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1. Structural dynamics of RAF1-HSP90-CDC37 and HSP90 complexes reveal asymmetric client interactions and key structural elements.

Author

Finci, Lorenzo, Chakrabarti, Mayukh, Gulten, Gulcin, Finney, Joseph, Grose, Carissa, Fox, Tara, Yang, Renbin, Nissley, Dwight, Esposito, Dominic, Balius, Trent, Simanshu, Dhirendra, and Mccormick, Frank

Subjects
Humans, Cell Cycle Proteins, Protein Binding, Chaperonins, Molecular Chaperones, HSP90 Heat-Shock Proteins
Abstract

RAF kinases are integral to the RAS-MAPK signaling pathway, and proper RAF1 folding relies on its interaction with the chaperone HSP90 and the cochaperone CDC37. Understanding the intricate molecular interactions governing RAF1 folding is crucial for comprehending this process. Here, we present a cryo-EM structure of the closed-state RAF1-HSP90-CDC37 complex, where the C-lobe of the RAF1 kinase domain binds to one side of the HSP90 dimer, and an unfolded N-lobe segment of the RAF1 kinase domain threads through the center of the HSP90 dimer. CDC37 binds to the kinase C-lobe, mimicking the N-lobe with its HxNI motif. We also describe structures of HSP90 dimers without RAF1 and CDC37, displaying only N-terminal and middle domains, which we term the semi-open state. Employing 1 μs atomistic simulations, energetic decomposition, and comparative structural analysis, we elucidate the dynamics and interactions within these complexes. Our quantitative analysis reveals that CDC37 bridges the HSP90-RAF1 interaction, RAF1 binds HSP90 asymmetrically, and that HSP90 structural elements engage RAF1s unfolded region. Additionally, N- and C-terminal interactions stabilize HSP90 dimers, and molecular interactions in HSP90 dimers rearrange between the closed and semi-open states. Our findings provide valuable insight into the contributions of HSP90 and CDC37 in mediating client folding.

Published
2024

2. Author Correction: Membrane lipids drive formation of KRAS4b-RAF1 RBDCRD nanoclusters on the membrane

Author

Shrestha, Rebika, Carpenter, Timothy S., Van, Que N., Agamasu, Constance, Tonelli, Marco, Aydin, Fikret, Chen, De, Gulten, Gulcin, Glosli, James N., López, Cesar A., Oppelstrup, Tomas, Neale, Chris, Gnanakaran, Sandrasegaram, Gillette, William K., Ingólfsson, Helgi I., Lightstone, Felice C., Stephen, Andrew G., Streitz, Frederick H., Nissley, Dwight V., and Turbyville, Thomas J.

Published
2024
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3. Membrane lipids drive formation of KRAS4b-RAF1 RBDCRD nanoclusters on the membrane

Author

Shrestha, Rebika, Carpenter, Timothy S., Van, Que N., Agamasu, Constance, Tonelli, Marco, Aydin, Fikret, Chen, De, Gulten, Gulcin, Glosli, James N., López, Cesar A., Oppelstrup, Tomas, Neale, Chris, Gnanakaran, Sandrasegaram, Gillette, William K., Ingólfsson, Helgi I., Lightstone, Felice C., Stephen, Andrew G., Streitz, Frederick H., Nissley, Dwight V., and Turbyville, Thomas J.

Published
2024
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4. Machine learning–driven multiscale modeling reveals lipid-dependent dynamics of RAS signaling proteins

Author

Ingólfsson, Helgi I, Neale, Chris, Carpenter, Timothy S, Shrestha, Rebika, López, Cesar A, Tran, Timothy H, Oppelstrup, Tomas, Bhatia, Harsh, Stanton, Liam G, Zhang, Xiaohua, Sundram, Shiv, Di Natale, Francesco, Agarwal, Animesh, Dharuman, Gautham, Kokkila Schumacher, Sara IL, Turbyville, Thomas, Gulten, Gulcin, Van, Que N, Goswami, Debanjan, Jean-Francois, Frantz, Agamasu, Constance, Chen, De, Hettige, Jeevapani J, Travers, Timothy, Sarkar, Sumantra, Surh, Michael P, Yang, Yue, Moody, Adam, Liu, Shusen, Van Essen, Brian C, Voter, Arthur F, Ramanathan, Arvind, Hengartner, Nicolas W, Simanshu, Dhirendra K, Stephen, Andrew G, Bremer, Peer-Timo, Gnanakaran, S, Glosli, James N, Lightstone, Felice C, McCormick, Frank, Nissley, Dwight V, and Streitz, Frederick H

Subjects
Networking and Information Technology R&D (NITRD), Generic health relevance, Cell Membrane, Humans, Lipids, Machine Learning, Molecular Dynamics Simulation, Protein Multimerization, Proto-Oncogene Proteins p21(ras), Signal Transduction, RAS dynamics, RAS-membrane biology, multiscale modeling, massive parallel simulations, multiscale infrastructure
Abstract

RAS is a signaling protein associated with the cell membrane that is mutated in up to 30% of human cancers. RAS signaling has been proposed to be regulated by dynamic heterogeneity of the cell membrane. Investigating such a mechanism requires near-atomistic detail at macroscopic temporal and spatial scales, which is not possible with conventional computational or experimental techniques. We demonstrate here a multiscale simulation infrastructure that uses machine learning to create a scale-bridging ensemble of over 100,000 simulations of active wild-type KRAS on a complex, asymmetric membrane. Initialized and validated with experimental data (including a new structure of active wild-type KRAS), these simulations represent a substantial advance in the ability to characterize RAS-membrane biology. We report distinctive patterns of local lipid composition that correlate with interfacially promiscuous RAS multimerization. These lipid fingerprints are coupled to RAS dynamics, predicted to influence effector binding, and therefore may be a mechanism for regulating cell signaling cascades.

Published
2022

5. Standardization of ELISA protocols for serosurveys of the SARS-CoV-2 pandemic using clinical and at-home blood sampling

Author

Klumpp-Thomas, Carleen, Kalish, Heather, Drew, Matthew, Hunsberger, Sally, Snead, Kelly, Fay, Michael P., Mehalko, Jennifer, Shunmugavel, Anandakumar, Wall, Vanessa, Frank, Peter, Denson, John-Paul, Hong, Min, Gulten, Gulcin, Messing, Simon, Hicks, Jennifer, Michael, Sam, Gillette, William, Hall, Matthew D., Memoli, Matthew J., Esposito, Dominic, and Sadtler, Kaitlyn

Published
2021
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6. Machine Learning-Driven Multiscale Modeling: Bridging the Scales with a Next-Generation Simulation Infrastructure

Author

Ingólfsson, Helgi I., primary, Bhatia, Harsh, additional, Aydin, Fikret, additional, Oppelstrup, Tomas, additional, López, Cesar A., additional, Stanton, Liam G., additional, Carpenter, Timothy S., additional, Wong, Sergio, additional, Di Natale, Francesco, additional, Zhang, Xiaohua, additional, Moon, Joseph Y., additional, Stanley, Christopher B., additional, Chavez, Joseph R., additional, Nguyen, Kien, additional, Dharuman, Gautham, additional, Burns, Violetta, additional, Shrestha, Rebika, additional, Goswami, Debanjan, additional, Gulten, Gulcin, additional, Van, Que N., additional, Ramanathan, Arvind, additional, Van Essen, Brian, additional, Hengartner, Nicolas W., additional, Stephen, Andrew G., additional, Turbyville, Thomas, additional, Bremer, Peer-Timo, additional, Gnanakaran, S., additional, Glosli, James N., additional, Lightstone, Felice C., additional, Nissley, Dwight V., additional, and Streitz, Frederick H., additional

Published
2023
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8. Exploring CRD mobility during RAS/RAF engagement at the membrane

Author

Nguyen, Kien, primary, López, Cesar A., additional, Neale, Chris, additional, Van, Que N., additional, Carpenter, Timothy S., additional, Di Natale, Francesco, additional, Travers, Timothy, additional, Tran, Timothy H., additional, Chan, Albert H., additional, Bhatia, Harsh, additional, Frank, Peter H., additional, Tonelli, Marco, additional, Zhang, Xiaohua, additional, Gulten, Gulcin, additional, Reddy, Tyler, additional, Burns, Violetta, additional, Oppelstrup, Tomas, additional, Hengartner, Nick, additional, Simanshu, Dhirendra K., additional, Bremer, Peer-Timo, additional, Chen, De, additional, Glosli, James N., additional, Shrestha, Rebika, additional, Turbyville, Thomas, additional, Streitz, Frederick H., additional, Nissley, Dwight V., additional, Ingólfsson, Helgi I., additional, Stephen, Andrew G., additional, Lightstone, Felice C., additional, and Gnanakaran, Sandrasegaram, additional

Published
2022
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9. Optimizing high-yield production of SARS-CoV-2 soluble spike trimers for serology assays

Author

Esposito, Dominic, primary, Mehalko, Jennifer, additional, Drew, Matthew, additional, Snead, Kelly, additional, Wall, Vanessa, additional, Taylor, Troy, additional, Frank, Peter, additional, Denson, John-Paul, additional, Hong, Min, additional, Gulten, Gulcin, additional, Sadtler, Kaitlyn, additional, Messing, Simon, additional, and Gillette, William, additional

Published
2020
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10. Machine Learning-driven Multiscale Modeling Reveals Lipid-Dependent Dynamics of RAS Signaling Proteins

Author

Ingolfsson, Helgi, primary, Neale, Chris, additional, Carpenter, Timothy, additional, Shrestha, Rebika, additional, Lopez, Cesar, additional, Tran, Timothy, additional, Oppelstrup, Tomas, additional, Bhatia, Harsh, additional, Stanton, Liam, additional, Zhang, Xiaohua, additional, Sundram, Shiv, additional, Natale, Francesco Di, additional, Agarwal, Animesh, additional, Dharuman, Gautham, additional, Schumacher, Sara Kokkila, additional, Turbyville, Thomas, additional, Gulten, Gulcin, additional, Van, Que, additional, Goswami, Debanjan, additional, Jean-Francios, Frantz, additional, Agamasu, Constance, additional, Chen, De, additional, Hettige, Jeevapani, additional, Travers, Timothy, additional, Sarkar, Sumantra, additional, Surh, Michael, additional, Yang, Yue, additional, Moody, Adam, additional, Liu, Shusen, additional, Essen, Brian Van, additional, Voter, Arthur, additional, Ramanathan, Arvind, additional, Hengartner, Nicolas, additional, Simanshu, Dhirendra, additional, Stephen, Andrew, additional, Bremer, Peer-Timo, additional, Gnanakaran, S, additional, Glosli, James, additional, Lightstone, Felice, additional, McCormick, Frank, additional, Nissley, Dwight, additional, and Streitz, Frederick, additional

Published
2020
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11. A Sec14-like phosphatidylinositol transfer protein paralog defines a novel class of heme-binding proteins

Author

Khan, Danish, primary, Lee, Dongju, additional, Gulten, Gulcin, additional, Aggarwal, Anup, additional, Wofford, Joshua, additional, Krieger, Inna, additional, Tripathi, Ashutosh, additional, Patrick, John W, additional, Eckert, Debra M, additional, Laganowsky, Arthur, additional, Sacchettini, James, additional, Lindahl, Paul, additional, and Bankaitis, Vytas A, additional

Published
2020
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12. Author response: A Sec14-like phosphatidylinositol transfer protein paralog defines a novel class of heme-binding proteins

Author

Khan, Danish, primary, Lee, Dongju, additional, Gulten, Gulcin, additional, Aggarwal, Anup, additional, Wofford, Joshua, additional, Krieger, Inna, additional, Tripathi, Ashutosh, additional, Patrick, John W, additional, Eckert, Debra M, additional, Laganowsky, Arthur, additional, Sacchettini, James, additional, Lindahl, Paul, additional, and Bankaitis, Vytas A, additional

Published
2020
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13. Standardization of enzyme-linked immunosorbent assays for serosurveys of the SARS-CoV-2 pandemic using clinical and at-home blood sampling

Author

Klumpp-Thomas, Carleen, primary, Kalish, Heather, additional, Drew, Matthew, additional, Hunsberger, Sally, additional, Snead, Kelly, additional, Fay, Michael P, additional, Mehalko, Jennifer, additional, Shunmugavel, Anandakumar, additional, Wall, Vanessa, additional, Frank, Peter, additional, Denson, John-Paul, additional, Hong, Min, additional, Gulten, Gulcin, additional, Messing, Simon, additional, Hicks, Jennifer, additional, Michael, Sam, additional, Gillette, William, additional, Hall, Matthew D, additional, Memoli, Matthew, additional, Esposito, Dominic, additional, and Sadtler, Kaitlyn, additional

Published
2020
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14. A Sec14-like Phosphatidylinositol Transfer Protein Paralog Defines a Novel Class of Heme-binding Proteins With An Unusual Heme Coordination Mechanism

Author

Khan, Danish, primary, Lee, Dongju, additional, Gulten, Gulcin, additional, Aggarwal, Anup, additional, Wofford, Joshua, additional, Krieger, Inna, additional, Tripathi, Ashutosh, additional, Patrick, John W., additional, Eckert, Debra M., additional, Laganowsky, Arthur, additional, Sacchettini, James, additional, Lindahl, Paul, additional, and Bankaitis, Vytas A., additional

Published
2020
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16. Abstract 3373: Identification of KRAS membrane bound states using an integrated computational and experimental approach

Author

Stephen, Andrew G., primary, Agarwal, Animesh, additional, Garcia, Angel E., additional, Gnanakaran, Gnana S., additional, Hettige, Jeevapani, additional, Neale, Christopher, additional, Travers, Timothy, additional, Bhatia, Harsh, additional, Bremer, Peer-Timo, additional, Carpenter, Tim, additional, Glosli, Jim, additional, Ingolfsson, Helgi, additional, Karande, Piyush, additional, Lightstone, Felice, additional, Oppelstrup, Tomas, additional, Stanton, Liam, additional, Sundram, Shiv, additional, Zhang, Xiaohua, additional, Bhowmik, Debsindhu, additional, Ramanathan, Arvind, additional, Stanley, Christopher, additional, Goswami, Debanjan, additional, Gulten, Gulcin, additional, Jean-Francios, Frantz, additional, Simanshu, Dhirendra, additional, Turbyville, Tommy, additional, Shrestha, Rebika, additional, Van, Que, additional, McCormick, Frank, additional, Nissley, Dwight, additional, Streitz, Fred, additional, and Agamasu, Constance, additional

Published
2019
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18. Antitubercular drugs for an old target: GSK693 as a promising InhA direct inhibitor

Author

Martínez-Hoyos, María, Perez-Herran, Esther, Gulten, Gulcin, Encinas, Lourdes, Álvarez-Gómez, Daniel, Alvarez, Emilio, Ferrer-Bazaga, Santiago, García-Pérez, Adolfo, Ortega, Fátima, Angulo-Barturen, Iñigo, Rullas-Trincado, Joaquin, Blanco Ruano, Delia, Torres, Pedro, Castañeda, Pablo, Huss, Sophie, Fernández Menéndez, Raquel, González del Valle, Silvia, Ballell, Lluis, Barros, David, Modha, Sundip, Dhar, Neeraj, Signorino-Gelo, François, McKinney, John D., García-Bustos, Jose Francisco, Lavandera, Jose Luis, Sacchettini, James C., Jimenez, M. Soledad, Martín-Casabona, Nuria, Castro-Pichel, Julia, Mendoza-Losana, Alfonso, Universitat Autònoma de Barcelona, GlaxoSmithKline, and Unión Europea. Comisión Europea. 7 Programa Marco

Subjects
0301 basic medicine, Models, Molecular, Protein Conformation, Antibiotics, Antitubercular Agents, lcsh:Medicine, Pharmacology, Reductase, Mice, Catalytic Domain, Tuberculosis, Multidrug-Resistant, Enzyme Inhibitors, Animal Enoyl, media_common, lcsh:R5-920, biology, INHA, Drug discovery, Isoniazid, General Medicine, Catalase, Enoyl-(Acyl-Carrier-Protein) Reductase (NADH), 3. Good health, Female, lcsh:Medicine (General), Research Paper, medicine.drug, Protein Binding, Drug, Tuberculosis, medicine.drug_class, media_common.quotation_subject, 030106 microbiology, Microbial Sensitivity Tests, General Biochemistry, Genetics and Molecular Biology, Mycobacterium tuberculosis, 03 medical and health sciences, Medicine, General & Internal, InhA, Microsomes, medicine, Animals, Humans, Biology, Binding Sites, lcsh:R, Antibiotic, Single-cell imaging, biology.organism_classification, medicine.disease, bacterial infections and mycoses, Disease Models, Animal, 030104 developmental biology, Mutation, Bactericidal, Rifampicin
Abstract

Despite being one of the first antitubercular agents identified, isoniazid (INH) is still the most prescribed drug for prophylaxis and tuberculosis (TB) treatment and, together with rifampicin, the pillars of current chemotherapy. A high percentage of isoniazid resistance is linked to mutations in the pro-drug activating enzyme KatG, so the discovery of direct inhibitors (DI) of the enoyl-ACP reductase (InhA) has been pursued by many groups leading to the identification of different enzyme inhibitors, active against Mycobacterium tuberculosis (Mtb), but with poor physicochemical properties to be considered as preclinical candidates. Here, we present a series of InhA DI active against multidrug (MDR) and extensively (XDR) drug-resistant clinical isolates as well as in TB murine models when orally dosed that can be a promising foundation for a future treatment., Highlights • KatG-independent InhA inhibitors mimicking isoniazid cidality • GSK693 first DI showing oral in vivo efficacy similar to isoniazid • Retain activity against M(X)DR clinical isolates • Physicochemical properties akin to antitubercular drugs Last year, Mycobacterium tuberculosis had the doubtful honor of being the top infectious killer worldwide. The current 6-month treatment, which was developed more than 30 years ago, has saved million of lives but bears the drawback of poor compliance; hence, the world needs a new shorter and safer TB treatment. The biochemical screening of GSK compound library performed by Martinez et al. has identified new KatG-independent inhibitor of InhA active against M(X)DR Mtb strains, good drug-like properties, and in vivo activity similar to isoniazid overcoming the resistance and toxicological issues of the former drug.

Published
2016

19. Antitubercular drugs for an old target: GSK693 as a promising InhA direct inhibitor

Author

Martínez-Hoyos, María, primary, Perez-Herran, Esther, additional, Gulten, Gulcin, additional, Encinas, Lourdes, additional, Álvarez-Gómez, Daniel, additional, Alvarez, Emilio, additional, Ferrer-Bazaga, Santiago, additional, García-Pérez, Adolfo, additional, Ortega, Fátima, additional, Angulo-Barturen, Iñigo, additional, Rullas-Trincado, Joaquin, additional, Blanco Ruano, Delia, additional, Torres, Pedro, additional, Castañeda, Pablo, additional, Huss, Sophie, additional, Fernández Menéndez, Raquel, additional, González del Valle, Silvia, additional, Ballell, Lluis, additional, Barros, David, additional, Modha, Sundip, additional, Dhar, Neeraj, additional, Signorino-Gelo, François, additional, McKinney, John D., additional, García-Bustos, Jose Francisco, additional, Lavandera, Jose Luis, additional, Sacchettini, James C., additional, Jimenez, M. Soledad, additional, Martín-Casabona, Nuria, additional, Castro-Pichel, Julia, additional, and Mendoza-Losana, Alfonso, additional

Published
2016
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20. N-Benzyl-4-((heteroaryl)methyl)benzamides: A New Class of Direct NADH-Dependent 2-transEnoyl-Acyl Carrier Protein Reductase (InhA) Inhibitors with Antitubercular Activity

Author

Guardia, Ana, primary, Gulten, Gulcin, additional, Fernandez, Raquel, additional, Gómez, Jesus, additional, Wang, Feng, additional, Convery, Maire, additional, Blanco, Delia, additional, Martínez, María, additional, Pérez-Herrán, Esther, additional, Alonso, Marta, additional, Ortega, Fátima, additional, Rullás, Joaquín, additional, Calvo, David, additional, Mata, Lydia, additional, Young, Robert, additional, Sacchettini, James C., additional, Mendoza-Losana, Alfonso, additional, Remuiñán, Modesto, additional, Ballell Pages, Lluís, additional, and Castro-Pichel, Julia, additional

Published
2016
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22. Identification of Compounds with Potential Antibacterial Activity against Mycobacterium through Structure-Based Drug Screening

Author

Kinjo, Tomohiro, primary, Koseki, Yuji, additional, Kobayashi, Maiko, additional, Yamada, Atsumi, additional, Morita, Koji, additional, Yamaguchi, Kento, additional, Tsurusawa, Ryoya, additional, Gulten, Gulcin, additional, Komatsu, Hideyuki, additional, Sakamoto, Hiroshi, additional, Sacchettini, James C., additional, Kitamura, Mitsuru, additional, and Aoki, Shunsuke, additional

Published
2013
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23. N-Benzyl-4-((heteroaryl)methyl)benzamides: A New Class of Direct NADH-Dependent 2- trans Enoyl-Acyl Carrier Protein Reductase (InhA) Inhibitors with Antitubercular Activity.

Author

Guardia, Ana, Gulten, Gulcin, Fernandez, Raquel, Gómez, Jesus, Wang, Feng, Convery, Maire, Blanco, Delia, Martínez, María, Pérez‐Herrán, Esther, Alonso, Marta, Ortega, Fátima, Rullás, Joaquín, Calvo, David, Mata, Lydia, Young, Robert, Sacchettini, James C., Mendoza‐Losana, Alfonso, Remuiñán, Modesto, Ballell Pages, Lluís, and Castro‐Pichel, Julia

Published
2016
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24. Mycobacterium tuberculosis Dihydrofolate Reductase Is Not a Target Relevant to the Antitubercular Activity of Isoniazid

Author

Wang, Feng, primary, Jain, Paras, additional, Gulten, Gulcin, additional, Liu, Zhen, additional, Feng, Yicheng, additional, Ganesula, Krishna, additional, Motiwala, Alifiya S., additional, Ioerger, Thomas R., additional, Alland, David, additional, Vilchèze, Catherine, additional, Jacobs, William R., additional, and Sacchettini, James C., additional

Published
2010
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30. Mycobacterium tuberculosisDihydrofolate Reductase Is Not a Target Relevant to the Antitubercular Activity of Isoniazid

Author

Wang, Feng, Jain, Paras, Gulten, Gulcin, Liu, Zhen, Feng, Yicheng, Ganesula, Krishna, Motiwala, Alifiya S., Ioerger, Thomas R., Alland, David, Vilchèze, Catherine, Jacobs, William R., and Sacchettini, James C.

Abstract

ABSTRACTMycobacterium tuberculosisenoyl-acyl-ACP reductase (InhA) has been demonstrated to be the primary target of isoniazid (INH). Recently, it was postulated that M. tuberculosisdihydrofolate reductase (DHFR) is also a target of INH, based on the findings that a 4R-INH-NADP adduct synthesized from INH by a nonenzymatic approach showed strong inhibition of DHFR in vitro, and overexpression of M. tuberculosis dfrAin M. smegmatisconferred a 2-fold increase of resistance to INH. In the present study, a plasmid expressing M. tuberculosis dfrAwas transformed into M. smegmatisand M. tuberculosisstrains, respectively. The transformant strains were tested for their resistance to INH. Compared to the wild-type strains, overexpression of dfrAin M. smegmatisand M. tuberculosisdid not confer any resistance to INH based on the MIC values. Similar negative results were obtained with 14 other overexpressed proteins that have been proposed to bind some form of INH-NAD(P) adduct. An Escherichia colicell-based system was designed that allowed coexpression of both M. tuberculosis katGand dfrAgenes in the presence of INH. The DHFR protein isolated from the experimental sample was not found bound with any INH-NADP adduct by enzyme inhibition assay and mass spectroscopic analysis. We also used whole-genome sequencing to determine whether polymorphisms in dfrAcould be detected in six INH-resistant clinical isolates known to lack mutations in inhAand katG, but no such mutations were found. The dfrAoverexpression experiments, together with the biochemical and sequencing studies, conclusively demonstrate that DHFR is not a target relevant to the antitubercular activity of INH.

Published
2010
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31. Optimizing high-yield production of SARS-CoV-2 soluble spike trimers for serology assays.

Author

Esposito D, Mehalko J, Drew M, Snead K, Wall V, Taylor T, Frank P, Denson JP, Hong M, Gulten G, Sadtler K, Messing S, and Gillette W

Abstract

The SARS-CoV-2 spike trimer is the primary antigen for several serology assays critical to determining the extent of SARS-CoV-2 exposure in the population. Until stable cell lines are developed to increase the titer of this secreted protein in mammalian cell culture, the low yield of spike protein produced from transient transfection of HEK293 cells will be a limiting factor for these assays. To improve the yield of spike protein and support the high demand for antigens in serology assays, we investigated several recombinant protein expression variables by altering the incubation temperature, harvest time, chromatography strategy, and final protein manipulation. Through this investigation, we developed a simplified and robust purification strategy that consistently yields 5 mg of protein per liter of expression culture for two commonly used forms of the SARS-CoV-2 spike protein. We show that these proteins form well-behaved stable trimers and are consistently functional in serology assays across multiple protein production lots.

Published
2020
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32. Standardization of enzyme-linked immunosorbent assays for serosurveys of the SARS-CoV-2 pandemic using clinical and at-home blood sampling.

Author

Klumpp-Thomas C, Kalish H, Drew M, Hunsberger S, Snead K, Fay MP, Mehalko J, Shunmugavel A, Wall V, Frank P, Denson JP, Hong M, Gulten G, Messing S, Hicks J, Michael S, Gillette W, Hall MD, Memoli M, Esposito D, and Sadtler K

Abstract

The extent of SARS-CoV-2 infection throughout the United States population is currently unknown. High quality serology is a key tool to understanding the spread of infection, immunity against the virus, and correlates of protection. Limited validation and testing of serology assays used for serosurveys can lead to unreliable or misleading data, and clinical testing using such unvalidated assays can lead to medically costly diagnostic errors and improperly informed public health decisions. Estimating prevalence and clinical decision making is highly dependent on specificity. Here, we present an optimized ELISA-based serology protocol from antigen production to data analysis. This protocol defines thresholds for IgG and IgM for determination of seropositivity with estimated specificity well above 99%. Validation was performed using both traditionally collected serum and dried blood on mail-in blood sampling kits, using archival (pre-2019) negative controls and known PCR-diagnosed positive patient controls. Minimal cross-reactivity was observed for the spike proteins of MERS, SARS1, OC43 and HKU1 viruses and no cross reactivity was observed with anti-influenza A H1N1 HAI titer during validation. This strategy is highly specific and is designed to provide good estimates of seroprevalence of SARS-CoV-2 seropositivity in a population, providing specific and reliable data from serosurveys and clinical testing which can be used to better evaluate and understand SARS-CoV-2 immunity and correlates of protection.

Published
2020
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