarding progression and prognosis. Interestingly, many such biomarkers are composed of lipids, and are amphiphilic in biochemistry, which leads them to be often sequestered by host carriers. Such sequestration enhances the difficulty of developing sensitive and accurate sensors for these targets. Many of the physiologically relevant molecules involved in pathogenesis and disease are indeed amphiphilic. This chemical property is likely essential for their biological function, but also makes them challenging to detect and quantify in vitro. In order to understand pathogenesis and disease progression while developing effective diagnostics, it is important to account for the biochemistry of lipid and amphiphilic biomarkers when creating novel techniques for the quantitative measurement of these targets. Here, we review techniques and methods used to detect lipid and amphiphilic biomarkers associated with disease, as well as their feasibility for use as diagnostic targets, highlighting the significance of their biochemical properties in the design and execution of laboratory and diagnostic strategies. The biochemistry of biological molecules is clearly relevant to their physiological function, and calling out the need for consideration of this feature in their study, and use as vaccine, diagnostic and therapeutic targets is the overarching motivation for this review. [ABSTRACT FROM AUTHOR]

Published
2017
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27. Reduced Parasite Burden in Children with Falciparum Malaria and Bacteremia Coinfections: Role of Mediators of Inflammation.

Author

Davenport, Gregory C., Hittner, James B., Otieno, Vincent, Karim, Zachary, Mukundan, Harshini, Fenimore, Paul W., Hengartner, Nicolas W., McMahon, Benjamin H., Kempaiah, Prakasha, Ong’echa, John M., and Perkins, Douglas J.

Subjects
MIXED infections, BACTEREMIA, JUVENILE diseases, MALARIA, INFLAMMATORY mediators, CYTOKINES
Abstract

Bacteremia and malaria coinfection is a common and life-threatening condition in children residing in sub-Saharan Africa. We previously showed that coinfection with Gram negative (G[−]) enteric Bacilli and Plasmodium falciparum (Pf[+]) was associated with reduced high-density parasitemia (HDP, >10,000 parasites/μL), enhanced respiratory distress, and severe anemia. Since inflammatory mediators are largely unexplored in such coinfections, circulating cytokines were determined in four groups of children (n=206, aged <3 yrs): healthy; Pf[+] alone; G[−] coinfected; and G[+] coinfected. Staphylococcus aureus and non-Typhi Salmonella were the most frequently isolated G[+] and G[−] organisms, respectively. Coinfected children, particularly those with G[−] pathogens, had lower parasite burden (peripheral and geometric mean parasitemia and HDP). In addition, both coinfected groups had increased IL-4, IL-5, IL-7, IL-12, IL-15, IL-17, IFN-γ, and IFN-α and decreased TNF-α relative to malaria alone. Children with G[−] coinfection had higher IL-1β and IL-1Ra and lower IL-10 than the Pf[+] group and higher IFN-γ than the G[+] group. To determine how the immune response to malaria regulates parasitemia, cytokine production was investigated with a multiple mediation model. Cytokines with the greatest mediational impact on parasitemia were IL-4, IL-10, IL-12, and IFN-γ. Results here suggest that enhanced immune activation, especially in G[−] coinfected children, acts to reduce malaria parasite burden. [ABSTRACT FROM AUTHOR]

Published
2016
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28. Membrane Insertion for the Detection of Lipopolysaccharides: Exploring the Dynamics of Amphiphile-in-Lipid Assays.

Author

Stromberg, Loreen R., Hengartner, Nicolas W., Swingle, Kirstie L., Moxley, Rodney A., Graves, Steven W., Montaño, Gabriel A., and Mukundan, Harshini

Subjects
LIPOPOLYSACCHARIDES, AMPHIPHILES, VEROCYTOTOXINS, ESCHERICHIA coli, FOODBORNE diseases, MOLECULAR conformation
Abstract

Shiga toxin-producing Escherichia coli is an important cause of foodborne illness, with cases attributable to beef, fresh produce and other sources. Many serotypes of the pathogen cause disease, and differentiating one serotype from another requires specific identification of the O antigen located on the lipopolysaccharide (LPS) molecule. The amphiphilic structure of LPS poses a challenge when using classical detection methods, which do not take into account its lipoglycan biochemistry. Typically, detection of LPS requires heat or chemical treatment of samples and relies on bioactivity assays for the conserved lipid A portion of the molecule. Our goal was to develop assays to facilitate the direct and discriminative detection of the entire LPS molecule and its O antigen in complex matrices using minimal sample processing. To perform serogroup identification of LPS, we used a method called membrane insertion on a waveguide biosensor, and tested three serogroups of LPS. The membrane insertion technique allows for the hydrophobic association of LPS with a lipid bilayer, where the exposed O antigen can be targeted for specific detection. Samples of beef lysate were spiked with LPS to perform O antigen specific detection of LPS from E. coli O157. To validate assay performance, we evaluated the biophysical interactions of LPS with lipid bilayers both in- and outside of a flow cell using fluorescence microscopy and fluorescently doped lipids. Our results indicate that membrane insertion allows for the qualitative and reliable identification of amphiphilic LPS in complex samples like beef homogenates. We also demonstrated that LPS-induced hole formation does not occur under the conditions of the membrane insertion assays. Together, these findings describe for the first time the serogroup-specific detection of amphiphilic LPS in complex samples using a membrane insertion assay, and highlight the importance of LPS molecular conformations in detection architectures. [ABSTRACT FROM AUTHOR]

Published
2016
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31. HTS of Kinase Activity in various cell lysates

Author

Mukundan, Harshini, Burke, Mary Anne, and Achyuthan, Komandoor E.

Subjects
Cellular therapy -- Analysis, Enzymes -- Synthesis, Enzymes -- Analysis, Biotechnology industry, Business
Abstract

An experiment is conducted to evaluate QTL LightSpeed technology for detecting kinase activity in cell lysates. The results of the experiment are presented.

Published
2005

32. Association of lipoarabinomannan with high density lipoprotein in blood: Implications for diagnostics.

Author

Sakamuri, Rama Murthy, Price, Dominique N., Lee, Myungsun, Cho, Sang Nae, Barry, Clifton E., Via, Laura E., Swanson, Basil I., and Mukundan, Harshini

Subjects
LIPOARABINOMANNANS, HIGH density lipoproteins, BLOOD testing, PATHOLOGICAL physiology, TUBERCULOSIS, MICROBIAL virulence
Abstract

Summary: Understanding the pathophysiology of tuberculosis, and the bio-distribution of pathogen-associated molecules in the host is essential for the development of efficient methods of intervention. One of the key virulence factors in the pathology of tuberculosis infection is Lipoarabinomannan (LAM). Previously, we have demonstrated the reliable detection of LAM in urine from tuberculosis patients in a sandwich immunoassay format. We have also applied an ultra-sensitive detection strategy developed for amphiphilic biomarkers, membrane insertion, to the detection of LAM with a limit of detection of 10 fM. Herein, we evaluate the application of membrane insertion to the detection of LAM in patient serum, and demonstrate that the circulating concentrations of ‘monomeric’ LAM in serum are very low, despite significantly higher concentrations in the urine. Using spiked samples, we demonstrate that this discrepancy is due to the association of LAM with high-density lipoprotein (HDL) nanodiscs in human serum. Indeed, pull-down of HDL nanodiscs from human serum allows for the recovery of HDL-associated LAM. These studies suggest that LAM is likely associated with carrier molecules such as HDL in the blood of patients infected with tuberculosis. This phenomenon may not be limited to LAM in that many pathogen-associated molecular patterns like LAM are amphiphilic in nature and may also be associated with host lipid carriers. Such interactions are likely to affect host–pathogen interactions, pathogen bio-distribution and clearance in the host, and must be thoroughly understood for the effective design of vaccines and diagnostics. [ABSTRACT FROM AUTHOR]

Published
2013
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33. Using Phage and Yeast Display to Select Hundreds of Monoclonal Antibodies: Application to Antigen 85, a Tuberculosis Biomarker.

Author

Ferrara, Fortunato, Naranjo, Leslie A., Kumar, Sandeep, Gaiotto, Tiziano, Mukundan, Harshini, Swanson, Basil, and Bradbury, Andrew R. M.

Subjects
ARABIDOPSIS thaliana, PROTEIN research, PHOSPHATASES, HALOACID dehalogenase, FLOWER development, PLANT proteins
Abstract

Background: Current diagnostic methods for tuberculosis (TB), a major global health challenge that kills nearly two million people annually, are time-consuming and inadequate. During infection a number of bacterial molecules that play a role in the infective process are released and have been proposed as biomarkers for early TB diagnosis. Antigen 85 (Ag85) is the most abundant secreted TB protein, and a potential target for this diagnostic approach. One of the bottlenecks in the direct detection of such bacterial targets is the availability of robust, sensitive, specific antibodies. Methods: Using Ag85 as a model, we describe a method to select antibodies against any potential target using a novel combination of phage and yeast display that exploits the advantage of each approach. Results: The efficiency of this approach was attested to by the 111 specific antibodies identified in initial screens. These were assessed for binding to the different Ag85 subunits, affinity, and activity in sandwich assays. Conclusions: The novelty of this approach lies in the possibility of screening the entire output of a phage antibody selection in a single experiment by yeast display. This can be considered analogous to carrying out a million ELISAs. The monoclonal antibodies (mAbs) identified in this way show high binding affinity and selectivity for the antigens and offer an advantage over traditional mAbs produced by relatively expensive and time consuming techniques. This approach has wide applicability, and the affinity of selected antibodies can be significantly improved, if required. [ABSTRACT FROM AUTHOR]

Published
2012
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34. Rapid detection of Mycobacterium tuberculosis biomarkers in a sandwich immunoassay format using a waveguide-based optical biosensor.

Author

Mukundan, Harshini, Kumar, Sandeep, Price, Dominique N., Ray, Sonja M., Lee, Ye-Jin, Min, Seonyeong, Eum, Seokyong, Kubicek-Sutherland, Jessica, Resnick, Jesse M., Grace, W. Kevin, Anderson, Aaron S., Hwang, Soo Hee, Cho, Sang Nae, Via, Laura E., Barry, Clifton, Sakamuri, Ramamurthy, and Swanson, Basil I.

Subjects
MYCOBACTERIUM tuberculosis, RAPID methods (Microbiology), BIOMARKERS, IMMUNOASSAY, WAVEGUIDES, BIOSENSORS, LIPOARABINOMANNANS
Abstract

Summary: Early diagnosis of active tuberculosis (TB) remains an elusive challenge, especially in individuals with disseminated TB and HIV co-infection. Recent studies have shown a promise for the direct detection of pathogen-specific biomarkers such as lipoarabinomannan (LAM) for the diagnosis of TB in HIV-positive individuals. Currently, traditional immunoassay platforms that suffer from poor sensitivity and high non-specific interactions are used for the detection of such biomarkers. In this manuscript, we demonstrate the development of sandwich immunoassays for the direct detection of three TB-specific biomarkers, namely LAM, early secretory antigenic target 6 (ESAT6) and antigen 85 complex (Ag85), using a waveguide-based optical biosensor platform. Combining detection within the evanescent field of a planar optical waveguide with functional surfaces that reduce non-specific interactions allows for the ultra-sensitive and quantitative detection of biomarkers (an order of magnitude enhanced sensitivity, as compared to plate-based ELISA) in complex patient samples (urine, serum) within a short time. We also demonstrate the detection of LAM in urine from a small sample of subjects being treated for TB using this approach with excellent sensitivity and 100% corroboration with disease status. These results suggest that pathogen-specific biomarkers can be applied for the rapid and effective diagnosis of disease. It is likely that detection of a combination of biomarkers offers greater reliability of diagnosis, rather than detection of any single pathogen biomarker. NCT00341601. [ABSTRACT FROM AUTHOR]

Published
2012
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35. Understanding the interaction of Lipoarabinomannan with membrane mimetic architectures.

Author

Mukundan, Harshini, Price, Dominique N., Goertz, Matthew, Parthasarathi, Ramakrishnan, Montaño, Gabriel A., Kumar, Sandeep, Scholfield, Matthew R., Anderson, Aaron S., Gnanakaran, S., Iyer, Srinivas, Schmidt, Jurgen, and Swanson, Basil I.

Subjects
LIPOARABINOMANNANS, BIOMIMETIC chemicals, MYCOBACTERIUM tuberculosis, URINE, SERUM, BILAYER lipid membranes, ATOMIC force microscopy
Abstract

Summary: Lipoarabinomannan (LAM) is a critical virulence factor in the pathogenesis of Mycobacterium tuberculosis, the causative agent of tuberculosis. LAM is secreted in urine and serum from infected patients and is being studied as a potential diagnostic indicator for the disease. Herein, we present a novel ultra-sensitive and specific detection strategy for monomeric LAM based on its amphiphilic nature and consequent interaction with supported lipid bilayers. Our strategy involves the capture of LAM on waveguides functionalized with membrane mimetic architectures, followed by detection with a fluorescently labeled polyclonal antibody. This approach offers ultra-sensitive detection of lipoarabinomannan (10 fM, within 15 min) and may be extended to other amphiphilic markers. We also show that chemical deacylation of LAM completely abrogates its association with the supported lipid bilayers. The loss of signal using the waveguide assay for deacylated LAM, as well as atomic force microscopy (AFM) images that show no change in height upon addition of deacylated LAM support this hypothesis. Mass spectrometry of chemically deacylated LAM indicates the presence of LAM-specific carbohydrate chains, which maintain antigenicity in immunoassays. Further, we have developed the first three-dimensional structural model of mannose-capped LAM that provides insights into the orientation of LAM on supported lipid bilayers. [ABSTRACT FROM AUTHOR]

Published
2012
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36. Waveguide-Based Biosensors for Pathogen Detection.

Author

Mukundan, Harshini, Anderson, Aaron S., Grace, W. Kevin, Grace, Karen M., Hartman, Nile, Martinez, Jennifer S., and Swanson, Basil I.

Subjects
*BIOSENSORS, *OPTICS, *FLUORESCENCE, *PHOSPHORESCENCE, *INDEXES, *ELECTROMAGNETIC waves, *BIOMOLECULES, *THIN films
Abstract

Optical phenomena such as fluorescence, phosphorescence, polarization, interference and non-linearity have been extensively used for biosensing applications. Optical waveguides (both planar and fiber-optic) are comprised of a material with high permittivity/high refractive index surrounded on all sides by materials with lower refractive indices, such as a substrate and the media to be sensed. This arrangement allows coupled light to propagate through the high refractive index waveguide by total internal reflection and generates an electromagnetic wave-the evanescent field-whose amplitude decreases exponentially as the distance from the surface increases. Excitation of fluorophores within the evanescent wave allows for sensitive detection while minimizing background fluorescence from complex, "dirty" biological samples. In this review, we will describe the basic principles, advantages and disadvantages of planar optical wave guide based biodetection technologies. This discussion will include already commercialized technologies (e.g., Corning's EPIC® Ô, SRU Biosystems' BIND™, Zeptosense®, etc.) and new technologies that are under research and development. We will also review differing assay approaches for the detection of various biomolecules, as well as the thin-film coatings that are often required for waveguide functionalization and effective detection. Finally, we will discuss reverse-symmetry waveguides, resonant waveguide grating sensors and metal-clad leaky waveguides as alternative signal transducers in optical biosensing. [ABSTRACT FROM AUTHOR]

Published
2009
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37. Ca[sup2+] influx mediates enhanced alpha[sub2]-adrenergic contraction in aortas from rats treated with NOS inhibitor.

Author

Mukundan, Harshini and Kanagy, Nancy L.

Subjects
*CALCIUM ions, *ADRENERGIC receptors, *HYPERTENSION, *NITRIC-oxide synthases, *NIFEDIPINE, *PHYSIOLOGY
Abstract

Defines the relative contribution of intracellular and extracellular calcium ion to alpha[sub2]-adrenergic receptor contraction. Investigation of the alteration in calcium ion sources during nitric oxide synthase-I hypertension; Contribution of extracellular and intracellular calcium ion to UK-14304 contraction; Effect of nifedipine on UK-14304.

Published
2001
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39. Macrolides: From Toxins to Therapeutics.

Author

Lenz, Kiersten D., Klosterman, Katja E., Mukundan, Harshini, and Kubicek-Sutherland, Jessica Z.

Subjects
MACROLIDE antibiotics, MACROCYCLIC compounds, TOXINS, MICROFILAMENT proteins, HYDROPHOBIC compounds, MARINE toxins, CYTOSKELETAL proteins, CLARITHROMYCIN
Abstract

Macrolides are a diverse class of hydrophobic compounds characterized by a macrocyclic lactone ring and distinguished by variable side chains/groups. Some of the most well characterized macrolides are toxins produced by marine bacteria, sea sponges, and other species. Many marine macrolide toxins act as biomimetic molecules to natural actin-binding proteins, affecting actin polymerization, while other toxins act on different cytoskeletal components. The disruption of natural cytoskeletal processes affects cell motility and cytokinesis, and can result in cellular death. While many macrolides are toxic in nature, others have been shown to display therapeutic properties. Indeed, some of the most well known antibiotic compounds, including erythromycin, are macrolides. In addition to antibiotic properties, macrolides have been shown to display antiviral, antiparasitic, antifungal, and immunosuppressive actions. Here, we review each functional class of macrolides for their common structures, mechanisms of action, pharmacology, and human cellular targets. [ABSTRACT FROM AUTHOR]

Published
2021
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40. Pediatric Tuberculosis: The Impact of "Omics" on Diagnostics Development.

Author

Jakhar, Shailja, Bitzer, Alexis A., Stromberg, Loreen R., and Mukundan, Harshini

Subjects
TUBERCULOSIS, PROGNOSIS, SPINAL tuberculosis
Abstract

Tuberculosis (TB) is a major public health concern for all ages. However, the disease presents a larger challenge in pediatric populations, partially owing to the lack of reliable diagnostic standards for the early identification of infection. Currently, there are no biomarkers that have been clinically validated for use in pediatric TB diagnosis. Identification and validation of biomarkers could provide critical information on prognosis of disease, and response to treatment. In this review, we discuss how the "omics" approach has influenced biomarker discovery and the advancement of a next generation rapid point-of-care diagnostic for TB, with special emphasis on pediatric disease. Limitations of current published studies and the barriers to their implementation into the field will be thoroughly reviewed within this article in hopes of highlighting future avenues and needs for combating the problem of pediatric tuberculosis. [ABSTRACT FROM AUTHOR]

Published
2020
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41. Blood Based Lipoarabinomannan Detection in Tuberculosis Patients: Results from a Double-Blinded Clinical Cohort in Uganda.

Author

Jakhar, Shailja, Dung Vu, Swanson, Basil, Mendez, Heather, Dorman, Susan, Sakamuri, Ramamurthy, Dighe, Priya, Mukundan, Harshini, Perkins, Mark, and Moreau, Emmanuel

Subjects
TUBERCULOSIS patients, TUBERCULOSIS, LUNG diseases, BLOOD, CAUSES of death, GOVERNMENT laboratories
Abstract

Almost one-third of the world's population is infected with tuberculosis (TB), the leading cause of death worldwide from single infectious agent ranking above HIV/AIDS. About 10% of those infected have a potential risk to develop active TB at some point in their life. Alarmingly, 40% of TB cases are either not diagnosed, or not notified to TB control programs, highlighting the limitations of current diagnostic platforms, which are either inaccurate or inaccessible. A simple bloodbased diagnostic would alleviate this problem, developing which is the goal of our work. Our team has determined that Lipoarabinomannan (LAM), an amphiphilic tuberculosis biomarker, is carried by lipoprotein molecules such as HDL in blood. To detect presence of LAM in blood, we have developed a modified sandwich assay termed lipoprotein capture assay, which utilizes the association of LAM with HDL to achieve rapid biodetection. We have evaluated performance of the Lipoprotein capture assay in a blinded cohort of TB patients from Uganda (n=48), and demonstrate performance in patients presenting with pulmonary and extra- pulmonary variants of the disease. The measurements were made using an ultrasensitive biosensor platform developed at the Los Alamos National Laboratory. The results indicate the feasibility of developing a simple, blood-based diagnostic for active tuberculosis. In addition, they also indicate the dependence of assay performance on co-morbidities such as HIV which impact outcomes, thereby providing some valuable information on disease manifestation that can guide the development of intervention strategies. [ABSTRACT FROM AUTHOR]

Published
2019

43. Understanding the Significance of Biochemistry in the Storage, Handling, Purification, and Sampling of Amphiphilic Mycolactone.

Author

Kubicek-Sutherland, Jessica Z., Vu, Dung M., Anderson, Aaron S., Sanchez, Timothy C., Converse, Paul J., Martí-Arbona, Ricardo, Nuermberger, Eric L., Swanson, Basil I., and Mukundan, Harshini

Subjects
BIOCHEMISTRY, AMPHIPHILES, MYCOBACTERIUM, BURULI ulcer, DRUG lipophilicity, CELL-mediated cytotoxicity
Abstract

Mycolactone, the amphiphilic macrolide toxin secreted by Mycobacterium ulcerans, plays a significant role in the pathology and manifestations of Buruli ulcer (BU). Consequently, it follows that the toxin is a suitable target for the development of diagnostics and therapeutics for this disease. Yet, several challenges have deterred such development. For one, the lipophilic nature of the toxin makes it difficult to handle and store and contributes to variability associated with laboratory experimentation and purification yields. In this manuscript, we have attempted to incorporate our understanding of the lipophilicity of mycolactone in order to define the optimal methods for the storage, handling, and purification of this toxin. We present a systematic correlation of variability associated with measurement techniques (thin-layer chromatography (TLC), mass spectrometry (MS), and UV-Vis spectrometry), storage conditions, choice of solvents, as well as the impact of each of these on toxin function as assessed by cellular cytotoxicity. We also compared natural mycolactone extracted from bacterial culture with synthesized toxins in laboratory (solvents, buffers) and physiologically relevant (serum) matrices. Our results point to the greater stability of mycolactone in organic, as well as detergent-containing, solvents, regardless of the container material (plastic, glass, or silanized tubes). They also highlight the presence of toxin in samples that may be undetectable by any one technique, suggesting that each detection approach captures different configurations of the molecule with varying specificity and sensitivity. Most importantly, our results demonstrate for the very first time that amphiphilic mycolactone associates with host lipoproteins in serum, and that this association will likely impact our ability to study, diagnose, and treat Buruli ulcers in patients. [ABSTRACT FROM AUTHOR]

Published
2019
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44. Lipoprotein capture ELISA method for the sensitive detection of amphiphilic biomarkers.

Author

Lenz, Kiersten D., Klosterman, Katja E., Mukundan, Harshini, and Kubicek-Sutherland, Jessica Z.

Subjects
*ENZYME-linked immunosorbent assay, *BIOMARKERS, *MYCOBACTERIAL diseases, *MYCOBACTERIUM tuberculosis, *GLYCOLIPIDS, *LIPOPROTEINS
Abstract

Enzyme-linked immunosorbent assays (ELISAs) are widely employed for the detection of protein targets due to their ease of use, sensitivity, and potential for high-throughput analyses. However, the use of ELISAs to detect non-protein targets such as lipids and amphiphiles is complicated by the physical properties of these molecules, which affects their association with functional surfaces and recognition ligands. Here, we developed a unique lipoprotein capture ELISA in which the natural association between lipoproteins and amphiphilic molecules facilitates detection of the target biomarker in a physiologically relevant conformation. An assay to detect the glycolipid lipoarabinomannan (LAM), a cell membrane component and virulence factor associated with Mycobacterial infections, was developed as a proof of concept. [Display omitted] • Enzyme-linked immunosorbent assays (ELISAs) are rarely used for the detection of non-protein targets due to association with functional surfaces and recognition ligands. • We developed a lipoprotein capture ELISA method to detect lipid and amphiphilic molecules using their natural biochemical association with lipoproteins as capture ligands. • We show a proof of concept assay to detect the glycolipid lipoarabinomannan, a cell membrane component and virulence factor associated with Mycobacterium tuberculosis. [ABSTRACT FROM AUTHOR]

Published
2022
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