Your search keyword '"Truman, Andrew"' showing total 129 results

1. Editorial : A new chapter for Cell Stress and Chaperones

Author

Bourboulia, Dimitra, Blair, Laura J., Clark, Melody S., Edkins, Adrienne L., Hightower, Lawrence E., Mollapour, Mehdi, Prahlad, Veena, Repasky, Elizabeth A., Truebano, Manuela, Truman, Andrew W., Truttmann, Matthias C., van Oosten-Hawle, Patricija, and Woodford, Mark R.

Published

2024

2. Second international symposium on the chaperone code, 2023

Author

Buchner, Johannes, Alasady, Milad J., Backe, Sarah J., Blagg, Brian S.J., Carpenter, Richard L., Colombo, Giorgio, Gelis, Ioannis, Gewirth, Daniel T., Gierasch, Lila M., Houry, Walid A., Johnson, Jill L., Kang, Byoung Heon, Kao, Aimee W., LaPointe, Paul, Mattoo, Seema, McClellan, Amie J., Neckers, Leonard M., Prodromou, Chrisostomos, Rasola, Andrea, Sager, Rebecca A., Theodoraki, Maria A., Truman, Andrew W., Truttman, Matthias C., Zachara, Natasha E., Bourboulia, Dimitra, Mollapour, Mehdi, and Woodford, Mark R.

Published

2024

3. Novel insights into the post-translational modifications of Ydj1/DNAJA1 co-chaperones

Author

Mitchem, Megan M., Shrader, Courtney, Abedi, Elizabeth, and Truman, Andrew W.

Published

2024

4. Complete biosynthesis of the potent vaccine adjuvant QS-21

Author

Martin, Laetitia B. B., Kikuchi, Shingo, Rejzek, Martin, Owen, Charlotte, Reed, James, Orme, Anastasia, Misra, Rajesh C., El-Demerdash, Amr, Hill, Lionel, Hodgson, Hannah, Liu, Yuzhong, Keasling, Jay D., Field, Robert A., Truman, Andrew W., and Osbourn, Anne

Published

2024

5. Second Virtual International Symposium on Cellular and Organismal Stress Responses, September 8–9, 2022

Author

van Oosten-Hawle, Patricija, Backe, Sarah J., Ben-Zvi, Anat, Bourboulia, Dimitra, Brancaccio, Mara, Brodsky, Jeff, Clark, Melody, Colombo, Giorgio, Cox, Marc B., De Los Rios, Paolo, Echtenkamp, Frank, Edkins, Adrienne, Freeman, Brian, Goloubinoff, Pierre, Houry, Walid, Johnson, Jill, LaPointe, Paul, Li, Wei, Mezger, Valerie, Neckers, Len, Nillegoda, Nadinath B., Prahlad, Veena, Reitzel, Adam, Scherz-Shouval, Ruth, Sistonen, Lea, Tsai, Francis T. F., Woodford, Mark R., Mollapour, Mehdi, and Truman, Andrew W.

Published

2023

6. Hsp90 and phosphorylation of the Slt2(Mpk1) MAP kinase activation loop are essential for catalytic, but not non-catalytic, Slt2-mediated transcription in yeast

Author

Millson, Stefan H., Truman, Andrew W., and Piper, Peter W.

Published

2022

7. Chemogenomic and bioinformatic profiling of ERdj paralogs underpins their unique roles in cancer

Author

Knighton, Laura E., Nitika, Wani, Tasaduq H., and Truman, Andrew W.

Published

2022

8. Understanding chaperone specificity: evidence for a ‘client code’

Author

Omkar, Siddhi, Rysbayeva, Ainella, and Truman, Andrew W.

Published

2023

9. Structural transitions modulate the chaperone activities of Grp94

Author

Mirikar, Duhita, Bushman, Yevheniia, and Truman, Andrew W.

Published

2024

10. MicroRNA-570 targets the HSP chaperone network, increases proteotoxic stress and inhibits mammary tumor cell migration

Author

Okusha, Yuka, Guerrero-Gimenez, Martin E., Lang, Benjamin J., Borges, Thiago J., Stevenson, Mary A., Truman, Andrew W., and Calderwood, Stuart K.

Published

2022

11. First Virtual International Congress on Cellular and Organismal Stress Responses, November 5–6, 2020

Author

van Oosten-Hawle, Patricija, Bergink, Steven, Blagg, Brian, Brodsky, Jeff, Edkins, Adrienne, Freeman, Brian, Genest, Olivier, Hendershot, Linda, Kampinga, Harm, Johnson, Jill, De Maio, Antonio, Masison, Dan, Morano, Kevin, Multhoff, Gabriele, Prodromou, Chris, Prahlad, Veena, Scherz-Shouval, Ruth, Zhuravleva, Anastasia, Mollapour, Mehdi, and Truman, Andrew W.

Published

2021

12. Chemogenomic and bioinformatic profiling of ERdj paralogs underpins their unique roles in cancer

Author

Knighton, Laura E., Nitika, Wani, Tasaduq H., and Truman, Andrew W.

Published

2021

13. Genetic analysis of Hsp70 phosphorylation sites reveals a role in Candida albicans cell and colony morphogenesis

Author

Weissman, Ziva, Pinsky, Mariel, Wolfgeher, Donald J., Kron, Stephen J., Truman, Andrew W., and Kornitzer, Daniel

Published

2020

14. Genome mining strategies for ribosomally synthesised and post-translationally modified peptides

Author

Russell, Alicia H. and Truman, Andrew W.

Published

2020

15. The bottromycin epimerase BotH defines a group of atypical α/β-hydrolase-fold enzymes

Author

Sikandar, Asfandyar, Franz, Laura, Adam, Sebastian, Santos-Aberturas, Javier, Horbal, Liliya, Luzhetskyy, Andriy, Truman, Andrew W., Kalinina, Olga V., and Koehnke, Jesko

Published

2020

16. The intracellular DNA sensors cGAS and IFI16 do not mediate effective antiviral immune responses to HSV-1 in human microglial cells

Author

Jeffries, Austin M., Nitika, Truman, Andrew W., and Marriott, Ian

Published

2020

17. Reproducible molecular networking of untargeted mass spectrometry data using GNPS

Author

Aron, Allegra T., Gentry, Emily C., McPhail, Kerry L., Nothias, Louis-Félix, Nothias-Esposito, Mélissa, Bouslimani, Amina, Petras, Daniel, Gauglitz, Julia M., Sikora, Nicole, Vargas, Fernando, van der Hooft, Justin J. J., Ernst, Madeleine, Kang, Kyo Bin, Aceves, Christine M., Caraballo-Rodríguez, Andrés Mauricio, Koester, Irina, Weldon, Kelly C., Bertrand, Samuel, Roullier, Catherine, Sun, Kunyang, Tehan, Richard M., Boya P., Cristopher A., Christian, Martin H., Gutiérrez, Marcelino, Ulloa, Aldo Moreno, Tejeda Mora, Javier Andres, Mojica-Flores, Randy, Lakey-Beitia, Johant, Vásquez-Chaves, Victor, Zhang, Yilue, Calderón, Angela I., Tayler, Nicole, Keyzers, Robert A., Tugizimana, Fidele, Ndlovu, Nombuso, Aksenov, Alexander A., Jarmusch, Alan K., Schmid, Robin, Truman, Andrew W., Bandeira, Nuno, Wang, Mingxun, and Dorrestein, Pieter C.

Published

2020

18. Dynamic remodeling of the interactomes of Nematostella vectensis Hsp70 isoforms under heat shock

Author

Knighton, Laura E., Nitika, Waller, Shawn J., Strom, Owen, Wolfgeher, Donald, Reitzel, Adam M., and Truman, Andrew W.

Published

2019

19. Characterizing functional differences in sea anemone Hsp70 isoforms using budding yeast

Author

Waller, Shawn J., Knighton, Laura E., Crabtree, Lenora M., Perkins, Abigail L., Reitzel, Adam M., and Truman, Andrew W.

Published

2018

20. Endogenous epitope tagging of heat shock protein 70 isoform Hsc70 using CRISPR/Cas9

Author

Nitika and Truman, Andrew W.

Published

2018

21. Chemogenomic screening identifies the Hsp70 co-chaperone DNAJA1 as a hub for anticancer drug resistance

Author

Nitika, Blackman, Jacob S., Knighton, Laura E., Takakuwa, Jade E., Calderwood, Stuart K., and Truman, Andrew W.

Published

2020

22. Investigating the Protein-Protein Interactions of the Yeast Hsp90 Chaperone System by Two-Hybrid Analysis: Potential Uses and Limitations of This Approach

Author

Millson, Stefan H., Truman, Andrew W., Wolfram, Francis, King, Victoria, Panaretou, Barry, Prodromou, Chrisostomos, Pearl, Laurence H., and Piper, Peter W.

Published

2004

23. Keeping blower electronics energized

Author

Gass, Julia, de Mel, Hiran, Truman, Andrew, Vu, Hai, and Valiente, Abel

Published

2017

24. Rapid deacetylation of yeast Hsp70 mediates the cellular response to heat stress

Author

Xu, Linan, Nitika, Hasin, Naushaba, Cuskelly, Daragh D., Wolfgeher, Donald, Doyle, Sean, Moynagh, Paul, Perrett, Sarah, Jones, Gary W., and Truman, Andrew W.

Published

2019

25. Quantitative proteomics of the yeast Hsp70/Hsp90 interactomes during DNA damage reveal chaperone-dependent regulation of ribonucleotide reductase

Author

Truman, Andrew W., Kristjansdottir, Kolbrun, Wolfgeher, Donald, Ricco, Natalia, Mayampurath, Anoop, Volchenboum, Samuel L., Clotet, Josep, and Kron, Stephen J.

Published

2015

26. Cdc37 engages in stable, S14A mutation-reinforced association with the most atypical member of the yeast kinome, Cdk-activating kinase (Cak1)

Author

Millson, Stefan, van Oosten-Hawle, Patricija, Alkuriji, Mohammed A., Truman, Andrew, Siderius, Marco, and Piper, Peter W.

Published

2014

27. The pathway-specific regulatory genes, tei15* and tei16*, are the master switches of teicoplanin production in Actinoplanes teichomyceticus

Author

Horbal, Liliya, Kobylyanskyy, Anton, Truman, Andrew W., Zaburranyi, Nestor, Ostash, Bohdan, Luzhetskyy, Andriy, Marinelli, Flavia, and Fedorenko, Victor

Published

2014

28. The APE2 Exonuclease Is a Client of the Hsp70–Hsp90 Axis in Yeast and Mammalian Cells.

Author

Omkar, Siddhi, Wani, Tasaduq H., Zheng, Bo, Mitchem, Megan M., and Truman, Andrew W.

Subjects

SMALL molecules, YEAST, PROTEIN folding, DNA damage, MOLECULAR chaperones, CELL lines, HEAT shock proteins

Abstract

Molecular chaperones such as Hsp70 and Hsp90 help fold and activate proteins in important signal transduction pathways that include DNA damage response (DDR). Previous studies have suggested that the levels of the mammalian APE2 exonuclease, a protein critical for DNA repair, may be dependent on chaperone activity. In this study, we demonstrate that the budding yeast Apn2 exonuclease interacts with molecular chaperones Ssa1 and Hsp82 and the co-chaperone Ydj1. Although Apn2 does not display a binding preference for any specific cytosolic Hsp70 or Hsp90 paralog, Ssa1 is unable to support Apn2 stability when present as the sole Ssa in the cell. Demonstrating conservation of this mechanism, the exonuclease APE2 also binds to Hsp70 and Hsp90 in mammalian cells. Inhibition of chaperone function via specific small molecule inhibitors results in a rapid loss of APE2 in a range of cancer cell lines. Taken together, these data identify APE2 and Apn2 as clients of the chaperone system in yeast and mammalian cells and suggest that chaperone inhibition may form the basis of novel anticancer therapies that target APE2-mediated processes. [ABSTRACT FROM AUTHOR]

Published

2022

29. The C-terminal domain of Hsp70 is responsible for paralog-specific regulation of ribonucleotide reductase.

Author

Knighton, Laura E., Nitika, Omkar, Siddhi, and Truman, Andrew W.

Subjects

RIBONUCLEOSIDE diphosphate reductase, MOLECULAR chaperones, PROTEIN conformation, DNA replication, PROTEIN folding, HEAT shock proteins, BUDS

Abstract

The Hsp70 family of molecular chaperones is well-conserved and expressed in all organisms. In budding yeast, cells express four highly similar cytosolic Hsp70s Ssa1, 2, 3 and 4 which arose from gene duplication. Ssa1 and 2 are constitutively expressed while Ssa3 and 4 are induced upon heat shock. Recent evidence suggests that despite their amino acid similarity, these Ssas have unique roles in the cell. Here we examine the relative importance of Ssa1-4 in the regulation of the enzyme ribonucleotide reductase (RNR). We demonstrate that cells expressing either Ssa3 or Ssa4 as their sole Ssa are compromised for their resistance to DNA damaging agents and activation of DNA damage response (DDR)-regulated transcription. In addition, we show that the steady state levels and stability of RNR small subunits Rnr2 and Rnr4 are reduced in Ssa3 or Ssa4-expressing cells, a result of decreased Ssa-RNR interaction. Interaction between the Hsp70 co-chaperone Ydj1 and RNR is correspondingly decreased in cells only expressing Ssa3 and 4. Through studies of Ssa2/4 domain swap chimeras, we determined that the C-terminal domain of Ssas are the source of this functional specificity. Taking together, our work suggests a distinct role for Ssa paralogs in regulating DNA replication mediated by C-terminus sequence variation. Author summary: Cells require molecular chaperones to fold proteins into their active conformation. A major mystery however is why cells express so many highly-related and apparently redundant Hsp70 paralogs. We examined the role of four Hsp70 paralogs in budding yeast (Ssa1, 2, 3 and 4) on the activity of the ribonucleotide reductase (RNR complex). Importantly, we demonstrate there is selectivity of RNR subunits for Ssa1 and Ssa2 subunits, which is dictated by the co-chaperone Ydj1. Taken together, our work provides new insight into the functional specificity of Hsp70 paralogs using a native client protein. [ABSTRACT FROM AUTHOR]

Published

2022

30. Vps501, a novel vacuolar SNX‐BAR protein cooperates with the SEA complex to regulate TORC1 signaling.

Author

Goyal, Shreya, Segarra, Verónica A., Nitika, Stecher, Aaron M., Truman, Andrew W., Reitzel, Adam M., and Chi, Richard J.

Subjects

PROTEINS, CELL communication, AUTOPHAGY, STARVATION, PHOSPHORYLATION, BLOOD coagulation factor XIII

Abstract

The sorting nexins (SNXs), constitute a diverse family of molecules that play varied roles in membrane trafficking, cell signaling, membrane remodeling, organelle motility and autophagy. In particular, the SNX‐Bin‐Amphiphysin‐Rvs (BAR) proteins, a SNX subfamily characterized by a C‐terminal dimeric BAR lipid curvature domain and a conserved Phox‐homology domain, are of great interest. In budding yeast, many SNX‐BAR proteins have well‐characterized endo‐vacuolar trafficking roles. Phylogenetic analyses allowed us to identify an additional SNX‐BAR protein, Vps501, with a novel endo‐vacuolar role. We report that Vps501 uniquely localizes to the vacuolar membrane and has physical and genetic interactions with the SEA complex to regulate TORC1 inactivation. We found cells displayed a severe deficiency in starvation‐induced/nonselective autophagy only when SEA complex subunits are ablated in combination with Vps501, indicating a cooperative role with the SEA complex during TORC1 signaling during autophagy induction. Additionally, we found the SEACIT complex becomes destabilized in vps501Δsea1Δ cells, which resulted in aberrant endosomal TORC1 activity and subsequent Atg13 hyperphosphorylation. We have also discovered that the vacuolar localization of Vps501 is dependent upon a direct interaction with Sea1 and a unique lipid binding specificity that is also required for its function. [ABSTRACT FROM AUTHOR]

Published

2022

31. Pan-genome analysis identifies intersecting roles for Pseudomonas specialized metabolites in potato pathogen inhibition.

Author

Pacheco-Moreno, Alba, Stefanato, Francesca L., Ford, Jonathan J., Trippel, Christine, Uszkoreit, Simon, Ferrafiat, Laura, Grenga, Lucia, Dickens, Ruth, Kelly, Nathan, Kingdon, Alexander D. H., Ambrosetti, Liana, Nepogodiev, Sergey A., Findlay, Kim C., Cheema, Jitender, Trick, Martin, Chandra, Govind, Tomalin, Graham, Malone, Jacob G., and Truman, Andrew W.

Published

2021

32. Towards the sustainable discovery and development of new antibiotics.

Author

Miethke, Marcus, Pieroni, Marco, Weber, Tilmann, Brönstrup, Mark, Hammann, Peter, Halby, Ludovic, Arimondo, Paola B., Glaser, Philippe, Aigle, Bertrand, Bode, Helge B., Moreira, Rui, Li, Yanyan, Luzhetskyy, Andriy, Medema, Marnix H., Pernodet, Jean-Luc, Stadler, Marc, Tormo, José Rubén, Genilloud, Olga, Truman, Andrew W., and Weissman, Kira J.

Published

2021

33. Expressed as the sole Hsp90 of yeast, the α and β isoforms of human Hsp90 differ with regard to their capacities for activation of certain client proteins, whereas only Hsp90β generates sensitivity to the Hsp90 inhibitor radicicol

Author

Millson, Stefan H., Truman, Andrew W., Rácz, Attila, Hu, Bin, Panaretou, Barry, Nuttall, James, Mollapour, Mehdi, Söti, Csaba, and Piper, Peter W.

Published

2007

34. Discovery and characterisation of an amidine-containing ribosomally-synthesised peptide that is widely distributed in nature.

Author

Russell, Alicia H., Vior, Natalia M., Hems, Edward S., Lacret, Rodney, and Truman, Andrew W.

Published

2021

35. Bottromycins - biosynthesis, synthesis and activity.

Author

Franz, Laura, Kazmaier, Uli, Truman, Andrew W., and Koehnke, Jesko

Subjects

BIOSYNTHESIS, ANTIBACTERIAL agents, NATURAL products, STREPTOMYCES, CONOTOXINS

Abstract

Covering: 1950s up to the end of 2020 Bottromycins are a class of macrocyclic peptide natural products that are produced by several Streptomyces species and possess promising antibacterial activity against clinically relevant multidrug-resistant pathogens. They belong to the ribosomally synthesised and post-translationally modified peptide (RiPP) superfamily of natural products. The structure contains a unique four-amino acid macrocycle formed via a rare amidine linkage, C-methylation and a D -amino acid. This review covers all aspects of bottromycin research with a focus on recent years (2009–2020), in which major advances in total synthesis and understanding of bottromycin biosynthesis were achieved. [ABSTRACT FROM AUTHOR]

Published

2021

36. Understanding thioamitide biosynthesis using pathway engineering and untargeted metabolomics.

Author

Eyles, Tom H., Vior, Natalia M., Lacret, Rodney, and Truman, Andrew W.

Published

2021

37. Genomic-Led Discovery of a Novel Glycopeptide Antibiotic by Nonomuraea coxensis DSM 45129.

Author

Yushchuk, Oleksandr, Vior, Natalia M., Andreo-Vidal, Andres, Berini, Francesca, Rückert, Christian, Busche, Tobias, Binda, Elisa, Kalinowski, Jörn, Truman, Andrew W., and Marinelli, Flavia

Published

2021

38. Optimisation of the design of round-hole parallel collimators for ultra-compact nuclear medicine imaging

Author

Lowe, Dean, Truman, Andrew, Kwok, Harry, and Bergman, Alanah

Published

2002

39. Decrypting the chaperone code.

Author

Truman, Andrew W., Bourboulia, Dimitra, and Mollapour, Mehdi

Subjects

*SCIENTIFIC ability, *GTPASE-activating protein, *HEAT shock factors, *RAS proteins, *ALLOSTERIC regulation, *MUTANT proteins, *HEAT shock proteins, *MOLECULAR chaperones

Published

2021

40. biofoundry workflow for the identification of genetic determinants of microbial growth inhibition.

Author

Moffat, Alaster D, Elliston, Adam, Patron, Nicola J, Truman, Andrew W, and Lopez, Jose A Carrasco

Subjects

BIOLOGICAL laboratories, WORKFLOW, REGULATION of microbial growth, SYNTHETIC biology, AUTOMATION, MOLECULAR biology, STREPTOMYCES scabies

Abstract

Biofoundries integrate high-throughput software and hardware platforms with synthetic biology approaches to enable the design, execution and analyses of large-scale experiments. The unique and powerful combination of laboratory infrastructure and expertise in molecular biology and automation programming, provide flexible resources for a wide range of workflows and research areas. Here, we demonstrate the applicability of biofoundries to molecular microbiology, describing the development and application of automated workflows to identify the genetic basis of growth inhibition of the plant pathogen Streptomyces scabies by a Pseudomonas strain isolated from a potato field. Combining transposon mutagenesis with automated high-throughput antagonistic assays, the workflow accelerated the screening of 2880 mutants to correlate growth inhibition with a biosynthetic gene cluster within 2 weeks. [ABSTRACT FROM AUTHOR]

Published

2021

41. Host expression system modulates recombinant Hsp70 activity through post‐translational modifications.

Author

Rigo, Mauricio M., Borges, Thiago J., Lang, Benjamin J., Murshid, Ayesha, Nitika, Wolfgeher, Donald, Calderwood, Stuart K., Truman, Andrew W., and Bonorino, Cristina

Subjects

POST-translational modification, RECOMBINANT proteins, PICHIA pastoris, HEAT shock proteins, MASS spectrometry, MYCOBACTERIUM tuberculosis, DENDRITIC cells

Abstract

The use of model organisms for recombinant protein production results in the addition of model‐specific post‐translational modifications (PTMs) that can affect the structure, charge, and function of the protein. The 70‐kDa heat shock proteins (Hsp70) were originally described as intracellular chaperones, with ATPase and foldase activity. More recently, new extracellular activities of Hsp70 proteins (e.g., as immunomodulators) have been identified. While some studies indicate an inflammatory potential for extracellular Hsp70 proteins, others suggest an immunosuppressive activity. We hypothesized that the production of recombinant Hsp70 in different expression systems would result in the addition of different PTMs, perhaps explaining at least some of these opposing immunological outcomes. We produced and purified Mycobacterium tuberculosis DnaK from two different systems, Escherichia coli and Pichia pastoris, and analyzed by mass spectrometry of the protein preparations, investigating the impact of PTMs in an in silico and in vitro perspective. The comparisons of DnaK structures in silico highlighted that electrostatic and topographical differences exist that are dependent upon the expression system. Production of DnaK in the eukaryotic system dramatically affected its ATPase activity and significantly altered its ability to downregulate MHC II and CD86 expression on murine dendritic cells (DCs). Phosphatase treatment of DnaK indicated that some of these differences related specifically to phosphorylation. Altogether, our data indicate that PTMs are an important characteristic of the expression system, with differences that impact interactions of Hsps with their ligands and subsequent functional activities. Database: Mass spectrometry proteomic data are available in the PRIDE database under the accession number PXD011583. [ABSTRACT FROM AUTHOR]

Published

2020

42. Teicoplanin biosynthesis: unraveling the interplay of structural, regulatory, and resistance genes.

Author

Yushchuk, Oleksandr, Ostash, Bohdan, Truman, Andrew W., Marinelli, Flavia, and Fedorenko, Victor

Subjects

TEICOPLANIN, GLYCOPEPTIDE antibiotics, BIOSYNTHESIS, MULTIDRUG resistance in bacteria, GENE clusters, TCP/IP

Abstract

Teicoplanin (Tcp) is a clinically relevant glycopeptide antibiotic (GPA) that is produced by the actinobacterium Actinoplanes teichomyceticus. Tcp is a front-line therapy for treating severe infections caused by multidrug-resistant Gram-positive pathogens in adults and infants. In this review, we provide a detailed overview of how Tcp is produced by A. teichomyceticus by describing Tcp biosynthesis, regulation, and resistance. We summarize the knowledge gained from in vivo and in vitro studies to provide an integrated model of teicoplanin biosynthesis. Then, we discuss genetic and nutritional factors that contribute to the regulation of teicoplanin biosynthesis, focusing on those that have been successfully applied for improving teicoplanin production. A current view on teicoplanin self-resistance mechanisms in A. teichomyceticus is given, and we compare the Tcp biosynthetic gene cluster with other glycopeptide gene clusters from actinoplanetes and from unidentified isolates/metagenomics samples. Finally, we provide an outlook for further directions in studying Tcp biosynthesis and regulation. [ABSTRACT FROM AUTHOR]

Published

2020

43. Antibiotics: past, present and future.

Author

Hutchings, Matthew I and Truman, Andrew W

Subjects

*DRUG resistance in microorganisms, *NATURAL products, *GENOME editing, *DRUG resistance, *NEW product development, *CLINICAL drug trials

Abstract

The first antibiotic, salvarsan, was deployed in 1910. In just over 100 years antibiotics have drastically changed modern medicine and extended the average human lifespan by 23 years. The discovery of penicillin in 1928 started the golden age of natural product antibiotic discovery that peaked in the mid-1950s. Since then, a gradual decline in antibiotic discovery and development and the evolution of drug resistance in many human pathogens has led to the current antimicrobial resistance crisis. Here we give an overview of the history of antibiotic discovery, the major classes of antibiotics and where they come from. We argue that the future of antibiotic discovery looks bright as new technologies such as genome mining and editing are deployed to discover new natural products with diverse bioactivities. We also report on the current state of antibiotic development, with 45 drugs currently going through the clinical trials pipeline, including several new classes with novel modes of action that are in phase 3 clinical trials. Overall, there are promising signs for antibiotic discovery, but changes in financial models are required to translate scientific advances into clinically approved antibiotics. [ABSTRACT FROM AUTHOR]

Published

2019

44. Not quite the SSAme: unique roles for the yeast cytosolic Hsp70s.

Author

Lotz, Sarah K., Knighton, Laura E., Nitika, Jones, Gary W., and Truman, Andrew W.

Subjects

HEAT shock proteins, SACCHAROMYCES cerevisiae, PROTEIN folding, PROTEOLYSIS, YEAST

Abstract

The Heat Shock Protein 70s (Hsp70s) are an essential family of proteins involved in folding of new proteins and triaging of damaged proteins for proteasomal-mediated degradation. They are highly conserved in all organisms, with each organism possessing multiple highly similar Hsp70 variants (isoforms). These isoforms have been previously thought to be identical in function differing only in their spatio-temporal expression pattern. The model organism Saccharomyces cerevisiae (baker's yeast) expresses four Hsp70 isoforms Ssa1, 2, 3 and 4. Here, we review recent findings that suggest that despite their similarity, Ssa isoforms may have unique cellular functions. [ABSTRACT FROM AUTHOR]

Published

2019

45. Mevalonate pathway activity as a determinant of radiation sensitivity in head and neck cancer.

Author

Ricco, Natalia, Flor, Amy, Wolfgeher, Don, Efimova, Elena V., Ramamurthy, Aishwarya, Appelbe, Oliver K., Brinkman, Jacqueline, Truman, Andrew W., Spiotto, Michael T., and Kron, Stephen J.

Abstract

Radioresistance is a major hurdle in the treatment of head and neck squamous cell carcinoma (HNSCC). Here, we report that concomitant treatment of HNSCCs with radiotherapy and mevalonate pathway inhibitors (statins) may overcome resistance. Proteomic profiling and comparison of radioresistant to radiosensitive HNSCCs revealed differential regulation of the mevalonate biosynthetic pathway. Consistent with this finding, inhibition of the mevalonate pathway by pitavastatin sensitized radioresistant SQ20B cells to ionizing radiation and reduced their clonogenic potential. Overall, this study reinforces the view that the mevalonate pathway is a promising therapeutic target in radioresistant HNSCCs. [ABSTRACT FROM AUTHOR]

Published

2019

46. Uncovering the unexplored diversity of thioamidated ribosomal peptides in Actinobacteria using the RiPPER genome mining tool.

Author

Santos-Aberturas, Javier, Chandra, Govind, Frattaruolo, Luca, Lacret, Rodney, Pham, Thu H, Vior, Natalia M, Eyles, Tom H, and Truman, Andrew W

Published

2019

47. Novel insights into molecular chaperone regulation of ribonucleotide reductase.

Author

Knighton, Laura E., Delgado, Lena E., and Truman, Andrew W.

Subjects

RIBONUCLEOSIDE diphosphate reductase, MOLECULAR chaperones

Abstract

The molecular chaperones Hsp70 and Hsp90 bind and fold a significant proportion of the proteome. They are responsible for the activity and stability of many disease-related proteins including those in cancer. Substantial effort has been devoted to developing a range of chaperone inhibitors for clinical use. Recent studies have identified the oncogenic ribonucleotide reductase (RNR) complex as an interactor of chaperones. While several generations of RNR inhibitor have been developed for use in cancer patients, many of these produce severe side effects such as nausea, vomiting and hair loss. Development of more potent, less patient-toxic anti-RNR strategies would be highly desirable. Inhibition of chaperones and associated co-chaperone molecules in both cancer and model organisms such as budding yeast result in the destabilization of RNR subunits and a corresponding sensitization to RNR inhibitors. Going forward, this may form part of a novel strategy to target cancer cells that are resistant to standard RNR inhibitors. [ABSTRACT FROM AUTHOR]

Published

2019

48. Activation of Secondary Metabolite Gene Clusters in Streptomyces clavuligerus by the PimM Regulator of Streptomyces natalensis.

Author

Martínez-Burgo, Yolanda, Santos-Aberturas, Javier, Rodríguez-García, Antonio, Barreales, Eva G., Tormo, José Rubén, Truman, Andrew W., Reyes, Fernando, Aparicio, Jesús F., and Liras, Paloma

Subjects

GENE clusters, STREPTOMYCES, METABOLITES, SECONDARY metabolism, CLAVULANIC acid, CLARITHROMYCIN

Abstract

Expression of non-native transcriptional activators may be a powerful general method to activate secondary metabolites biosynthetic pathways. PAS-LuxR regulators, whose archetype is PimM, activate the biosynthesis of polyene macrolide antifungals and other antibiotics, and have been shown to be functionally preserved across multiple Streptomyces strains. In this work we show that constitutive expression of pimM in Streptomyces clavuligerus ATCC 27064 significantly affected its transcriptome and modifies secondary metabolism. Almost all genes in three secondary metabolite clusters were overexpressed, including the clusters responsible for the biosynthesis of the clinically important clavulanic acid and cephamycin C. In comparison to a control strain, this resulted in 10- and 7-fold higher production levels of these metabolites, respectively. Metabolomic and bioactivity studies of S. clavuligerus::pimM also revealed deep metabolic changes. Antifungal activity absent in the control strain was detected in S. clavuligerus::pimM , and determined to be the result of a fivefold increase in the production of the tunicamycin complex. [ABSTRACT FROM AUTHOR]

Published

2019

49. The Hsp70 co-chaperone Ydj1/HDJ2 regulates ribonucleotide reductase activity.

Author

Sluder, Isaac T., Nitika, null, Knighton, Laura E., and Truman, Andrew W.

Subjects

HSP70 heat-shock proteins, MOLECULAR chaperones, RIBONUCLEOSIDE diphosphate reductase, PROTEIN folding, PROTEIN stability, PROTEOLYSIS

Abstract

Hsp70 is a well-conserved molecular chaperone involved in the folding, stabilization, and eventual degradation of many “client” proteins. Hsp70 is regulated by a suite of co-chaperone molecules that assist in Hsp70-client interaction and stimulate the intrinsic ATPase activity of Hsp70. While previous studies have shown the anticancer target ribonucleotide reductase (RNR) is a client of Hsp70, the regulatory co-chaperones involved remain to be determined. To identify co-chaperone(s) involved in RNR activity, 28 yeast co-chaperone knockout mutants were screened for sensitivity to the RNR-perturbing agent Hydroxyurea. Ydj1, an important cytoplasmic Hsp70 co-chaperone was identified to be required for growth on HU. Ydj1 bound the RNR subunit Rnr2 and cells lacking Ydj1 showed a destabilized RNR complex. Suggesting broad conservation from yeast to human, HDJ2 binds R2B and regulates RNR stability in human cells. Perturbation of the Ssa1-Ydj1 interaction through mutation or Hsp70-HDJ2 via the small molecule 116-9e compromised RNR function, suggesting chaperone dependence of this novel role. Mammalian cells lacking HDJ2 were significantly more sensitive to RNR inhibiting drugs such as hydroxyurea, gemcitabine and triapine. Taken together, this work suggests a novel anticancer strategy-inhibition of RNR by targeting Hsp70 co-chaperone function. [ABSTRACT FROM AUTHOR]

Published

2018

50. Dealing with difficult clients via personalized chaperone inhibitors.

Author

Truman, Andrew W.

Subjects

*MOLECULAR chaperones, *CLINICAL trials

Abstract

The importance of molecular chaperones in cancer is well established, yet several chaperone inhibitors have failed in clinical trials due to toxicity. Recent efforts have focused on targeting chaperone function in cancer by either manipulating the "chaperone code" or inhibiting helper cochaperones, such as DNAJA1. Tong et al. identify a novel inhibitor that specifically disrupts DNAJA1's interaction with p53, promoting p53 degradation. This finding highlights specific DNAJA1 interactions with the potential for less toxicity compared to traditional chaperone inhibitors. [ABSTRACT FROM AUTHOR]

Published

2021