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159 results on '"Dogovski, Con"'

1. Reaction hijacking inhibition of Plasmodium falciparum asparagine tRNA synthetase.

Author

Xie, Stanley, Wang, Yinuo, Morton, Craig, Metcalfe, Riley, Dogovski, Con, Pasaje, Charisse, Dunn, Elyse, Luth, Madeline, Kumpornsin, Krittikorn, Istvan, Eva, Park, Joon, Fairhurst, Kate, Ketprasit, Nutpakal, Yeo, Tomas, Yildirim, Okan, Bhebhe, Mathamsanqa, Klug, Dana, Rutledge, Peter, Godoy, Luiz, Dey, Sumanta, De Souza, Mariana, Siqueira-Neto, Jair, Du, Yawei, Puhalovich, Tanya, Amini, Mona, Shami, Gerry, Loesbanluechai, Duangkamon, Nie, Shuai, Williamson, Nicholas, Jana, Gouranga, Maity, Bikash, Thomson, Patrick, Foley, Thomas, Tan, Derek, Niles, Jacquin, Han, Byung, Goldberg, Daniel, Burrows, Jeremy, Fidock, David, Lee, Marcus, Griffin, Michael, Todd, Matthew, Tilley, Leann, and Winzeler, Elizabeth

Subjects
Animals, Humans, Plasmodium falciparum, Asparagine, Aspartate-tRNA Ligase, RNA, Transfer, Amino Acyl, Antimalarials, Mammals
Abstract

Malaria poses an enormous threat to human health. With ever increasing resistance to currently deployed drugs, breakthrough compounds with novel mechanisms of action are urgently needed. Here, we explore pyrimidine-based sulfonamides as a new low molecular weight inhibitor class with drug-like physical parameters and a synthetically accessible scaffold. We show that the exemplar, OSM-S-106, has potent activity against parasite cultures, low mammalian cell toxicity and low propensity for resistance development. In vitro evolution of resistance using a slow ramp-up approach pointed to the Plasmodium falciparum cytoplasmic asparaginyl-tRNA synthetase (PfAsnRS) as the target, consistent with our finding that OSM-S-106 inhibits protein translation and activates the amino acid starvation response. Targeted mass spectrometry confirms that OSM-S-106 is a pro-inhibitor and that inhibition of PfAsnRS occurs via enzyme-mediated production of an Asn-OSM-S-106 adduct. Human AsnRS is much less susceptible to this reaction hijacking mechanism. X-ray crystallographic studies of human AsnRS in complex with inhibitor adducts and docking of pro-inhibitors into a model of Asn-tRNA-bound PfAsnRS provide insights into the structure-activity relationship and the selectivity mechanism.

Published
2024

2. Design of proteasome inhibitors with oral efficacy in vivo against Plasmodium falciparum and selectivity over the human proteasome.

Author

Xie, Stanley, Metcalfe, Riley, Mizutani, Hirotake, Puhalovich, Tanya, Hanssen, Eric, Morton, Craig, Du, Yawei, Dogovski, Con, Huang, Shih-Chung, Ciavarri, Jeffrey, Hales, Paul, Griffin, Robert, Cohen, Lawrence, Chuang, Bei-Ching, Wittlin, Sergio, Deni, Ioanna, Yeo, Tomas, Ward, Kurt, Barry, Daniel, Liu, Boyin, Gillett, David, Crespo-Fernandez, Benigno, Ottilie, Sabine, Mittal, Nimisha, Churchyard, Alisje, Ferguson, Daniel, Aguiar, Anna, Guido, Rafael, Baum, Jake, Hanson, Kirsten, Winzeler, Elizabeth, Gamo, Francisco-Javier, Fidock, David, Baud, Delphine, Parker, Michael, Brand, Stephen, Dick, Lawrence, Griffin, Michael, Gould, Alexandra, and Tilley, Leann

Subjects
Plasmodium, antimalarial drug, cryo-EM, peptide boronate, proteasome, Administration, Oral, Animals, Boron Compounds, Catalytic Domain, Humans, Malaria, Falciparum, Mice, Mice, Inbred NOD, Mice, SCID, Models, Molecular, Plasmodium falciparum, Proteasome Endopeptidase Complex, Proteasome Inhibitors
Abstract

The Plasmodium falciparum proteasome is a potential antimalarial drug target. We have identified a series of amino-amide boronates that are potent and specific inhibitors of the P. falciparum 20S proteasome (Pf20S) β5 active site and that exhibit fast-acting antimalarial activity. They selectively inhibit the growth of P. falciparum compared with a human cell line and exhibit high potency against field isolates of P. falciparum and Plasmodium vivax They have a low propensity for development of resistance and possess liver stage and transmission-blocking activity. Exemplar compounds, MPI-5 and MPI-13, show potent activity against P. falciparum infections in a SCID mouse model with an oral dosing regimen that is well tolerated. We show that MPI-5 binds more strongly to Pf20S than to human constitutive 20S (Hs20Sc). Comparison of the cryo-electron microscopy (EM) structures of Pf20S and Hs20Sc in complex with MPI-5 and Pf20S in complex with the clinically used anti-cancer agent, bortezomib, reveal differences in binding modes that help to explain the selectivity. Together, this work provides insights into the 20S proteasome in P. falciparum, underpinning the design of potent and selective antimalarial proteasome inhibitors.

Published
2021

3. A dynamic stress model explains the delayed drug effect in artemisinin treatment of Plasmodium falciparum

Author

Cao, Pengxing, Klonis, Nectarios, Zaloumis, Sophie, Dogovski, Con, Xie, Stanley C., Saralamba, Sompob, White, Lisa J., Fowkes, Freya J. I., Tilley, Leann, Simpson, Julie A., and McCaw, James M.

Subjects
Quantitative Biology - Populations and Evolution, 92B05
Abstract

Artemisinin resistance constitutes a major threat to the continued success of control programs for malaria. With alternative antimalarial drugs not yet available, improving our understanding of how artemisinin-based drugs act and how resistance manifests is essential to enable optimisation of dosing regimens in order to prolong the lifespan of current first-line treatment options. Here, through introduction of a novel model of the dynamics of the parasites' response to drug, we explore how artemisinin-based therapies may be adjusted to maintain efficacy and how artemisinin resistance may manifest and be overcome. We introduce a dynamic mathematical model, extending on the traditional pharmacokinetic-pharmacodynamic framework, to capture the time-dependent development of a stress response in parasites. We fit the model to in vitro data and establish that the parasites' stress response explains the recently identified complex interplay between drug concentration, exposure time and parasite viability. Our model demonstrates that the previously reported hypersensitivity of early ring stage parasites of the 3D7 strain to dihydroartemisinin (DHA) is primarily due to the rapid development of stress, rather than any change in the maximum achievable killing rate. Of direct clinical relevance, we demonstrate that the complex temporal features of artemisinin action observed in vitro have a significant impact on predictions of in vivo parasite clearance using PK-PD models. Given the important role that such models play in the design and evaluation of clinical trials for alternative drug dosing regimens, our model contributes an enhanced predictive platform for the continued efforts to minimise the burden of malaria., Comment: 24 Pages, 9 figures, 2 tables

Published
2016
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5. Hijacking tRNA charging process: a novel approach to combat malaria

Author

Ketprasit, Nutpakal, primary, Xie, Stanley C., additional, Dogovski, Con, additional, Park, Joon Sung, additional, Morton, Craig J., additional, Hilko, David, additional, Dunn, Elyse, additional, Amini, Mona, additional, Nie, Shuai, additional, Williamson, Nicholas, additional, Poulsen, Sally-Ann, additional, Han, Byung Woo, additional, Griffin, Michael D. W., additional, and Tilley, Leann, additional

Published
2023
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6. Reaction hijacking inhibition of Plasmodium falciparum asparagine tRNA synthetase

Author

Tilley, Leann, primary, Xie, Stanley, additional, Wang, Yinuo, additional, Morton, Craig, additional, Metcalfe, Riley, additional, Dogovski, Con, additional, Pasaje, Charisse Flerida, additional, Dunn, Elyse, additional, Luth, Madeline, additional, Kumpornsin, Krittikorn, additional, Istvan, Eva, additional, Park, Joon, additional, Fairhurst, Katie, additional, Yeo, Tomas, additional, Yildirim, Okan, additional, Bhebhe, Mathamsanqa, additional, Klug, Dana, additional, Rutledge, Peter, additional, Godoy, Luiz, additional, Dey, Sumanta, additional, De Souza, Mariana, additional, Siqueira-Neto, Jair, additional, Ketprasit, Nutpakal, additional, Du, Yawei, additional, Amini, Mona, additional, Shami, Gerald, additional, Nie, Shuai, additional, Williamson, Nicholas, additional, Jana, Gouranga, additional, Maity, Bikash, additional, Thomson, Patrick, additional, Foley, Thomas, additional, Loesbanluechai, Duangkamon, additional, Puhalovich, Tanya, additional, Tan, Derek, additional, Niles, Jacquin, additional, Han, Byung Woo, additional, Goldberg, Daniel, additional, Burrows, Jeremy, additional, Fidock, David, additional, Lee, Marcus, additional, Winzeler, Elizabeth, additional, Griffin, Michael, additional, and Todd, Matthew, additional

Published
2023
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10. Enzymology of Bacterial Lysine Biosynthesis

Author

Dogovski, Con, primary, C., Sarah., additional, R., Sudhir, additional, Downton, Matthew, additional, Hor, Lilian, additional, Moore, Stephen, additional, J., Jason, additional, G., Martin, additional, W., Theresa, additional, Reumann, Matthias, additional, Siddiqui, Tanzeela, additional, L., Nicole, additional, Wagner, John, additional, M., Jacinta, additional, and A., Matthew, additional

Published
2012
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13. A study of AroP-PheP chimeric proteins and identification of a residue involved in tryptophan transport

Author

Cosgriff, Angela J., Brasier, Geoff, Pi, Jing, Dogovski, Con, Sarsero, Joseph P., and Pittard, A.J.

Subjects
Biological transport, Active -- Regulation, Mosaicism -- Analysis, Tryptophan metabolism -- Genetic aspects, Phenylalanine -- Physiological aspects, Biological sciences
Abstract

Results indicate that tyrosine at position 103 in AroP of the AroP-PheP chimeric protein is the key residue involved in the tryptophan transport. Data also show that on the PheP protein, phenylalanine mediates the tryptophan transport.

Published
2000

16. Substrate Locking Promotes Dimer-Dimer Docking of an Enzyme Antibiotic Target

Author

Atkinson, Sarah C., primary, Dogovski, Con, additional, Wood, Kathleen, additional, Griffin, Michael D.W., additional, Gorman, Michael A., additional, Hor, Lilian, additional, Reboul, Cyril F., additional, Buckle, Ashley M., additional, Wuttke, Joachim, additional, Parker, Michael W., additional, Dobson, Renwick C.J., additional, and Perugini, Matthew A., additional

Published
2018
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19. Nanocrystallography measurements of early stage synthetic malaria pigment

Author

Dilanian, Ruben A., primary, Streltsov, Victor, additional, Coughlan, Hannah D., additional, Quiney, Harry M., additional, Martin, Andrew V., additional, Klonis, Nectarios, additional, Dogovski, Con, additional, Boutet, Sébastien, additional, Messerschmidt, Marc, additional, Williams, Garth J., additional, Williams, Sophie, additional, Phillips, Nicholas W., additional, Nugent, Keith A., additional, Tilley, Leann, additional, and Abbey, Brian, additional

Published
2017
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20. Structural Determinants Defining the Allosteric Inhibition of an Essential Antibiotic Target

Author

Soares da Costa, Tatiana P., primary, Desbois, Sebastien, additional, Dogovski, Con, additional, Gorman, Michael A., additional, Ketaren, Natalia E., additional, Paxman, Jason J., additional, Siddiqui, Tanzeela, additional, Zammit, Leanne M., additional, Abbott, Belinda M., additional, Robins-Browne, Roy M., additional, Parker, Michael W., additional, Jameson, Geoffrey B., additional, Hall, Nathan E., additional, Panjikar, Santosh, additional, and Perugini, Matthew A., additional

Published
2016
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21. i-bodies, Human Single Domain Antibodies That Antagonize Chemokine Receptor CXCR4

Author

Griffiths, Katherine, primary, Dolezal, Olan, additional, Cao, Benjamin, additional, Nilsson, Susan K., additional, See, Heng B., additional, Pfleger, Kevin D.G., additional, Roche, Michael, additional, Gorry, Paul R., additional, Pow, Andrew, additional, Viduka, Katerina, additional, Lim, Kevin, additional, Lu, Bernadine G.C., additional, Chang, Denison H.C., additional, Murray-Rust, Thomas, additional, Kvansakul, Marc, additional, Perugini, Matthew A., additional, Dogovski, Con, additional, Doerflinger, Marcel, additional, Zhang, Yuan, additional, Parisi, Kathy, additional, Casey, Joanne L., additional, Nuttall, Stewart D., additional, and Foley, Michael, additional

Published
2016
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22. Targeting the Cell Stress Response of Plasmodium falciparum to Overcome Artemisinin Resistance

Author

Dogovski, Con, Xie, Stanley C., Burgio, Gaetan, Bridgford, Jess, Mok, Sachel, McCaw, James M., Chotivanich, Kesinee, Kenny, Shannon, Gnädig, Nina, Straimer, Judith, Bozdech, Zbynek, Fidock, David A., Simpson, Julie A., Dondorp, Arjen M., Foote, Simon, Klonis, Nectarios, Tilley, Leann, Dogovski, Con, Xie, Stanley C., Burgio, Gaetan, Bridgford, Jess, Mok, Sachel, McCaw, James M., Chotivanich, Kesinee, Kenny, Shannon, Gnädig, Nina, Straimer, Judith, Bozdech, Zbynek, Fidock, David A., Simpson, Julie A., Dondorp, Arjen M., Foote, Simon, Klonis, Nectarios, and Tilley, Leann

Abstract

Successful control of falciparum malaria depends greatly on treatment with artemisinin combination therapies. Thus, reports that resistance to artemisinins (ARTs) has emerged, and that the prevalence of this resistance is increasing, are alarming. ART resistance has recently been linked to mutations in the K13 propeller protein. We undertook a detailed kinetic analysis of the drug responses of K13 wild-type and mutant isolates of Plasmodium falciparum sourced from a region in Cambodia (Pailin). We demonstrate that ART treatment induces growth retardation and an accumulation of ubiquitinated proteins, indicative of a cellular stress response that engages the ubiquitin/proteasome system. We show that resistant parasites exhibit lower levels of ubiquitinated proteins and delayed onset of cell death, indicating an enhanced cell stress response. We found that the stress response can be targeted by inhibiting the proteasome. Accordingly, clinically used proteasome inhibitors strongly synergize ART activity against both sensitive and resistant parasites, including isogenic lines expressing mutant or wild-type K13. Synergy is also observed against Plasmodium berghei in vivo. We developed a detailed model of parasite responses that enables us to infer, for the first time, in vivo parasite clearance profiles from in vitro assessments of ART sensitivity. We provide evidence that the clinical marker of resistance (delayed parasite clearance) is an indirect measure of drug efficacy because of the persistence of unviable parasites with unchanged morphology in the circulation, and we suggest alternative approaches for the direct measurement of viability. Our model predicts that extending current three-day ART treatment courses to four days, or splitting the doses, will efficiently clear resistant parasite infections. This work provides a rationale for improving the detection of ART resistance in the field and for treatment strategies that can be employed in areas with ART resistan

Published
2015

24. Targeting the Cell Stress Response of Plasmodium falciparum to Overcome Artemisinin Resistance

Author

Dogovski, Con, primary, Xie, Stanley C., additional, Burgio, Gaetan, additional, Bridgford, Jess, additional, Mok, Sachel, additional, McCaw, James M., additional, Chotivanich, Kesinee, additional, Kenny, Shannon, additional, Gnädig, Nina, additional, Straimer, Judith, additional, Bozdech, Zbynek, additional, Fidock, David A., additional, Simpson, Julie A., additional, Dondorp, Arjen M., additional, Foote, Simon, additional, Klonis, Nectarios, additional, and Tilley, Leann, additional

Published
2015
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28. Kinetic Characterization of a Panel of High-Affinity Monoclonal Antibodies Targeting Ricin and Recombinant Re-Formatting for Biosensor Applications

Author

Cummins, Michelle, primary, Dogovski, Con, additional, Robert, Remy, additional, Alderton, Malcolm, additional, Chong, Damien, additional, Proll, David, additional, Pontes-Braz, Luisa, additional, Raicevic, Anna, additional, Hattarki, Meghan, additional, Nuttall, Stewart, additional, and Dolezal, Olan, additional

Published
2014
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29. From Knock-Out Phenotype to Three-Dimensional Structure of a Promising Antibiotic Target from Streptococcus pneumoniae

Author

Dogovski, Con, primary, Gorman, Michael A., additional, Ketaren, Natalia E., additional, Praszkier, Judy, additional, Zammit, Leanne M., additional, Mertens, Haydyn D., additional, Bryant, Gary, additional, Yang, Ji, additional, Griffin, Michael D. W., additional, Pearce, F. Grant, additional, Gerrard, Juliet A., additional, Jameson, Geoffrey B., additional, Parker, Michael W., additional, Robins-Browne, Roy M., additional, and Perugini, Matthew A., additional

Published
2013
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30. Defining the interaction of perforin with calcium and the phospholipid membrane

Author

Traore, Daouda A. K., primary, Brennan, Amelia J., additional, Law, Ruby H. P., additional, Dogovski, Con, additional, Perugini, Matthew A., additional, Lukoyanova, Natalya, additional, Leung, Eleanor W. W., additional, Norton, Raymond S., additional, Lopez, Jamie A., additional, Browne, Kylie A., additional, Yagita, Hideo, additional, Lloyd, Gordon J., additional, Ciccone, Annette, additional, Verschoor, Sandra, additional, Trapani, Joseph A., additional, Whisstock, James C., additional, and Voskoboinik, Ilia, additional

Published
2013
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33. Shark Variable New Antigen Receptor (VNAR) Single Domain Antibody Fragments: Stability and Diagnostic Applications

Author

Griffiths, Katherine, primary, Dolezal, Olan, additional, Parisi, Kathy, additional, Angerosa, Julie, additional, Dogovski, Con, additional, Barraclough, Miles, additional, Sanalla, Abdulmonem, additional, Casey, Joanne, additional, González, Iveth, additional, Perugini, Matthew, additional, Nuttall, Stewart, additional, and Foley, Michael, additional

Published
2013
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34. Haemoglobin degradation underpins the sensitivity of early ring stage Plasmodium falciparum to artemisinins.

Author

Xie, Stanley C., Dogovski, Con, Hanssen, Eric, Chiu, Francis, Tuo Yang, Crespo, Maria P., Stafford, Che, Batinovic, Steven, Teguh, Silvia, Charman, Susan, Klonis, Nectarios, and Tilley, Leann

Subjects
*HEMOGLOBINS, *PLASMODIUM falciparum, *ARTEMISININ, *NUTRITION, *ANTIPROTOZOAL agents
Abstract

Current first-line artemisinin antimalarials are threatened by the emergence of resistant Plasmodium falciparum. Decreased sensitivity is evident in the initial (early ring) stage of intraerythrocytic development, meaning that it is crucial to understand the action of artemisinins at this stage. Here, we examined the roles of iron (Fe) ions and haem in artemisinin activation in early rings using Fe ion chelators and a specific haemoglobinase inhibitor (E64d). Quantitative modelling of the antagonism accounted for its complex dependence on the chemical features of the artemisinins and on the drug exposure time, and showed that almost all artemisinin activity in early rings (>80%) is due to haem-mediated activation. The surprising implication that haemoglobin uptake and digestion is active in early rings is supported by identification of active haemoglobinases (falcipains) at this stage. Genetic down-modulation of the expression of the two main cysteine protease haemoglobinases, falcipains2and3,renders early ring stage parasites resistant to artemisinins. This confirms the important role of haemoglobin-degrading falcipains in artemisinin activation, and shows that changes in the rate of artemisinin activation could mediate high-level artemisinin resistance. [ABSTRACT FROM AUTHOR]

Published
2016
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38. Dimerization of Plant Defensin NaD1 Enhances Its Antifungal Activity

Author

Lay, Fung T., primary, Mills, Grant D., additional, Poon, Ivan K.H., additional, Cowieson, Nathan P., additional, Kirby, Nigel, additional, Baxter, Amy A., additional, van der Weerden, Nicole L., additional, Dogovski, Con, additional, Perugini, Matthew A., additional, Anderson, Marilyn A., additional, Kvansakul, Marc, additional, and Hulett, Mark D., additional

Published
2012
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44. Substrate-mediated Stabilization of a Tetrameric Drug Target Reveals Achilles Heel in Anthrax

Author

Voss, Jarrod E., primary, Scally, Stephen W., additional, Taylor, Nicole L., additional, Atkinson, Sarah C., additional, Griffin, Michael D.W., additional, Hutton, Craig A., additional, Parker, Michael W., additional, Alderton, Malcolm R., additional, Gerrard, Juliet A., additional, Dobson, Renwick C.J., additional, Dogovski, Con, additional, and Perugini, Matthew A., additional

Published
2010
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