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Start Over Author "Jemth, P." Publication Type Academic Journals
198 results on '"Jemth, P."'

1. Conservation of Affinity Rather Than Sequence Underlies a Dynamic Evolution of the Motif-Mediated p53/MDM2 Interaction in Ray-Finned Fishes.

Author

Mihalič, Filip, Pettersson, Mats, Farkhondehkish, Pouria, Andersson, Eva, Andersson, Leif, Betancur-R, Ricardo, Jemth, Per, and Arcila, Dahiana

Subjects
affinity, intrinsically disordered regions, protein evolution, sequence evolution, Animals, Humans, Tumor Suppressor Protein p53, Zebrafish, Phylogeny, Protein Structure, Tertiary, Protein Binding, Proto-Oncogene Proteins c-mdm2
Abstract

The transcription factor and cell cycle regulator p53 is marked for degradation by the ubiquitin ligase MDM2. The interaction between these 2 proteins is mediated by a conserved binding motif in the disordered p53 transactivation domain (p53TAD) and the folded SWIB domain in MDM2. The conserved motif in p53TAD from zebrafish displays a 20-fold weaker interaction with MDM2, compared to the interaction in human and chicken. To investigate this apparent difference, we tracked the molecular evolution of the p53TAD/MDM2 interaction among ray-finned fishes (Actinopterygii), the largest vertebrate clade. Intriguingly, phylogenetic analyses, ancestral sequence reconstructions, and binding experiments showed that different loss-of-affinity changes in the canonical binding motif within p53TAD have occurred repeatedly and convergently in different fish lineages, resulting in relatively low extant affinities (KD = 0.5 to 5 μM). However, for 11 different fish p53TAD/MDM2 interactions, nonconserved regions flanking the canonical motif increased the affinity 4- to 73-fold to be on par with the human interaction. Our findings suggest that compensating changes at conserved and nonconserved positions within the motif, as well as in flanking regions of low conservation, underlie a stabilizing selection of functional affinity in the p53TAD/MDM2 interaction. Such interplay complicates bioinformatic prediction of binding and calls for experimental validation. Motif-mediated protein-protein interactions involving short binding motifs and folded interaction domains are very common across multicellular life. It is likely that the evolution of affinity in motif-mediated interactions often involves an interplay between specific interactions made by conserved motif residues and nonspecific interactions by nonconserved disordered regions.

Published
2024

3. Large-scale phage-based screening reveals extensive pan-viral mimicry of host short linear motifs

Author

Mihalič, Filip, Simonetti, Leandro, Giudice, Girolamo, Sander, Marie Rubin, Lindqvist, Richard, Peters, Marie Berit Akpiroro, Benz, Caroline, Kassa, Eszter, Badgujar, Dilip, Inturi, Raviteja, Ali, Muhammad, Krystkowiak, Izabella, Sayadi, Ahmed, Andersson, Eva, Aronsson, Hanna, Söderberg, Ola, Dobritzsch, Doreen, Petsalaki, Evangelia, Överby, Anna K., Jemth, Per, Davey, Norman E., and Ivarsson, Ylva

Published
2023
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4. Identification of motif-based interactions between SARS-CoV-2 protein domains and human peptide ligands pinpoint antiviral targets

Author

Filip Mihalič, Caroline Benz, Eszter Kassa, Richard Lindqvist, Leandro Simonetti, Raviteja Inturi, Hanna Aronsson, Eva Andersson, Celestine N. Chi, Norman E. Davey, Anna K. Överby, Per Jemth, and Ylva Ivarsson

Subjects
Science
Abstract

Abstract The virus life cycle depends on host-virus protein-protein interactions, which often involve a disordered protein region binding to a folded protein domain. Here, we used proteomic peptide phage display (ProP-PD) to identify peptides from the intrinsically disordered regions of the human proteome that bind to folded protein domains encoded by the SARS-CoV-2 genome. Eleven folded domains of SARS-CoV-2 proteins were found to bind 281 peptides from human proteins, and affinities of 31 interactions involving eight SARS-CoV-2 protein domains were determined (K D ∼ 7-300 μM). Key specificity residues of the peptides were established for six of the interactions. Two of the peptides, binding Nsp9 and Nsp16, respectively, inhibited viral replication. Our findings demonstrate how high-throughput peptide binding screens simultaneously identify potential host-virus interactions and peptides with antiviral properties. Furthermore, the high number of low-affinity interactions suggest that overexpression of viral proteins during infection may perturb multiple cellular pathways.

Published
2023
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5. Formate overflow drives toxic folate trapping in MTHFD1 inhibited cancer cells

Author

Green, Alanna C., Marttila, Petra, Kiweler, Nicole, Chalkiadaki, Christina, Wiita, Elisée, Cookson, Victoria, Lesur, Antoine, Eiden, Kim, Bernardin, François, Vallin, Karl S. A., Borhade, Sanjay, Long, Maeve, Ghahe, Elahe Kamali, Jiménez-Alonso, Julio J., Jemth, Ann-Sofie, Loseva, Olga, Mortusewicz, Oliver, Meyers, Marianne, Viry, Elodie, Johansson, Annika I., Hodek, Ondřej, Homan, Evert, Bonagas, Nadilly, Ramos, Louise, Sandberg, Lars, Frödin, Morten, Moussay, Etienne, Slipicevic, Ana, Letellier, Elisabeth, Paggetti, Jérôme, Sørensen, Claus Storgaard, Helleday, Thomas, Henriksson, Martin, and Meiser, Johannes

Published
2023
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6. Identification and evaluation of small-molecule inhibitors against the dNTPase SAMHD1 via a comprehensive screening funnel

Author

Si Min Zhang, Cynthia B.J. Paulin, Huazhang Shu, Miriam Yagüe-Capilla, Maurice Michel, Petra Marttila, Florian Ortis, Henri Colyn Bwanika, Christopher Dirks, Rajagopal Papagudi Venkatram, Elisée Wiita, Ann-Sofie Jemth, Ingrid Almlöf, Olga Loseva, Femke M. Hormann, Tobias Koolmeister, Erika Linde, Sun Lee, Sabin Llona-Minguez, Martin Haraldsson, Hanna Axelsson, Kia Strömberg, Evert J. Homan, Martin Scobie, Thomas Lundbäck, Thomas Helleday, and Sean G. Rudd

Subjects
Biochemistry, Molecular biology, Science
Abstract

Summary: SAMHD1 is a dNTP triphosphohydrolase governing nucleotide pool homeostasis and can detoxify chemotherapy metabolites controlling their clinical responses. To understand SAMHD1 biology and investigate the potential of targeting SAMHD1 as neoadjuvant to current chemotherapies, we set out to discover selective small-molecule inhibitors. Here, we report a discovery pipeline encompassing a biochemical screening campaign and a set of complementary biochemical, biophysical, and cell-based readouts for rigorous characterization of the screen output. The identified small molecules, TH6342 and analogs, accompanied by inactive control TH7126, demonstrated specific, low μM potency against both physiological and oncology-drug-derived substrates. By coupling kinetic studies with thermal shift assays, we reveal the inhibitory mechanism of TH6342 and analogs, which engage pre-tetrameric SAMHD1 and deter oligomerization and allosteric activation without occupying nucleotide-binding pockets. Altogether, our study diversifies inhibitory modes against SAMHD1, and the discovery pipeline reported herein represents a thorough framework for future SAMHD1 inhibitor development.

Published
2024
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7. Large-scale phage-based screening reveals extensive pan-viral mimicry of host short linear motifs

Author

Filip Mihalič, Leandro Simonetti, Girolamo Giudice, Marie Rubin Sander, Richard Lindqvist, Marie Berit Akpiroro Peters, Caroline Benz, Eszter Kassa, Dilip Badgujar, Raviteja Inturi, Muhammad Ali, Izabella Krystkowiak, Ahmed Sayadi, Eva Andersson, Hanna Aronsson, Ola Söderberg, Doreen Dobritzsch, Evangelia Petsalaki, Anna K. Överby, Per Jemth, Norman E. Davey, and Ylva Ivarsson

Subjects
Science
Abstract

Abstract Viruses mimic host short linear motifs (SLiMs) to hijack and deregulate cellular functions. Studies of motif-mediated interactions therefore provide insight into virus-host dependencies, and reveal targets for therapeutic intervention. Here, we describe the pan-viral discovery of 1712 SLiM-based virus-host interactions using a phage peptidome tiling the intrinsically disordered protein regions of 229 RNA viruses. We find mimicry of host SLiMs to be a ubiquitous viral strategy, reveal novel host proteins hijacked by viruses, and identify cellular pathways frequently deregulated by viral motif mimicry. Using structural and biophysical analyses, we show that viral mimicry-based interactions have similar binding strength and bound conformations as endogenous interactions. Finally, we establish polyadenylate-binding protein 1 as a potential target for broad-spectrum antiviral agent development. Our platform enables rapid discovery of mechanisms of viral interference and the identification of potential therapeutic targets which can aid in combating future epidemics and pandemics.

Published
2023
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8. Rescue of Escherichia coli auxotrophy by de novo small proteins

Author

Arianne M Babina, Serhiy Surkov, Weihua Ye, Jon Jerlström-Hultqvist, Mårten Larsson, Erik Holmqvist, Per Jemth, Dan I Andersson, and Michael Knopp

Subjects
de novo, small proteins, auxotroph, gene evolution, his operon, RNA binding, Medicine, Science, Biology (General), QH301-705.5
Abstract

Increasing numbers of small proteins with diverse physiological roles are being identified and characterized in both prokaryotic and eukaryotic systems, but the origins and evolution of these proteins remain unclear. Recent genomic sequence analyses in several organisms suggest that new functions encoded by small open reading frames (sORFs) may emerge de novo from noncoding sequences. However, experimental data demonstrating if and how randomly generated sORFs can confer beneficial effects to cells are limited. Here, we show that by upregulating hisB expression, de novo small proteins (≤50 amino acids in length) selected from random sequence libraries can rescue Escherichia coli cells that lack the conditionally essential SerB enzyme. The recovered small proteins are hydrophobic and confer their rescue effect by binding to the 5′ end regulatory region of the his operon mRNA, suggesting that protein binding promotes structural rearrangements of the RNA that allow increased hisB expression. This study adds RNA regulatory elements as another interacting partner for de novo proteins isolated from random sequence libraries and provides further experimental evidence that small proteins with selective benefits can originate from the expression of nonfunctional sequences.

Published
2023
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10. The dynamic properties of a nuclear coactivator binding domain are evolutionarily conserved

Author

Elin Karlsson, Frieda A. Sorgenfrei, Eva Andersson, Jakob Dogan, Per Jemth, and Celestine N. Chi

Subjects
Biology (General), QH301-705.5
Abstract

Reconstruction of an ancient nuclear coactivator binding domain (NCBD) of CREB-binding protein from a bilaterian animal ancestor living 600 million years ago reveals conserved dynamic properties in human NCBD.

Published
2022
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11. Pharmacological targeting of MTHFD2 suppresses acute myeloid leukemia by inducing thymidine depletion and replication stress

Author

Bonagas, Nadilly, Gustafsson, Nina M. S., Henriksson, Martin, Marttila, Petra, Gustafsson, Robert, Wiita, Elisée, Borhade, Sanjay, Green, Alanna C., Vallin, Karl S. A., Sarno, Antonio, Svensson, Richard, Göktürk, Camilla, Pham, Therese, Jemth, Ann-Sofie, Loseva, Olga, Cookson, Victoria, Kiweler, Nicole, Sandberg, Lars, Rasti, Azita, Unterlass, Judith E., Haraldsson, Martin, Andersson, Yasmin, Scaletti, Emma R., Bengtsson, Christoffer, Paulin, Cynthia B. J., Sanjiv, Kumar, Abdurakhmanov, Eldar, Pudelko, Linda, Kunz, Ben, Desroses, Matthieu, Iliev, Petar, Färnegårdh, Katarina, Krämer, Andreas, Garg, Neeraj, Michel, Maurice, Häggblad, Sara, Jarvius, Malin, Kalderén, Christina, Jensen, Amanda Bögedahl, Almlöf, Ingrid, Karsten, Stella, Zhang, Si Min, Häggblad, Maria, Eriksson, Anders, Liu, Jianping, Glinghammar, Björn, Nekhotiaeva, Natalia, Klingegård, Fredrik, Koolmeister, Tobias, Martens, Ulf, Llona-Minguez, Sabin, Moulson, Ruth, Nordström, Helena, Parrow, Vendela, Dahllund, Leif, Sjöberg, Birger, Vargas, Irene L., Vo, Duy Duc, Wannberg, Johan, Knapp, Stefan, Krokan, Hans E., Arvidsson, Per I., Scobie, Martin, Meiser, Johannes, Stenmark, Pål, Berglund, Ulrika Warpman, Homan, Evert J., and Helleday, Thomas

Published
2022
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12. Proteome‐scale mapping of binding sites in the unstructured regions of the human proteome

Author

Caroline Benz, Muhammad Ali, Izabella Krystkowiak, Leandro Simonetti, Ahmed Sayadi, Filip Mihalic, Johanna Kliche, Eva Andersson, Per Jemth, Norman E Davey, and Ylva Ivarsson

Subjects
intrinsically disordered regions, peptides, phage display, protein–protein interactions, short linear motifs, Biology (General), QH301-705.5, Medicine (General), R5-920
Abstract

Abstract Specific protein–protein interactions are central to all processes that underlie cell physiology. Numerous studies have together identified hundreds of thousands of human protein–protein interactions. However, many interactions remain to be discovered, and low affinity, conditional, and cell type‐specific interactions are likely to be disproportionately underrepresented. Here, we describe an optimized proteomic peptide‐phage display library that tiles all disordered regions of the human proteome and allows the screening of ~ 1,000,000 overlapping peptides in a single binding assay. We define guidelines for processing, filtering, and ranking the results and provide PepTools, a toolkit to annotate the identified hits. We uncovered >2,000 interaction pairs for 35 known short linear motif (SLiM)‐binding domains and confirmed the quality of the produced data by complementary biophysical or cell‐based assays. Finally, we show how the amino acid resolution‐binding site information can be used to pinpoint functionally important disease mutations and phosphorylation events in intrinsically disordered regions of the proteome. The optimized human disorderome library paired with PepTools represents a powerful pipeline for unbiased proteome‐wide discovery of SLiM‐based interactions.

Published
2022
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13. Large scale discovery of coronavirus-host factor protein interaction motifs reveals SARS-CoV-2 specific mechanisms and vulnerabilities

Author

Thomas Kruse, Caroline Benz, Dimitriya H. Garvanska, Richard Lindqvist, Filip Mihalic, Fabian Coscia, Raviteja Inturi, Ahmed Sayadi, Leandro Simonetti, Emma Nilsson, Muhammad Ali, Johanna Kliche, Ainhoa Moliner Morro, Andreas Mund, Eva Andersson, Gerald McInerney, Matthias Mann, Per Jemth, Norman E. Davey, Anna K. Överby, Jakob Nilsson, and Ylva Ivarsson

Subjects
Science
Abstract

Many interactions between viral and host proteins are mediated by short peptide motifs. Here, using a phage-based viral peptide library, the authors identify 269 peptide-based interactions for 18 coronaviruses, including an interaction between SARS-CoV-2 N and G3BP1/2 that affects stress granules.

Published
2021
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14. Determinants of affinity, specificity, and phase separation in a supramodule from Post-synaptic density protein 95

Author

Louise Laursen, Raviteja Inturi, Søren Østergaard, and Per Jemth

Subjects
Protein, Protein structure aspects, Biophysics, Science
Abstract

Summary: The post-synaptic density (PSD) is a phase-separated membraneless compartment of proteins including PSD-95 that undergoes morphological alteration in response to synaptic activity. Here, we investigated the interactome of a three-domain supramodule, PDZ3-SH3-GK (PSG) from PSD-95 using bioinformatics to identify potential binding partners, and biophysical methods to characterize the interaction with peptides from these proteins. PSG and the single PDZ3 domain bound similar peptides, but with different specificity. Furthermore, we found that the protein ADGRB1 formed liquid droplets with the PSG supramodule, extending the model for PSD formation. Moreover, certain mutations, introduced outside of the binding pocket in PDZ3, increased the affinity and specificity of the interaction and the size of liquid droplets. Other mutations within the ligand binding pocket lead to a new binding motif specificity. Our results show how the context in terms of supertertiary structure modulates affinity, specificity, and phase separation, and how these properties can evolve by point mutation.

Published
2022
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15. Monoclonal antibodies binding data for SARS-CoV-2 proteins

Author

Nawneet Mishra, Joan Teyra, RuthMabel Boytz, Shane Miersch, Trudy N. Merritt, Lia Cardarelli, Maryna Gorelik, Filip Mihalic, Per Jemth, Robert A. Davey, Sachdev S. Sidhu, Daisy W. Leung, and Gaya K. Amarasinghe

Subjects
ELISA, B.L.I., SARS-CoV-2, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390
Abstract

SARS-CoV-2 pandemic opens up the curiosity of understanding the coronavirus. This demand for the development of the regent, which can be used for academic and therapeutic applications. The present data provide the biochemical characterization of synthetically developed monoclonal antibodies for the SARS-CoV-2 proteins. The antibodies from phage-displayed antibody libraries were selected with the SARS-CoV-2 proteins immobilized in microwell plates. The clones which bind to the antigen in Fab-phage ELISA were selected, and a two-point competitive phage ELISA was performed. Antibodies binding kinetic of IgGs for SARS-CoV2 proteins further carried with B.L.I. Systematic analysis of binding with different control proteins and purified SARS-CoV-2 ensured the robustness of the antibodies.

Published
2022
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17. Large scale discovery of coronavirus-host factor protein interaction motifs reveals SARS-CoV-2 specific mechanisms and vulnerabilities

Author

Kruse, Thomas, Benz, Caroline, Garvanska, Dimitriya H., Lindqvist, Richard, Mihalic, Filip, Coscia, Fabian, Inturi, Raviteja, Sayadi, Ahmed, Simonetti, Leandro, Nilsson, Emma, Ali, Muhammad, Kliche, Johanna, Moliner Morro, Ainhoa, Mund, Andreas, Andersson, Eva, McInerney, Gerald, Mann, Matthias, Jemth, Per, Davey, Norman E., Överby, Anna K., Nilsson, Jakob, and Ivarsson, Ylva

Published
2021
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18. Development of a chemical probe against NUDT15

Author

Zhang, Si Min, Desroses, Matthieu, Hagenkort, Anna, Valerie, Nicholas C. K., Rehling, Daniel, Carter, Megan, Wallner, Olov, Koolmeister, Tobias, Throup, Adam, Jemth, Ann-Sofie, Almlöf, Ingrid, Loseva, Olga, Lundbäck, Thomas, Axelsson, Hanna, Regmi, Shruti, Sarno, Antonio, Krämer, Andreas, Pudelko, Linda, Bräutigam, Lars, Rasti, Azita, Göttmann, Mona, Wiita, Elisée, Kutzner, Juliane, Schaller, Torsten, Kalderén, Christina, Cázares-Körner, Armando, Page, Brent D. G., Krimpenfort, Rosa, Eshtad, Saeed, Altun, Mikael, Rudd, Sean G., Knapp, Stefan, Scobie, Martin, Homan, Evert J., Berglund, Ulrika Warpman, Stenmark, Pål, and Helleday, Thomas

Published
2020
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19. A Syntenin Inhibitor Blocks Endosomal Entry of SARS-CoV-2 and a Panel of RNA Viruses

Author

Richard Lindqvist, Caroline Benz, Vita Sereikaite, Lars Maassen, Louise Laursen, Per Jemth, Kristian Strømgaard, Ylva Ivarsson, and Anna K. Överby

Subjects
SARS-CoV-2, CHIKV, flavivirus, syntenin, peptide inhibitor, Microbiology, QR1-502
Abstract

Viruses are dependent on host factors in order to efficiently establish an infection and replicate. Targeting the interactions of such host factors provides an attractive strategy to develop novel antivirals. Syntenin is a protein known to regulate the architecture of cellular membranes by its involvement in protein trafficking and has previously been shown to be important for human papilloma virus (HPV) infection. Here, we show that a highly potent and metabolically stable peptide inhibitor that binds to the PDZ1 domain of syntenin inhibits severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection by blocking the endosomal entry of the virus. Furthermore, we found that the inhibitor also hampered chikungunya infection and strongly reduced flavivirus infection, which is completely dependent on receptor-mediated endocytosis for their entry. In conclusion, we have identified a novel broad spectrum antiviral inhibitor that efficiently targets a broad range of RNA viruses.

Published
2022
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20. Targeted NUDT5 inhibitors block hormone signaling in breast cancer cells

Author

Brent D. G. Page, Nicholas C. K. Valerie, Roni H. G. Wright, Olov Wallner, Rebecka Isaksson, Megan Carter, Sean G. Rudd, Olga Loseva, Ann-Sofie Jemth, Ingrid Almlöf, Jofre Font-Mateu, Sabin Llona-Minguez, Pawel Baranczewski, Fredrik Jeppsson, Evert Homan, Helena Almqvist, Hanna Axelsson, Shruti Regmi, Anna-Lena Gustavsson, Thomas Lundbäck, Martin Scobie, Kia Strömberg, Pål Stenmark, Miguel Beato, and Thomas Helleday

Subjects
Science
Abstract

NUDIX hydrolases are an important family of nucleotide-metabolizing enzymes. Here, the authors identify potent, small molecule inhibitors of NUDT5, which is implicated in ADP-ribose and 8-oxo-guanine metabolism, and confirm its role in gene regulation and proliferation in breast cancer cells.

Published
2018
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21. A comprehensive structural, biochemical and biological profiling of the human NUDIX hydrolase family

Author

Jordi Carreras-Puigvert, Marinka Zitnik, Ann-Sofie Jemth, Megan Carter, Judith E. Unterlass, Björn Hallström, Olga Loseva, Zhir Karem, José Manuel Calderón-Montaño, Cecilia Lindskog, Per-Henrik Edqvist, Damian J. Matuszewski, Hammou Ait Blal, Ronnie P. A. Berntsson, Maria Häggblad, Ulf Martens, Matthew Studham, Bo Lundgren, Carolina Wählby, Erik L. L. Sonnhammer, Emma Lundberg, Pål Stenmark, Blaz Zupan, and Thomas Helleday

Subjects
Science
Abstract

The NUDIX hydrolases are known to be involved in several cellular processes and diseases, such as cancer, but remain poorly characterized as a family. Here, the authors provide a comprehensive analysis of the structural, biochemical, and expression properties of 18 human NUDIX proteins, and begin to address their functional inter-relationships.

Published
2017
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22. Evolution of the p53-MDM2 pathway

Author

Emma Åberg, Fulvio Saccoccia, Manfred Grabherr, Wai Ying Josefin Ore, Per Jemth, and Greta Hultqvist

Subjects
p53, MDM, Co-evolution, Phylogeny, Evolution, QH359-425
Abstract

Abstract Background The p53 signalling pathway, which controls cell fate, has been extensively studied due to its prominent role in tumor development. The pathway includes the tumor supressor protein p53, its vertebrate paralogs p63 and p73, and their negative regulators MDM2 and MDM4. The p53/p63/p73-MDM system is ancient and can be traced in all extant animal phyla. Despite this, correct phylogenetic trees including both vertebrate and invertebrate species of the p53/p63/p73 and MDM families have not been published. Results Here, we have examined the evolution of the p53/p63/p73 protein family with particular focus on the p53/p63/p73 transactivation domain (TAD) and its co-evolution with the p53/p63/p73-binding domain (p53/p63/p73BD) of MDM2. We found that the TAD and p53/p63/p73BD share a strong evolutionary connection. If one of the domains of the protein is lost in a phylum, then it seems very likely to be followed by loss of function by the other domain as well, and due to the loss of function it is likely to eventually disappear. By focusing our phylogenetic analysis to p53/p63/p73 and MDM proteins from phyla that retain the interaction domains TAD and p53/p63/p73BD, we built phylogenetic trees of p53/p63/p73 and MDM based on both vertebrate and invertebrate species. The trees follow species evolution and contain a total number of 183 and 98 species for p53/p63/p73 and MDM, respectively. We also demonstrate that the p53/p63/p73 and MDM families result from whole genome duplications. Conclusions The signaling pathway of the TAD and p53/p63/p73BD in p53/p63/p73 and MDM, respectively, dates back to early metazoan time and has since then tightly co-evolved, or disappeared in distinct lineages.

Published
2017
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23. Double Mutant Cycles as a Tool to Address Folding, Binding, and Allostery

Author

Livia Pagano, Angelo Toto, Francesca Malagrinò, Lorenzo Visconti, Per Jemth, and Stefano Gianni

Subjects
coupling energy, site-directed mutagenesis, interaction networks, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Quantitative measurement of intramolecular and intermolecular interactions in protein structure is an elusive task, not easy to address experimentally. The phenomenon denoted ‘energetic coupling’ describes short- and long-range interactions between two residues in a protein system. A powerful method to identify and quantitatively characterize long-range interactions and allosteric networks in proteins or protein–ligand complexes is called double-mutant cycles analysis. In this review we describe the thermodynamic principles and basic equations that underlie the double mutant cycle methodology, its fields of application and latest employments, and caveats and pitfalls that the experimentalists must consider. In particular, we show how double mutant cycles can be a powerful tool to investigate allosteric mechanisms in protein binding reactions as well as elusive states in protein folding pathways.

Published
2021
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24. Structure and Characterization of Phosphoglucomutase 5 from Atlantic and Baltic Herring—An Inactive Enzyme with Intact Substrate Binding

Author

Robert Gustafsson, Ulrich Eckhard, Weihua Ye, Erik D. Enbody, Mats Pettersson, Per Jemth, Leif Andersson, and Maria Selmer

Subjects
phosphoglucomutase 5, herring, adaptation, enzyme structure, phosphohexomutase, Microbiology, QR1-502
Abstract

Phosphoglucomutase 5 (PGM5) in humans is known as a structural muscle protein without enzymatic activity, but detailed understanding of its function is lacking. PGM5 belongs to the alpha-D-phosphohexomutase family and is closely related to the enzymatically active metabolic enzyme PGM1. In the Atlantic herring, Clupea harengus, PGM5 is one of the genes strongly associated with ecological adaptation to the brackish Baltic Sea. We here present the first crystal structures of PGM5, from the Atlantic and Baltic herring, differing by a single substitution Ala330Val. The structure of PGM5 is overall highly similar to structures of PGM1. The structure of the Baltic herring PGM5 in complex with the substrate glucose-1-phosphate shows conserved substrate binding and active site compared to human PGM1, but both PGM5 variants lack phosphoglucomutase activity under the tested conditions. Structure comparison and sequence analysis of PGM5 and PGM1 from fish and mammals suggest that the lacking enzymatic activity of PGM5 is related to differences in active-site loops that are important for flipping of the reaction intermediate. The Ala330Val substitution does not alter structure or biophysical properties of PGM5 but, due to its surface-exposed location, could affect interactions with protein-binding partners.

Published
2020
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25. Novel Broad-Spectrum Antiviral Inhibitors Targeting Host Factors Essential for Replication of Pathogenic RNA Viruses

Author

Marianna Tampere, Aleksandra Pettke, Cristiano Salata, Olov Wallner, Tobias Koolmeister, Armando Cazares-Körner, Torkild Visnes, Maria Carmen Hesselman, Elena Kunold, Elisee Wiita, Christina Kalderén, Molly Lightowler, Ann-Sofie Jemth, Janne Lehtiö, Åsa Rosenquist, Ulrika Warpman-Berglund, Thomas Helleday, Ali Mirazimi, Rozbeh Jafari, and Marjo-Riitta Puumalainen

Subjects
antivirals, virus-host interactions, pathogenic RNA viruses, HSP70, target identification, Microbiology, QR1-502
Abstract

Recent RNA virus outbreaks such as Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and Ebola virus (EBOV) have caused worldwide health emergencies highlighting the urgent need for new antiviral strategies. Targeting host cell pathways supporting viral replication is an attractive approach for development of antiviral compounds, especially with new, unexplored viruses where knowledge of virus biology is limited. Here, we present a strategy to identify host-targeted small molecule inhibitors using an image-based phenotypic antiviral screening assay followed by extensive target identification efforts revealing altered cellular pathways upon antiviral compound treatment. The newly discovered antiviral compounds showed broad-range antiviral activity against pathogenic RNA viruses such as SARS-CoV-2, EBOV and Crimean-Congo hemorrhagic fever virus (CCHFV). Target identification of the antiviral compounds by thermal protein profiling revealed major effects on proteostasis pathways and disturbance in interactions between cellular HSP70 complex and viral proteins, illustrating the supportive role of HSP70 on many RNA viruses across virus families. Collectively, this strategy identifies new small molecule inhibitors with broad antiviral activity against pathogenic RNA viruses, but also uncovers novel virus biology urgently needed for design of new antiviral therapies.

Published
2020
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26. Author Correction: Targeted NUDT5 inhibitors block hormone signaling in breast cancer cells

Author

Page, Brent D. G., Valerie, Nicholas C. K., Wright, Roni H. G., Wallner, Olov, Isaksson, Rebecka, Carter, Megan, Rudd, Sean G., Loseva, Olga, Jemth, Ann-Sofie, Almlöf, Ingrid, Font-Mateu, Jofre, Llona-Minguez, Sabin, Baranczewski, Pawel, Jeppsson, Fredrik, Homan, Evert, Almqvist, Helena, Axelsson, Hanna, Regmi, Shruti, Gustavsson, Anna-Lena, Lundbäck, Thomas, Scobie, Martin, Strömberg, Kia, Stenmark, Pål, Beato, Miguel, and Helleday, Thomas

Published
2019
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27. Targeted NUDT5 inhibitors block hormone signaling in breast cancer cells

Author

Page, Brent D. G., Valerie, Nicholas C. K., Wright, Roni H. G., Wallner, Olov, Isaksson, Rebecka, Carter, Megan, Rudd, Sean G., Loseva, Olga, Jemth, Ann-Sofie, Almlöf, Ingrid, Font-Mateu, Jofre, Llona-Minguez, Sabin, Baranczewski, Pawel, Jeppsson, Fredrik, Homan, Evert, Almqvist, Helena, Axelsson, Hanna, Regmi, Shruti, Gustavsson, Anna-Lena, Lundbäck, Thomas, Scobie, Martin, Strömberg, Kia, Stenmark, Pål, Beato, Miguel, and Helleday, Thomas

Published
2018
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28. The evolution of Sex-linked barring alleles in chickens involves both regulatory and coding changes in CDKN2A.

Author

Doreen Schwochow Thalmann, Henrik Ring, Elisabeth Sundström, Xiaofang Cao, Mårten Larsson, Susanne Kerje, Andrey Höglund, Jesper Fogelholm, Dominic Wright, Per Jemth, Finn Hallböök, Bertrand Bed'Hom, Ben Dorshorst, Michèle Tixier-Boichard, and Leif Andersson

Subjects
Genetics, QH426-470
Abstract

Sex-linked barring is a fascinating plumage pattern in chickens recently shown to be associated with two non-coding and two missense mutations affecting the ARF transcript at the CDKN2A tumor suppressor locus. It however remained a mystery whether all four mutations are indeed causative and how they contribute to the barring phenotype. Here, we show that Sex-linked barring is genetically heterogeneous, and that the mutations form three functionally different variant alleles. The B0 allele carries only the two non-coding changes and is associated with the most dilute barring pattern, whereas the B1 and B2 alleles carry both the two non-coding changes and one each of the two missense mutations causing the Sex-linked barring and Sex-linked dilution phenotypes, respectively. The data are consistent with evolution of alleles where the non-coding changes occurred first followed by the two missense mutations that resulted in a phenotype more appealing to humans. We show that one or both of the non-coding changes are cis-regulatory mutations causing a higher CDKN2A expression, whereas the missense mutations reduce the ability of ARF to interact with MDM2. Caspase assays for all genotypes revealed no apoptotic events and our results are consistent with a recent study indicating that the loss of melanocyte progenitors in Sex-linked barring in chicken is caused by premature differentiation and not apoptosis. Our results show that CDKN2A is a major locus driving the differentiation of avian melanocytes in a temporal and spatial manner.

Published
2017
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29. Emergence and evolution of an interaction between intrinsically disordered proteins

Author

Greta Hultqvist, Emma Åberg, Carlo Camilloni, Gustav N Sundell, Eva Andersson, Jakob Dogan, Celestine N Chi, Michele Vendruscolo, and Per Jemth

Subjects
intrinsically disordered proteins, Evolution, Protein-protein interaction, Affinity, phylogenetic reconstruction, molecular dynamics, Medicine, Science, Biology (General), QH301-705.5
Abstract

Protein-protein interactions involving intrinsically disordered proteins are important for cellular function and common in all organisms. However, it is not clear how such interactions emerge and evolve on a molecular level. We performed phylogenetic reconstruction, resurrection and biophysical characterization of two interacting disordered protein domains, CID and NCBD. CID appeared after the divergence of protostomes and deuterostomes 450–600 million years ago, while NCBD was present in the protostome/deuterostome ancestor. The most ancient CID/NCBD formed a relatively weak complex (Kd∼5 µM). At the time of the first vertebrate-specific whole genome duplication, the affinity had increased (Kd∼200 nM) and was maintained in further speciation. Experiments together with molecular modeling using NMR chemical shifts suggest that new interactions involving intrinsically disordered proteins may evolve via a low-affinity complex which is optimized by modulating direct interactions as well as dynamics, while tolerating several potentially disruptive mutations.

Published
2017
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30. Author Correction: Targeted NUDT5 inhibitors block hormone signaling in breast cancer cells

Author

Brent D. G. Page, Nicholas C. K. Valerie, Roni H. G. Wright, Olov Wallner, Rebecka Isaksson, Megan Carter, Sean G. Rudd, Olga Loseva, Ann-Sofie Jemth, Ingrid Almlöf, Jofre Font-Mateu, Sabin Llona-Minguez, Pawel Baranczewski, Fredrik Jeppsson, Evert Homan, Helena Almqvist, Hanna Axelsson, Shruti Regmi, Anna-Lena Gustavsson, Thomas Lundbäck, Martin Scobie, Kia Strömberg, Pål Stenmark, Miguel Beato, and Thomas Helleday

Subjects
Science
Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published
2019
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32. Deconvoluting Protein (Un)folding Structural Ensembles Using X-Ray Scattering, Nuclear Magnetic Resonance Spectroscopy and Molecular Dynamics Simulation.

Author

Alexandr Nasedkin, Moreno Marcellini, Tomasz L Religa, Stefan M Freund, Andreas Menzel, Alan R Fersht, Per Jemth, David van der Spoel, and Jan Davidsson

Subjects
Medicine, Science
Abstract

The folding and unfolding of protein domains is an apparently cooperative process, but transient intermediates have been detected in some cases. Such (un)folding intermediates are challenging to investigate structurally as they are typically not long-lived and their role in the (un)folding reaction has often been questioned. One of the most well studied (un)folding pathways is that of Drosophila melanogaster Engrailed homeodomain (EnHD): this 61-residue protein forms a three helix bundle in the native state and folds via a helical intermediate. Here we used molecular dynamics simulations to derive sample conformations of EnHD in the native, intermediate, and unfolded states and selected the relevant structural clusters by comparing to small/wide angle X-ray scattering data at four different temperatures. The results are corroborated using residual dipolar couplings determined by NMR spectroscopy. Our results agree well with the previously proposed (un)folding pathway. However, they also suggest that the fully unfolded state is present at a low fraction throughout the investigated temperature interval, and that the (un)folding intermediate is highly populated at the thermal midpoint in line with the view that this intermediate can be regarded to be the denatured state under physiological conditions. Further, the combination of ensemble structural techniques with MD allows for determination of structures and populations of multiple interconverting structures in solution.

Published
2015
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33. Targeting protein-protein interactions with trimeric ligands: high affinity inhibitors of the MAGUK protein family.

Author

Klaus B Nissen, Linda M Haugaard-Kedström, Theis S Wilbek, Line S Nielsen, Emma Åberg, Anders S Kristensen, Anders Bach, Per Jemth, and Kristian Strømgaard

Subjects
Medicine, Science
Abstract

PDZ domains in general, and those of PSD-95 in particular, are emerging as promising drug targets for diseases such as ischemic stroke. We have previously shown that dimeric ligands that simultaneously target PDZ1 and PDZ2 of PSD-95 are highly potent inhibitors of PSD-95. However, PSD-95 and the related MAGUK proteins contain three consecutive PDZ domains, hence we envisioned that targeting all three PDZ domains simultaneously would lead to more potent and potentially more specific interactions with the MAGUK proteins. Here we describe the design, synthesis and characterization of a series of trimeric ligands targeting all three PDZ domains of PSD-95 and the related MAGUK proteins, PSD-93, SAP-97 and SAP-102. Using our dimeric ligands targeting the PDZ1-2 tandem as starting point, we designed novel trimeric ligands by introducing a PDZ3-binding peptide moiety via a cysteine-derivatized NPEG linker. The trimeric ligands generally displayed increased affinities compared to the dimeric ligands in fluorescence polarization binding experiments and optimized trimeric ligands showed low nanomolar inhibition towards the four MAGUK proteins, thus being the most potent inhibitors described. Kinetic experiments using stopped-flow spectrometry showed that the increase in affinity is caused by a decrease in the dissociation rate of the trimeric ligand as compared to the dimeric ligands, likely reflecting the lower probability of simultaneous dissociation of all three PDZ ligands. Thus, we have provided novel inhibitors of the MAGUK proteins with exceptionally high affinity, which can be used to further elucidate the therapeutic potential of these proteins.

Published
2015
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34. The role of backbone hydrogen bonds in the transition state for protein folding of a PDZ domain.

Author

Søren W Pedersen, Greta Hultqvist, Kristian Strømgaard, and Per Jemth

Subjects
Medicine, Science
Abstract

Backbone hydrogen bonds are important for the structure and stability of proteins. However, since conventional site-directed mutagenesis cannot be applied to perturb the backbone, the contribution of these hydrogen bonds in protein folding and stability has been assessed only for a very limited set of small proteins. We have here investigated effects of five amide-to-ester mutations in the backbone of a PDZ domain, a 90-residue globular protein domain, to probe the influence of hydrogen bonds in a β-sheet for folding and stability. The amide-to-ester mutation removes NH-mediated hydrogen bonds and destabilizes hydrogen bonds formed by the carbonyl oxygen. The overall stability of the PDZ domain generally decreased for all amide-to-ester mutants due to an increase in the unfolding rate constant. For this particular region of the PDZ domain, it is therefore clear that native hydrogen bonds are formed after crossing of the rate-limiting barrier for folding. Moreover, three of the five amide-to-ester mutants displayed an increase in the folding rate constant suggesting that the hydrogen bonds are involved in non-native interactions in the transition state for folding.

Published
2014
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37. Tolerance of protein folding to a circular permutation in a PDZ domain.

Author

Greta Hultqvist, Avinash S Punekar, Angela Morrone, Celestine N Chi, Ake Engström, Maria Selmer, Stefano Gianni, and Per Jemth

Subjects
Medicine, Science
Abstract

Circular permutation is a common molecular mechanism for evolution of proteins. However, such re-arrangement of secondary structure connectivity may interfere with the folding mechanism causing accumulation of folding intermediates, which in turn can lead to misfolding. We solved the crystal structure and investigated the folding pathway of a circularly permuted variant of a PDZ domain, SAP97 PDZ2. Our data illustrate how well circular permutation may work as a mechanism for molecular evolution. The circular permutant retains the overall structure and function of the native protein domain. Further, unlike most examples in the literature, this circular permutant displays a folding mechanism that is virtually identical to that of the wild type. This observation contrasts with previous data on the circularly permuted PDZ2 domain from PTP-BL, for which the folding pathway was remarkably affected by the same mutation in sequence connectivity. The different effects of this circular permutation in two homologous proteins show the strong influence of sequence as compared to topology. Circular permutation, when peripheral to the major folding nucleus, may have little effect on folding pathways and could explain why, despite the dramatic change in primary structure, it is frequently tolerated by different protein folds.

Published
2012
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43. Piperazin-1-ylpyridazine Derivatives Are a Novel Class of Human dCTP Pyrophosphatase 1 Inhibitors.

Author

Llona-Minguez, Sabin, Höglund, Andreas, Ghassemian, Artin, Desroses, Matthieu, Calderón-Montaño, José Manuel, Burgos Morón, Estefanía, Valerie, Nicholas C. K., Wiita, Elisee, Almlöf, Ingrid, Koolmeister, Tobias, Mateus, André, Cazares-Körner, Cindy, Sanjiv, Kumar, Homan, Evert, Loseva, Olga, Baranczewski, Pawel, Darabi, Masoud, Mehdizadeh, Amir, Fayezi, Shabnam, and Ann-Sofie Jemth

Published
2017
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44. Identification of Triazolothiadiazoles as Potent Inhibitors of the dCTP Pyrophosphatase 1.

Author

Llona-Minguez, Sabin, Höglund, Andreas, Wiita, Elisee, Almlöf, Ingrid, Mateus, André, Calderón-Montaño, José Manuel, Cazares-Körner, Cindy, Homan, Evert, Loseva, Olga, Baranczewski, Pawel, Jemth, Ann-Sofie, Häggblad, Maria, Martens, Ulf, Lundgren, Bo, Artursson, Per, Lundbäck, Thomas, Jenmalm Jensen, Annika, Warpman Berglund, Ulrika, Scobie, Martin, and Helleday, Thomas

Published
2017
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