Your search keyword '"Landreh, Michael"' showing total 359 results

1. A druggable conformational switch in the c-MYC transactivation domain

Author

Lama, Dilraj, Vosselman, Thibault, Sahin, Cagla, Liaño-Pons, Judit, Cerrato, Carmine P., Nilsson, Lennart, Teilum, Kaare, Lane, David P., Landreh, Michael, and Arsenian Henriksson, Marie

Published

2024

2. Advances in mass spectrometry to unravel the structure and function of protein condensates

Author

Sahin, Cagla, Leppert, Axel, and Landreh, Michael

Published

2023

3. The heat shock protein LarA activates the Lon protease in response to proteotoxic stress

Author

Omnus, Deike J., Fink, Matthias J., Kallazhi, Aswathy, Xandri Zaragoza, Maria, Leppert, Axel, Landreh, Michael, and Jonas, Kristina

Published

2023

4. Establishing mammalian GLUT kinetics and lipid composition influences in a reconstituted-liposome system

Author

Suades, Albert, Qureshi, Aziz, McComas, Sarah E., Coinçon, Mathieu, Rudling, Axel, Chatzikyriakidou, Yurie, Landreh, Michael, Carlsson, Jens, and Drew, David

Published

2023

5. ZP2 cleavage blocks polyspermy by modulating the architecture of the egg coat

Author

Nishio, Shunsuke, Emori, Chihiro, Wiseman, Benjamin, Fahrenkamp, Dirk, Dioguardi, Elisa, Zamora-Caballero, Sara, Bokhove, Marcel, Han, Ling, Stsiapanava, Alena, Algarra, Blanca, Lu, Yonggang, Kodani, Mayo, Bainbridge, Rachel E., Komondor, Kayla M., Carlson, Anne E., Landreh, Michael, de Sanctis, Daniele, Yasumasu, Shigeki, Ikawa, Masahito, and Jovine, Luca

Published

2024

6. Synthetic surfactant with a combined SP-B and SP-C analogue is efficient in rabbit models of adult and neonatal respiratory distress syndrome

Author

Mikolka, Pavol, Kronqvist, Nina, Haegerstrand-Björkman, Marie, Jaudzems, Kristaps, Kosutova, Petra, Kolomaznik, Maros, Saluri, Mihkel, Landreh, Michael, Calkovska, Andrea, Curstedt, Tore, and Johansson, Jan

Published

2023

7. Dual stop codon suppression in mammalian cells with genomically integrated genetic code expansion machinery

Author

Meineke, Birthe, Heimgärtner, Johannes, Caridha, Rozina, Block, Matthias F., Kimler, Kyle J., Pires, Maria F., Landreh, Michael, and Elsässer, Simon J.

Published

2023

8. Engineering cardiolipin binding to an artificial membrane protein

Author

Abramsson, Mia L, primary, Corey, Robin A, additional, Skerle, Jan L, additional, Persson, Louise J, additional, Anden, Olivia, additional, Oluwole, Abraham O, additional, Howard, Rebecca J, additional, Lindahl, Erik, additional, Robinson, Carol V, additional, Strisovsky, Kvido, additional, Marklund, Erik G, additional, Drew, David, additional, Stansfeld, Phillip J, additional, and Landreh, Michael, additional

Published

2024

9. Structure, mechanism and lipid-mediated remodeling of the mammalian Na+/H+ exchanger NHA2

Author

Matsuoka, Rei, Fudim, Roman, Jung, Sukkyeong, Zhang, Chenou, Bazzone, Andre, Chatzikyriakidou, Yurie, Robinson, Carol V., Nomura, Norimichi, Iwata, So, Landreh, Michael, Orellana, Laura, Beckstein, Oliver, and Drew, David

Published

2022

10. Spidroin N-terminal domain forms amyloid-like fibril based hydrogels and provides a protein immobilization platform

Author

Arndt, Tina, Jaudzems, Kristaps, Shilkova, Olga, Francis, Juanita, Johansson, Mathias, Laity, Peter R., Sahin, Cagla, Chatterjee, Urmimala, Kronqvist, Nina, Barajas-Ledesma, Edgar, Kumar, Rakesh, Chen, Gefei, Strömberg, Roger, Abelein, Axel, Langton, Maud, Landreh, Michael, Barth, Andreas, Holland, Chris, Johansson, Jan, and Rising, Anna

Published

2022

11. A suicidal and extensively disordered luciferase with a bright luminescence.

Author

Dijkema, Fenne Marjolein, Escarpizo‐Lorenzana, Marta Iglesia, Nordentoft, Matilde Knapkøien, Rabe, Hanna Christin, Sahin, Cagla, Landreh, Michael, Branca, Rui Mamede, Sørensen, Esben Skipper, Christensen, Brian, Prestel, Andreas, Teilum, Kaare, and Winther, Jakob Rahr

Abstract

Gaussia luciferase (GLuc) is one of the most luminescent luciferases known and is widely used as a reporter in biochemistry and cell biology. During catalysis, GLuc undergoes inactivation by irreversible covalent modification. The mechanism by which GLuc generates luminescence and how it becomes inactivated are however not known. Here, we show that GLuc unlike other enzymes has an extensively disordered structure with a minimal hydrophobic core and no apparent binding pocket for the main substrate, coelenterazine. From an alanine scan, we identified two Arg residues required for light production. These residues separated with an average of about 22 Å and a major structural rearrangement is required if they are to interact with the substrate simultaneously. We furthermore show that in addition to coelenterazine, GLuc also can oxidize furimazine, however, in this case without production of light. Both substrates result in the formation of adducts with the enzyme, which eventually leads to enzyme inactivation. Our results demonstrate that a rigid protein structure and substrate‐binding site are no prerequisites for high enzymatic activity and specificity. In addition to the increased understanding of enzymes in general, the findings will facilitate future improvement of GLuc as a reporter luciferase. [ABSTRACT FROM AUTHOR]

Published

2024

12. Controlling Drug Partitioning in Individual Protein Condensates through Laser-Induced Microscale Phase Transitions.

Author

Leppert, Axel, Feng, Jianhui, Railaite, Vaida, Bohn Pessatti, Tomas, Cerrato, Carmine P., Mörman, Cecilia, Osterholz, Hannah, Lane, David P., Maia, Filipe R. N. C., Linder, Markus B., Rising, Anna, and Landreh, Michael

Published

2024

13. Author Correction: Structure, mechanism and lipid-mediated remodeling of the mammalian Na+/H+ exchanger NHA2

Author

Matsuoka, Rei, Fudim, Roman, Jung, Sukkyeong, Zhang, Chenou, Bazzone, Andre, Chatzikyriakidou, Yurie, Robinson, Carol V., Nomura, Norimichi, Iwata, So, Landreh, Michael, Orellana, Laura, Beckstein, Oliver, and Drew, David

Published

2023

14. Controlling Drug Partitioning in Individual Protein Condensates through Laser-Induced Microscale Phase Transitions

Author

Leppert, Axel, primary, Feng, Jianhui, additional, Railaite, Vaida, additional, Bohn Pessatti, Tomas, additional, Mörman, Cecilia, additional, Os-terholz, Hannah, additional, Maia, Filipe R.N.C., additional, Linder, Markus B., additional, Rising, Anna, additional, and Landreh, Michael, additional

Published

2024

15. Spiders Use Structural Conversion of Globular Amyloidogenic Domains to Make Strong Silk Fibers

Author

Qi, Xingmei, primary, Wang, Han, additional, Wang, Kezhen, additional, Wang, Yu, additional, Leppert, Axel, additional, Iashchishyn, Igor, additional, Zhong, Xueying, additional, Zhou, Yizhong, additional, Liu, Ruifang, additional, Rising, Anna, additional, Landreh, Michael, additional, Johansson, Jan, additional, and Chen, Gefei, additional

Published

2024

16. N-Thio-β-lactams targeting L,D-transpeptidase-2, with activity against drug-resistant strains of Mycobacterium tuberculosis

Author

Martelli, Giulia, Pessatti, Tomas Bohn, Steiner, Eva Maria, Cirillo, Martina, Caso, Carolina, Bisognin, Francesco, Landreh, Michael, Monte, Paola Dal, Giacomini, Daria, and Schnell, Robert

Published

2021

17. The synthesis and characterization of Bri2 BRICHOS coated magnetic particles and their application to protein fishing: Identification of novel binding proteins

Author

Tigro, Helene, Kronqvist, Nina, Abelein, Axel, Galan-Acosta, Lorena, Chen, Gefei, Landreh, Michael, Lyashkov, Alexey, Aon, Miguel A., Ferrucci, Luigi, Shimmo, Ruth, Johansson, Jan, and Moaddel, Ruin

Published

2021

18. Spatial variation and structural characteristics of phycobiliproteins from the red algae Furcellaria lumbricalis and Coccotylus truncatus

Author

Saluri, Mihkel, Kaldmäe, Margit, Rospu, Mihkel, Sirkel, Hannes, Paalme, Tiina, Landreh, Michael, and Tuvikene, Rando

Published

2020

19. Biological activity versus physiological function of proinsulin C-peptide

Author

Landreh, Michael and Jörnvall, Hans

Published

2021

20. A PBX1 transcriptional network controls dopaminergic neuron development and is impaired in Parkinson's disease

Author

Villaescusa, J Carlos, Li, Bingsi, Toledo, Enrique M, di Val Cervo, Pia Rivetti, Yang, Shanzheng, Stott, Simon RW, Kaiser, Karol, Islam, Saiful, Gyllborg, Daniel, Laguna‐Goya, Rocio, Landreh, Michael, Lönnerberg, Peter, Falk, Anna, Bergman, Tomas, Barker, Roger A, Linnarsson, Sten, Selleri, Licia, and Arenas, Ernest

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Neurosciences, Parkinson's Disease, Aging, Neurodegenerative, Brain Disorders, Genetics, Stem Cell Research, 2.1 Biological and endogenous factors, Aetiology, Neurological, Cell Differentiation, DNA-Binding Proteins, Dopaminergic Neurons, Gene Regulatory Networks, Humans, Parkinson Disease, Pre-B-Cell Leukemia Transcription Factor 1, Proto-Oncogene Proteins, Substantia Nigra, ChIP-Seq, dopamine, dopaminergic differentiation, stem cells, mesencephalon, ChIP‐Seq, Information and Computing Sciences, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences

Abstract

Pre-B-cell leukemia homeobox (PBX) transcription factors are known to regulate organogenesis, but their molecular targets and function in midbrain dopaminergic neurons (mDAn) as well as their role in neurodegenerative diseases are unknown. Here, we show that PBX1 controls a novel transcriptional network required for mDAn specification and survival, which is sufficient to generate mDAn from human stem cells. Mechanistically, PBX1 plays a dual role in transcription by directly repressing or activating genes, such as Onecut2 to inhibit lateral fates during embryogenesis, Pitx3 to promote mDAn development, and Nfe2l1 to protect from oxidative stress. Notably, PBX1 and NFE2L1 levels are severely reduced in dopaminergic neurons of the substantia nigra of Parkinson's disease (PD) patients and decreased NFE2L1 levels increases damage by oxidative stress in human midbrain cells. Thus, our results reveal novel roles for PBX1 and its transcriptional network in mDAn development and PD, opening the door for new therapeutic interventions.

Published

2016

21. A suicidal and extensively disordered luciferase with a bright luminescence

Author

Dijkema, Fenne Marjolein, primary, Escarpizo-Lorenzana, Marta Iglesia, additional, Nordentoft, Matilde Knapkøien, additional, Rabe, Hanna Christin, additional, Sahin, Cagla, additional, Landreh, Michael, additional, Branca, Rui Mamede, additional, Sørensen, Esben Skipper, additional, Christensen, Brian Søndergaard, additional, Prestel, Andreas, additional, Teilum, Kaare, additional, and Winther, Jakob Rahr, additional

Published

2023

22. Spider Silk Protein Forms Amyloid‐Like Nanofibrils through a Non‐Nucleation‐Dependent Polymerization Mechanism (Small 46/2023)

Author

Qi, Xingmei, primary, Wang, Yu, additional, Yu, Hairui, additional, Liu, Ruifang, additional, Leppert, Axel, additional, Zheng, Zihan, additional, Zhong, Xueying, additional, Jin, Zhen, additional, Wang, Han, additional, Li, Xiaoli, additional, Wang, Xiuzhe, additional, Landreh, Michael, additional, A. Morozova‐Roche, Ludmilla, additional, Johansson, Jan, additional, Xiong, Sidong, additional, Iashchishyn, Igor, additional, and Chen, Gefei, additional

Published

2023

23. Combining native and ‘omics’ mass spectrometry to identify endogenous ligands bound to membrane proteins

Author

Gault, Joseph, Liko, Idlir, Landreh, Michael, Shutin, Denis, Bolla, Jani Reddy, Jefferies, Damien, Agasid, Mark, Yen, Hsin-Yung, Ladds, Marcus J. G. W., Lane, David P., Khalid, Syma, Mullen, Christopher, Remes, Philip M., Huguet, Romain, McAlister, Graeme, Goodwin, Michael, Viner, Rosa, Syka, John E.P., and Robinson, Carol V.

Published

2020

24. Monitoring Disassembly and Cargo Release of Phase-Separated Peptide Coacervates with Native Mass Spectrometry

Author

Cerrato, Carmine P., primary, Leppert, Axel, additional, Sun, Yue, additional, Lane, David P., additional, Arsenian-Henriksson, Marie, additional, Miserez, Ali, additional, and Landreh, Michael, additional

Published

2023

25. Lipids Shape the Electron Acceptor-Binding Site of the Peripheral Membrane Protein Dihydroorotate Dehydrogenase

Author

Costeira-Paulo, Joana, Gault, Joseph, Popova, Gergana, Ladds, Marcus J.G.W., van Leeuwen, Ingeborg M.M., Sarr, Médoune, Olsson, Anders, Lane, David P., Laín, Sonia, Marklund, Erik G., and Landreh, Michael

Published

2018

26. Gas-Phase Collisions with Trimethylamine-N-Oxide Enable Activation-Controlled Protein Ion Charge Reduction

Author

Kaldmäe, Margit, Österlund, Nicklas, Lianoudaki, Danai, Sahin, Cagla, Bergman, Peter, Nyman, Tomas, Kronqvist, Nina, Ilag, Leopold L., Allison, Timothy M., Marklund, Erik G., and Landreh, Michael

Published

2019

27. High-yield Production of Amyloid-β Peptide Enabled by a Customized Spider Silk Domain

Author

Abelein, Axel, Chen, Gefei, Kitoka, Kristīne, Aleksis, Rihards, Oleskovs, Filips, Sarr, Médoune, Landreh, Michael, Pahnke, Jens, Nordling, Kerstin, Kronqvist, Nina, Jaudzems, Kristaps, Rising, Anna, Johansson, Jan, and Biverstål, Henrik

Published

2020

28. Augmentation of Bri2 molecular chaperone activity against amyloid-β reduces neurotoxicity in mouse hippocampus in vitro

Author

Chen, Gefei, Andrade-Talavera, Yuniesky, Tambaro, Simone, Leppert, Axel, Nilsson, Harriet E., Zhong, Xueying, Landreh, Michael, Nilsson, Per, Hebert, Hans, Biverstål, Henrik, Fisahn, André, Abelein, Axel, and Johansson, Jan

Published

2020

29. Architecture of the vertebrate egg coat and structural basis of the ZP2 block to polyspermy

Author

Nishio, Shunsuke, primary, Emori, Chihiro, additional, Wiseman, Benjamin, additional, Fahrenkamp, Dirk, additional, Dioguardi, Elisa, additional, Zamora-Caballero, Sara, additional, Bokhove, Marcel, additional, Han, Ling, additional, Stsiapanava, Alena, additional, Lu, Yonggang, additional, Kodani, Mayo, additional, Bainbridge, Rachel E., additional, Komondor, Kayla M., additional, Carlson, Anne E., additional, Landreh, Michael, additional, de Sanctis, Daniele, additional, Yasumasu, Shigeki, additional, Ikawa, Masahito, additional, and Jovine, Luca, additional

Published

2023

30. Mass Spectrometry of RNA-Binding Proteins during Liquid–Liquid Phase Separation Reveals Distinct Assembly Mechanisms and Droplet Architectures

Author

Sahin, Cagla, primary, Motso, Aikaterini, additional, Gu, Xinyu, additional, Feyrer, Hannes, additional, Lama, Dilraj, additional, Arndt, Tina, additional, Rising, Anna, additional, Gese, Genis Valentin, additional, Hällberg, B. Martin, additional, Marklund, Erik. G., additional, Schafer, Nicholas P., additional, Petzold, Katja, additional, Teilum, Kaare, additional, Wolynes, Peter G., additional, and Landreh, Michael, additional

Published

2023

31. A new kid in the folding funnel: Molecular chaperone activities of the BRICHOS domain

Author

Leppert, Axel, primary, Poska, Helen, additional, Landreh, Michael, additional, Abelein, Axel, additional, Chen, Gefei, additional, and Johansson, Jan, additional

Published

2023

32. Liquid–Liquid Phase Separation Primes Spider Silk Proteins for Fiber Formation via a Conditional Sticker Domain

Author

Leppert, Axel, primary, Chen, Gefei, additional, Lama, Dilraj, additional, Sahin, Cagla, additional, Railaite, Vaida, additional, Shilkova, Olga, additional, Arndt, Tina, additional, Marklund, Erik G., additional, Lane, David P., additional, Rising, Anna, additional, and Landreh, Michael, additional

Published

2023

33. Studies on citrullinated LL-37: detection in human airways, antibacterial effects and biophysical properties

Author

Al-Adwani, Salma, Wallin, Cecilia, Balhuizen, Melanie D., Veldhuizen, Edwin J. A., Coorens, Maarten, Landreh, Michael, Végvári, Ákos, Smith, Margaretha E., Qvarfordt, Ingemar, Lindén, Anders, Gräslund, Astrid, Agerberth, Birgitta, and Bergman, Peter

Published

2020

34. Ion Mobility in Structural Biology

Author

Allison, Timothy M., primary and Landreh, Michael, additional

Published

2019

35. A “grappling hook” interaction connects self-assembly and chaperone activity of Nucleophosmin 1

Author

Saluri, Mihkel, primary, Leppert, Axel, additional, Gese, Genis Valentin, additional, Sahin, Cagla, additional, Lama, Dilraj, additional, Kaldmäe, Margit, additional, Chen, Gefei, additional, Elofsson, Arne, additional, Allison, Timothy M, additional, Arsenian-Henriksson, Marie, additional, Johansson, Jan, additional, Lane, David P, additional, Hällberg, B Martin, additional, and Landreh, Michael, additional

Published

2023

36. Dual Stop Codon Suppression in Mammalian Cells with Genomically Integrated Genetic Code Expansion Machinery

Author

Meineke, Birthe, primary, Heimgärtner, Johannes, additional, Caridha, Rozina, additional, Block, Matthias F., additional, Kimler, Kyle J., additional, Pires, Maria F., additional, Landreh, Michael, additional, and Elsässer, Simon J., additional

Published

2023

37. Liquid-Liquid Phase Separation Primes Spider Silk Proteins for Fiber Formation via a Conditional Sticker Domain

Author

Leppert, Axel, Chen, Gefei, Lama, Dilraj, Sahin, Cagla, Railaite, Vaida, Marklund, Erik G., Rising, Anna, and Landreh, Michael

Subjects

Biochemistry and Molecular Biology

Abstract

Many protein condensates can convert to fibrillar aggregates, but the underlying mechanisms are unclear. Liquid-liquid phase separation (LLPS) of spider silk proteins, spidroins, suggests a regulatory switch between both states. Here, we combine microscopy and native mass spectrometry to investigate the influence of protein sequence, ions, and regulatory domains on spidroin LLPS. We find that salting out-effects drive LLPS via low-affinity stickers in the repeat domains. Interestingly, conditions that enable LLPS simultaneously cause dissociation of the dimeric C-terminal domain (CTD), priming it for aggregation. Since the CTD enhances LLPS of spidroins but is also required for their conversion into amyloid-like fibers, we expand the stickers and spacers-model of phase separation with the concept of folded domains as conditional stickers that represent regulatory units.

Published

2023

38. An engineered thermal-shift screen reveals specific lipid preferences of eukaryotic and prokaryotic membrane proteins

Author

Nji, Emmanuel, Chatzikyriakidou, Yurie, Landreh, Michael, and Drew, David

Published

2018

39. Establishing mammalian GLUT kinetics and lipid preferences in a reconstituted-liposome system

Author

Saudea, Albert, primary, Qureshi, Aziz, additional, McComas, Sarah, additional, Coinçon, Mathieu, additional, Rudling, Alex, additional, Chatzikyriakidou, Yurie, additional, Landreh, Michael, additional, Carlsson, Jens, additional, and Drew, David, additional

Published

2022

40. Mass Spectrometry and Machine Learning Reveal Determinants of Client Recognition by Antiamyloid Chaperones

Author

Österlund, Nicklas, primary, Vosselman, Thibault, additional, Leppert, Axel, additional, Gräslund, Astrid, additional, Jörnvall, Hans, additional, Ilag, Leopold L., additional, Marklund, Erik G., additional, Elofsson, Arne, additional, Johansson, Jan, additional, Sahin, Cagla, additional, and Landreh, Michael, additional

Published

2022

41. The role of interfacial lipids in stabilizing membrane protein oligomers

Author

Gupta, Kallol, Donlan, Joseph A. C., Hopper, Jonathan T. S., Uzdavinys, Povilas, Landreh, Michael, Struwe, Weston B., Drew, David, Baldwin, Andrew J., Stansfeld, Phillip J., and Robinson, Carol V.

Subjects

Protein binding -- Analysis, Oligomers -- Analysis, Membrane proteins -- Analysis, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): Kallol Gupta [1]; Joseph A. C. Donlan [1]; Jonathan T. S. Hopper [1]; Povilas Uzdavinys [2]; Michael Landreh [1]; Weston B. Struwe [1]; David Drew [2]; Andrew J. Baldwin [...]

Published

2017

42. Peptide Interactions of Proinsulin C-Peptide

Author

Nerelius, Charlotte, Lindahl, Emma, Landreh, Michael, Jörnvall, Hans, and Sima, Anders A.F., editor

Published

2012

43. Mass spectrometry of RNA-binding proteins during liquid-liquid phase separation reveals distinct assembly mechanisms and droplet architectures

Author

Sahin, Cagla, primary, Motso, Aikaterini, additional, Gu, Xinyu, additional, Feyrer, Hannes, additional, Lama, Dilraj, additional, Arndt, Tina, additional, Rising, Anna, additional, Gese, Genis Valentin, additional, Hällberg, Martin, additional, Marklund, Erik. G., additional, Schafer, Nicholas P., additional, Petzold, Katja, additional, Teilum, Kaare, additional, Wolynes, Peter G., additional, and Landreh, Michael, additional

Published

2022

44. A “grappling hook” interaction balances self-assembly and chaperone activity of Nucleophosmin 1

Author

Saluri, Mihkel, primary, Leppert, Axel, additional, Gese, Genis Valentin, additional, Sahin, Cagla, additional, Lama, Dilraj, additional, Kaldmäe, Margit, additional, Chen, Gefei, additional, Elofsson, Arne, additional, Allison, Timothy M., additional, Arsenian-Henriksson, Marie, additional, Johansson, Jan, additional, Lane, David P., additional, Hällberg, B. Martin, additional, and Landreh, Michael, additional

Published

2022

45. ATP ‐independent molecular chaperone activity generated under reducing conditions

Author

Leppert, Axel, primary, Chen, Gefei, additional, Lianoudaki, Danai, additional, Williams, Chloe, additional, Zhong, Xueying, additional, Gilthorpe, Jonathan D., additional, Landreh, Michael, additional, and Johansson, Jan, additional

Published

2022

46. Transthyretin microheterogeneity and molecular interactions: implications for amyloid formation

Author

Landreh Michael, Östberg Linus J., Pettersson Tom M., and Jörnvall Hans

Subjects

amyloid disease, drug design, ligand binding, plasma components, protein dynamics, Biology (General), QH301-705.5

Abstract

Aggregation of transthyretin (TTR), a plasma-binding protein for thyroxine and retinol-binding protein, is the cause of several amyloid diseases. Disease-associated mutations are well known, but wild-type TTR is, to a lesser extent, also amyloidogenic. Monomerization, not oligomer formation as in several other depository diseases, is the rate-limiting step in TTR aggregation, and stabilization of the natively tetrameric form can inhibit amyloid formation. Modifications on Cys10, as well as interactions with native ligands in plasma, were early found to influence the equilibrium between tetrameric and monomeric TTR by dissociating or stabilizing the tetramer. Following these discoveries, synthetic ligands for pharmacological prevention of TTR aggregation could be developed. In this article, we outline how the different types of TTR interactions and its microheterogeneity in plasma are related to its propensity to form amyloid fibrils. We conclude that plasma constituents and dietary components may act as natural TTR stabilizers whose mechanisms of action provide cues for the amelioration of TTR amyloid disease.

Published

2014

47. The structure, molecular interactions and bioactivities of proinsulin C-peptide correlate with a tripartite molecule

Author

Landreh Michael, Johansson Jan, Wahren John, and Jörnvall Hans

Subjects

amyloid formation, diabetes, membrane binding, protein folding, receptor interactions, Biology (General), QH301-705.5

Abstract

Many biological roles have been assigned to proinsulin C-peptide over the years. Some appear surprisingly disparate and sometimes even contradictory, like chaperone-like actions and depository tendencies. This review summarizes recently reported biomolecular interactions of the peptide and presents how they correlate with structural and functional aspects into a partitioned molecular architecture. At the structural level, the C-peptide sequence and fold can be subdivided into three distinct parts (‘tripartite’). At the functional level, its chaperone-like abilities, self-assembly, and membrane interactions, as well as interactions with relevant proteins can be separately ascribed to these three segments. At the biological level, the assignments are compatible with the suggested roles of C-peptide in granular insulin storage, chaperone-like activities on insulin oligomers, possible depository tendencies, and proposed receptor interactions. Finally, the assignments give interesting parallels to further bioactive peptides, including glucagon and neurotensin. Provided pharmaceutical and clinical trials are successfully completed, the present interpretations should supply mechanistic explanations on C-peptide as a bioactive compound of importance in health and diabetes.

Published

2014

48. Structural Basis for Dityrosine-Mediated Inhibition of α-Synuclein Fibrillization

Author

Sahin, Cagla, primary, Østerlund, Eva Christina, additional, Österlund, Nicklas, additional, Costeira-Paulo, Joana, additional, Pedersen, Jannik Nedergaard, additional, Christiansen, Gunna, additional, Nielsen, Janni, additional, Grønnemose, Anne Louise, additional, Amstrup, Søren Kirk, additional, Tiwari, Manish K., additional, Rao, R. Shyama Prasad, additional, Bjerrum, Morten Jannik, additional, Ilag, Leopold L., additional, Davies, Michael J., additional, Marklund, Erik G., additional, Pedersen, Jan Skov, additional, Landreh, Michael, additional, Møller, Ian Max, additional, Jørgensen, Thomas J. D., additional, and Otzen, Daniel Erik, additional

Published

2022

49. Complementing machine learning‐based structure predictions with native mass spectrometry

Author

Allison, Timothy M., primary, Degiacomi, Matteo T., additional, Marklund, Erik G., additional, Jovine, Luca, additional, Elofsson, Arne, additional, Benesch, Justin L. P., additional, and Landreh, Michael, additional

Published

2022

50. The dimerization mechanism of the N-terminal domain of spider silk proteins is conserved despite extensive sequence divergence

Author

Sarr, Médoune, primary, Kitoka, Kristine, additional, Walsh-White, Kellie-Ann, additional, Kaldmäe, Margit, additional, Metlāns, Rimants, additional, Tārs, Kaspar, additional, Mantese, Alessandro, additional, Shah, Dipen, additional, Landreh, Michael, additional, Rising, Anna, additional, Johansson, Jan, additional, Jaudzems, Kristaps, additional, and Kronqvist, Nina, additional

Published

2022