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3. Molecular basis for different substrate‐binding sites and chaperone functions of the BRICHOS domain

Author

Chen, Gefei, primary, Wang, Yu, additional, Zheng, Zihan, additional, Jiang, Wangshu, additional, Leppert, Axel, additional, Zhong, Xueying, additional, Belorusova, Anna, additional, Siegal, Gregg, additional, Jegerschöld, Caroline, additional, Koeck, Philip J. B., additional, Abelein, Axel, additional, Hebert, Hans, additional, Knight, Stefan D., additional, and Johansson, Jan, additional

Published
2024
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4. Increased CSF-decorin predicts brain pathological changes driven by Alzheimer’s Aβ amyloidosis

Author

Jiang, Richeng, Smailovic, Una, Haytural, Hazal, Tijms, Betty M., Li, Hao, Haret, Robert Mihai, Shevchenko, Ganna, Chen, Gefei, Abelein, Axel, Gobom, Johan, Frykman, Susanne, Sekiguchi, Misaki, Fujioka, Ryo, Watamura, Naoto, Sasaguri, Hiroki, Nyström, Sofie, Hammarström, Per, Saido, Takaomi C., Jelic, Vesna, Syvänen, Stina, Zetterberg, Henrik, Winblad, Bengt, Bergquist, Jonas, Visser, Pieter Jelle, and Nilsson, Per

Published
2022
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5. 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
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7. Specific inhibition of α‐synuclein oligomer generation and toxicity by the chaperone domain Bri2 BRICHOS.

Author

Adam, Laurène, Kumar, Rakesh, Arroyo‐Garcia, Luis Enrique, Molenkamp, Willem Hendrik, Nowak, Jan Stanislaw, Klute, Hannah, Farzadfard, Azad, Alkenayeh, Rami, Nielsen, Janni, Biverstål, Henrik, Otzen, Daniel E., Johansson, Jan, and Abelein, Axel

Abstract

Protein misfolding and aggregation are involved in several neurodegenerative disorders, such as α‐synuclein (αSyn) implicated in Parkinson's disease, where new therapeutic approaches remain essential to combat these devastating diseases. Elucidating the microscopic nucleation mechanisms has opened new opportunities to develop therapeutics against toxic mechanisms and species. Here, we show that naturally occurring molecular chaperones, represented by the anti‐amyloid Bri2 BRICHOS domain, can be used to target αSyn‐associated nucleation processes and structural species related to neurotoxicity. Our findings revealed that BRICHOS predominantly suppresses the formation of new nucleation units on the fibrils surface (secondary nucleation), decreasing the oligomer generation rate. Further, BRICHOS directly binds to oligomeric αSyn species and effectively diminishes αSyn fibril‐related toxicity. Hence, our studies show that molecular chaperones can be utilized as tools to target molecular processes and structural species related to αSyn neurotoxicity and have the potential as protein‐based treatments against neurodegenerative disorders. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Specific inhibition of α-synuclein oligomer generation and toxicity by the chaperone domain Bri2 BRICHOS

Author

Adam, Laurène, primary, Kumar, Rakesh, additional, Arroyo-Garcia, Luis Enrique, additional, Molenkamp, Willem Hendrik, additional, Nowak, Jan Stanislaw, additional, Klute, Hannah, additional, Farzadfard, Azad, additional, Alkenayeh, Rami, additional, Nielsen, Janni, additional, Biverstål, Henrik, additional, Otzen, Daniel E., additional, Johansson, Jan, additional, and Abelein, Axel, additional

Published
2023
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24. A “spindle and thread” mechanism unblocks p53 translation by modulating N-terminal disorder

Author

Kaldmäe, Margit, Vosselman, Thibault, Zhong, Xueying, Lama, Dilraj, Chen, Gefei, Saluri, Mihkel, Kronqvist, Nina, Siau, Jia Wei, Ng, Aik Seng, Ghadessy, Farid J., Sabatier, Pierre, Vojtesek, Borivoj, Sarr, Médoune, Sahin, Cagla, Österlund, Nicklas, Ilag, Leopold L., Väänänen, Venla A., Sedimbi, Saikiran, Arsenian-Henriksson, Marie, Zubarev, Roman A., Nilsson, Lennart, Koeck, Philip J. B., Rising, Anna, Abelein, Axel, Fritz, Nicolas, Johansson, Jan, Lane, David P., Landreh, Michael, Kaldmäe, Margit, Vosselman, Thibault, Zhong, Xueying, Lama, Dilraj, Chen, Gefei, Saluri, Mihkel, Kronqvist, Nina, Siau, Jia Wei, Ng, Aik Seng, Ghadessy, Farid J., Sabatier, Pierre, Vojtesek, Borivoj, Sarr, Médoune, Sahin, Cagla, Österlund, Nicklas, Ilag, Leopold L., Väänänen, Venla A., Sedimbi, Saikiran, Arsenian-Henriksson, Marie, Zubarev, Roman A., Nilsson, Lennart, Koeck, Philip J. B., Rising, Anna, Abelein, Axel, Fritz, Nicolas, Johansson, Jan, Lane, David P., and Landreh, Michael

Abstract

Disordered proteins pose a major challenge to structural biology. A prominent example is the tumor suppressor p53, whose low expression levels and poor conformational stability hamper the development of cancer therapeutics. All these characteristics make it a prime example of “life on the edge of solubility.” Here, we investigate whether these features can be modulated by fusing the protein to a highly soluble spider silk domain (NT∗). The chimeric protein displays highly efficient translation and is fully active in human cancer cells. Biophysical characterization reveals a compact conformation, with the disordered transactivation domain of p53 wrapped around the NT∗ domain. We conclude that interactions with NT∗ help to unblock translation of the proline-rich disordered region of p53. Expression of partially disordered cancer targets is similarly enhanced by NT∗. In summary, we demonstrate that inducing co-translational folding via a molecular “spindle and thread” mechanism unblocks protein translation in vitro.

Published
2022
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25. Increased CSF-decorin predicts brain pathological changes driven by Alzheimer's A beta amyloidosis

Author

Jiang, Richeng, Smailovic, Una, Haytural, Hazal, Tijms, Betty M., Li, Hao, Haret, Robert Mihai, Shevchenko, Ganna, Chen, Gefei, Abelein, Axel, Gobom, Johan, Frykman, Susanne, Sekiguchi, Misaki, Fujioka, Ryo, Watamura, Naoto, Sasaguri, Hiroki, Nyström, Sofie, Hammarström, Per, Saido, Takaomi C., Jelic, Vesna, Syvänen, Stina, Zetterberg, Henrik, Winblad, Bengt, Bergquist, Jonas, Visser, Pieter Jelle, Nilsson, Per, Jiang, Richeng, Smailovic, Una, Haytural, Hazal, Tijms, Betty M., Li, Hao, Haret, Robert Mihai, Shevchenko, Ganna, Chen, Gefei, Abelein, Axel, Gobom, Johan, Frykman, Susanne, Sekiguchi, Misaki, Fujioka, Ryo, Watamura, Naoto, Sasaguri, Hiroki, Nyström, Sofie, Hammarström, Per, Saido, Takaomi C., Jelic, Vesna, Syvänen, Stina, Zetterberg, Henrik, Winblad, Bengt, Bergquist, Jonas, Visser, Pieter Jelle, and Nilsson, Per

Abstract

Cerebrospinal fluid (CSF) biomarkers play an important role in diagnosing Alzheimer's disease (AD) which is characterized by amyloid-beta (A beta) amyloidosis. Here, we used two App knock-in mouse models, App(NL-F/NL-F) and App(NL-G-F/NL-G-F), exhibiting AD-like A beta pathology to analyze how the brain pathologies translate to CSF proteomes by label-free mass spectrometry (MS). This identified several extracellular matrix (ECM) proteins as significantly altered in App knock-in mice. Next, we compared mouse CSF proteomes with previously reported human CSF MS results acquired from patients across the AD spectrum. Intriguingly, the ECM protein decorin was similarly and significantly increased in both App(NL-F/NL-F) and App(NL-G-F/NL-G-F) mice, strikingly already at three months of age in the App(NL-F/NL-F) mice and preclinical AD subjects having abnormal CSF-A beta 42 but normal cognition. Notably, in this group of subjects, CSF-decorin levels positively correlated with CSF-A beta 42 levels indicating that the change in CSF-decorin is associated with early A beta amyloidosis. Importantly, receiver operating characteristic analysis revealed that CSF-decorin can predict a specific AD subtype having innate immune activation and potential choroid plexus dysfunction in the brain. Consistently, in App(NL-F/NL-F) mice, increased CSF-decorin correlated with both AP plaque load and with decorin levels in choroid plexus. In addition, a low concentration of human A beta 42 induces decorin secretion from mouse primary neurons. Interestingly, we finally identify decorin to activate neuronal autophagy through enhancing lysosomal function. Altogether, the increased CSF-decorin levels occurring at an early stage of A beta amyloidosis in the brain may reflect pathological changes in choroid plexus, present in a subtype of AD subjects.

Published
2022
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28. A “spindle and thread” mechanism unblocks p53 translation by modulating N-terminal disorder

Author

Kaldmäe, Margit, primary, Vosselman, Thibault, additional, Zhong, Xueying, additional, Lama, Dilraj, additional, Chen, Gefei, additional, Saluri, Mihkel, additional, Kronqvist, Nina, additional, Siau, Jia Wei, additional, Ng, Aik Seng, additional, Ghadessy, Farid J., additional, Sabatier, Pierre, additional, Vojtesek, Borivoj, additional, Sarr, Médoune, additional, Sahin, Cagla, additional, Österlund, Nicklas, additional, Ilag, Leopold L., additional, Väänänen, Venla A., additional, Sedimbi, Saikiran, additional, Arsenian-Henriksson, Marie, additional, Zubarev, Roman A., additional, Nilsson, Lennart, additional, Koeck, Philip J.B., additional, Rising, Anna, additional, Abelein, Axel, additional, Fritz, Nicolas, additional, Johansson, Jan, additional, Lane, David P., additional, and Landreh, Michael, additional

Published
2022
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29. Additional file 4 of Increased CSF-decorin predicts brain pathological changes driven by Alzheimer’s Aβ amyloidosis

Author

Jiang, Richeng, Smailovic, Una, Haytural, Hazal, Tijms, Betty M., Li, Hao, Haret, Robert Mihai, Shevchenko, Ganna, Chen, Gefei, Abelein, Axel, Gobom, Johan, Frykman, Susanne, Sekiguchi, Misaki, Fujioka, Ryo, Watamura, Naoto, Sasaguri, Hiroki, Nyström, Sofie, Hammarström, Per, Saido, Takaomi C., Jelic, Vesna, Syvänen, Stina, Zetterberg, Henrik, Winblad, Bengt, Bergquist, Jonas, Visser, Pieter Jelle, and Nilsson, Per

Abstract

Additional file 4: Fig. S1. Comparison of the CSF proteomes of the two App knock-in models reveals alterations in ECM proteins. a Volcano plots displaying the changes in protein levels in CSF from AppNL-F/NL-F vs AppNL-G-F/NL-G-F mice. Dash line: p = 0.05. b Heatmap of significantly (p < 0.05) altered proteins in AppNL-F/NL-F mice as compared to AppNL-G-F/NL-G-F mice. Proteins were sorted into upregulated and downregulated proteins in the AppNL-G-F/NL-G-F mice and by significance from highest to lowest (top to bottom).

Published
2022
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30. Additional file 11 of Increased CSF-decorin predicts brain pathological changes driven by Alzheimer’s Aβ amyloidosis

Author

Jiang, Richeng, Smailovic, Una, Haytural, Hazal, Tijms, Betty M., Li, Hao, Haret, Robert Mihai, Shevchenko, Ganna, Chen, Gefei, Abelein, Axel, Gobom, Johan, Frykman, Susanne, Sekiguchi, Misaki, Fujioka, Ryo, Watamura, Naoto, Sasaguri, Hiroki, Nyström, Sofie, Hammarström, Per, Saido, Takaomi C., Jelic, Vesna, Syvänen, Stina, Zetterberg, Henrik, Winblad, Bengt, Bergquist, Jonas, Visser, Pieter Jelle, and Nilsson, Per

Abstract

Additional file 11: Fig. S4. CSF-decorin levels correlates with Aβ pathology in the brains of AppNL-F/NL-F mice. a Spearman’s correlation analysis of parameters related to Aβ plaque load and decorin levels between 12 months old AppNL-F/NL-F and Appwt/wt mice, b AppNL-G-F/NL-G-F and Appwt/wt mice. The corresponding figures for each parameter are denoted. The correlation coefficients are displayed (*p < 0.05, **p < 0.01, ***p < 0.001). The red color represents positive correlation, and the green color represents negative correlation according to the scale bars in the right column.

Published
2022
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31. Additional file 6 of Increased CSF-decorin predicts brain pathological changes driven by Alzheimer’s Aβ amyloidosis

Author

Jiang, Richeng, Smailovic, Una, Haytural, Hazal, Tijms, Betty M., Li, Hao, Haret, Robert Mihai, Shevchenko, Ganna, Chen, Gefei, Abelein, Axel, Gobom, Johan, Frykman, Susanne, Sekiguchi, Misaki, Fujioka, Ryo, Watamura, Naoto, Sasaguri, Hiroki, Nyström, Sofie, Hammarström, Per, Saido, Takaomi C., Jelic, Vesna, Syvänen, Stina, Zetterberg, Henrik, Winblad, Bengt, Bergquist, Jonas, Visser, Pieter Jelle, and Nilsson, Per

Abstract

Additional file 6: Table S5. Description of the participants in EMIF-AD MBD cohort.

Published
2022
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32. Additional file 3 of Increased CSF-decorin predicts brain pathological changes driven by Alzheimer’s Aβ amyloidosis

Author

Jiang, Richeng, Smailovic, Una, Haytural, Hazal, Tijms, Betty M., Li, Hao, Haret, Robert Mihai, Shevchenko, Ganna, Chen, Gefei, Abelein, Axel, Gobom, Johan, Frykman, Susanne, Sekiguchi, Misaki, Fujioka, Ryo, Watamura, Naoto, Sasaguri, Hiroki, Nyström, Sofie, Hammarström, Per, Saido, Takaomi C., Jelic, Vesna, Syvänen, Stina, Zetterberg, Henrik, Winblad, Bengt, Bergquist, Jonas, Visser, Pieter Jelle, and Nilsson, Per

Subjects
food and beverages
Abstract

Additional file 3: Table S3. Significantly altered ECM associated proteins in mouse CSF identified by MS and PEA.

Published
2022
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33. Additional file 9 of Increased CSF-decorin predicts brain pathological changes driven by Alzheimer’s Aβ amyloidosis

Author

Jiang, Richeng, Smailovic, Una, Haytural, Hazal, Tijms, Betty M., Li, Hao, Haret, Robert Mihai, Shevchenko, Ganna, Chen, Gefei, Abelein, Axel, Gobom, Johan, Frykman, Susanne, Sekiguchi, Misaki, Fujioka, Ryo, Watamura, Naoto, Sasaguri, Hiroki, Nyström, Sofie, Hammarström, Per, Saido, Takaomi C., Jelic, Vesna, Syvänen, Stina, Zetterberg, Henrik, Winblad, Bengt, Bergquist, Jonas, Visser, Pieter Jelle, and Nilsson, Per

Subjects
mental disorders, otorhinolaryngologic diseases
Abstract

Additional file 9: Fig. S2. CSF-decorin negatively correlates with CSF-t-tau and CSF-p-tau in the whole EMIF-AD MBD cohort. a Correlations of CSF-DCN and CSF-Aβ42, b CSF-DCN and CSF-t-tau, c CSF-DCN and CSF-p-tau in the whole EMIF-AD MBD cohort (n = 310), including NC (n = 139), MCI (n = 92) and AD (n = 79) were analyzed. The regression coefficients (Beta) and p-values are displayed. DCN decorin.

Published
2022
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34. Abilities of the BRICHOS domain to prevent neurotoxicity and fibril formation are dependent on a highly conserved Asp residue

Author

Chen, Gefei, primary, Andrade-Talavera, Yuniesky, additional, Zhong, Xueying, additional, Hassan, Sameer, additional, Biverstål, Henrik, additional, Poska, Helen, additional, Abelein, Axel, additional, Leppert, Axel, additional, Kronqvist, Nina, additional, Rising, Anna, additional, Hebert, Hans, additional, Koeck, Philip J. B., additional, Fisahn, André, additional, and Johansson, Jan, additional

Published
2022
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35. Molecular chaperone ability to inhibit amyloid-derived neurotoxicity, but not amorphous protein aggregation, depends on a conserved pH-sensitive Asp residue

Author

Chen, Gefei, primary, Andrade-Talavera, Yuniesky, additional, Zhong, Xueying, additional, Hassan, Sameer, additional, Biverstal, Henrik, additional, Poska, Helen, additional, Abelein, Axel, additional, Leppert, Axel, additional, Kronqvist, Nina, additional, Rising, Anna, additional, Hebert, Hans, additional, Koeck, Philip J.B., additional, Fisahn, André, additional, and Johansson, Jan, additional

Published
2021
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36. Decorin is an early CSF biomarker of Alzheimer’s Aβ amyloidosis

Author

Jiang, Richeng, primary, Smailovic, Una, additional, Haytural, Hazal, additional, Haret, Robert Mihai, additional, Shevchenko, Ganna, additional, Tijms, Betty, additional, Gobom, Johan, additional, Abelein, Axel, additional, Johansson, Jan, additional, Zetterberg, Henrik, additional, Winblad, Bengt, additional, Frykman, Susanne, additional, Jelic, Vesna, additional, Bergquist, Jonas, additional, Visser, Pieter Jelle, additional, and Nilsson, Per, additional

Published
2021
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38. Amyloid inhibition by molecular chaperones in vitrocan be translated to Alzheimer's pathology in vivo

Author

Abelein, Axel and Johansson, Jan

Abstract

Molecular chaperones are important components in the cellular quality-control machinery and increasing evidence points to potential new roles for them as suppressors of amyloid formation in neurodegenerative diseases, such as Alzheimer's disease. Approaches to treat Alzheimer's disease have not yet resulted in an effective treatment, suggesting that alternative strategies may be useful. Here, we discuss new treatment approaches based on molecular chaperones that inhibit amyloid-β (Aβ) aggregation by different microscopic mechanisms of action. Molecular chaperones that specifically target secondary nucleation reactions during Aβ aggregation in vitro– a process closely associated with Aβ oligomer generation – have shown promising results in animal treatment studies. The inhibition of Aβ oligomer generation in vitroseemingly correlates with the effects of treatment, giving indirect clues about the molecular mechanisms present in vivo. Interestingly, recent immunotherapy advances, which have demonstrated significant improvements in clinical phase III trials, have used antibodies that selectively act against Aβ oligomer formation, supporting the notion that specific inhibition of Aβ neurotoxicity is more rewarding than reducing overall amyloid fibril formation. Hence, specific modulation of chaperone activity represents a promising new strategy for treatment of neurodegenerative disorders.

Published
2023
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39. High yield production of amyloid-ß 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 Biverstal, Henrik

Subjects
Biochemistry and Molecular Biology
Abstract

During storage in the silk gland, the N-terminal domain (NT) of spider silk proteins (spidroins) keeps the aggregation-prone repetitive region in solution at extreme concentrations. We observe that NTs from different spidroins have co-evolved with their respective repeat region, and now use an NT that is distantly related to previously used NTs, for efcient recombinant production of the amyloid-β peptide (Aβ) implicated in Alzheimer’s disease. A designed variant of NT from Nephila clavipes fagelliform spidroin, which in nature allows production and storage of β-hairpin repeat segments, gives exceptionally high yields of diferent human Aβ variants as a solubility tag. This tool enables efficient production of target peptides also in minimal medium and gives up to 10 times more isotope-labeled monomeric Aβ peptides per liter bacterial culture than previously reported.

Published
2020

41. A 'Spindle and Thread'-Mechanism Unblocks p53 Translation by Modulating N-Terminal Disorder

Author

Kaldmäe, Margit, primary, Vosselman, Thibault, additional, Zhong, Xueying, additional, Lama, Dilraj, additional, Chen, Gefei, additional, Saluri, Mihkel, additional, Kronqvist, Nina, additional, Wei Sau, Jia, additional, Seng Ng, Aik, additional, Ghadessy, Farid, additional, Sabatier, Pierre, additional, Vojtesek, Borivoj, additional, Sarr, Medoune, additional, Sahin, Cagla, additional, Österlund, Nicklas, additional, Ilag, Leopold, additional, Väänänen, Venla, additional, Sedimbi, Saikiran, additional, Arsenain-Henriksson, Marie, additional, Zubarev, Roman, additional, Nilsson, Lennart, additional, Koeck, Philip, additional, Rising, Anna, additional, Abelein, Axel, additional, Fritz, Nicolas, additional, johansson, Jan, additional, Lane, David P., additional, and Landreh, Michael, additional

Published
2021
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42. High intracellular stability of the spidroin N‐terminal domain in spite of abundant amyloidogenic segments revealed by in‐cell hydrogen/deuterium exchange mass spectrometry

Author

Kaldmäe, Margit, primary, Leppert, Axel, additional, Chen, Gefei, additional, Sarr, Medoune, additional, Sahin, Cagla, additional, Nordling, Kerstin, additional, Kronqvist, Nina, additional, Gonzalvo‐Ulla, Marta, additional, Fritz, Nicolas, additional, Abelein, Axel, additional, Laίn, Sonia, additional, Biverstål, Henrik, additional, Jörnvall, Hans, additional, Lane, David P., additional, Rising, Anna, additional, Johansson, Jan, additional, and Landreh, Michael, additional

Published
2019
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44. High intracellular stability of the spidroin N‐terminal domain in spite of abundant amyloidogenic segments revealed by in‐cell hydrogen/deuterium exchange mass spectrometry.

Author

Kaldmäe, Margit, Leppert, Axel, Chen, Gefei, Sarr, Medoune, Sahin, Cagla, Nordling, Kerstin, Kronqvist, Nina, Gonzalvo‐Ulla, Marta, Fritz, Nicolas, Abelein, Axel, Laίn, Sonia, Biverstål, Henrik, Jörnvall, Hans, Lane, David P., Rising, Anna, Johansson, Jan, and Landreh, Michael

Subjects
MASS spectrometry, SPIDER silk, DEUTERIUM, HYDROGEN, CELLULAR inclusions, EXCHANGE
Abstract

Proteins require an optimal balance of conformational flexibility and stability in their native environment to ensure their biological functions. A striking example is spidroins, spider silk proteins, which are stored at extremely high concentrations in soluble form, yet undergo amyloid‐like aggregation during spinning. Here, we elucidate the stability of the highly soluble N‐terminal domain (NT) of major ampullate spidroin 1 in the Escherichia coli cytosol as well as in inclusion bodies containing fibrillar aggregates. Surprisingly, we find that NT, despite being largely composed of amyloidogenic sequences, showed no signs of concentration‐dependent aggregation. Using a novel intracellular hydrogen/deuterium exchange mass spectrometry (HDX‐MS) approach, we reveal that NT adopts a tight fold in the E. coli cytosol and in this manner conceals its aggregation‐prone regions by maintaining a tight fold under crowded conditions. Fusion of NT to the unstructured amyloid‐forming Aβ40 peptide, on the other hand, results in the formation of fibrillar aggregates. However, HDX‐MS indicates that the NT domain is only partially incorporated into these aggregates in vivo. We conclude that NT is able to control its aggregation to remain functional under the extreme conditions in the spider silk gland. [ABSTRACT FROM AUTHOR]

Published
2020
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45. Bri2 BRICHOS client specificity and chaperone activity are governed by assembly state

Author

Chen, Gefei, primary, Abelein, Axel, additional, Nilsson, Harriet E., additional, Leppert, Axel, additional, Andrade-Talavera, Yuniesky, additional, Tambaro, Simone, additional, Hemmingsson, Lovisa, additional, Roshan, Firoz, additional, Landreh, Michael, additional, Biverstål, Henrik, additional, Koeck, Philip J. B., additional, Presto, Jenny, additional, Hebert, Hans, additional, Fisahn, André, additional, and Johansson, Jan, additional

Published
2017
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46. Bri2 BRICHOS client specificity and chaperone activity are governed by assembly state

Author

Chen, Gefei, Abelein, Axel, Nilsson, Harriet E., Leppert, Axel, Andrade-Talavera, Yuniesky, Tambaro, Simone, Hemmingsson, Lovisa, Roshan, Firoz, Landreh, Michael, Biverstal, Henrik, Koeck, Philip J. B., Presto, Jenny, Hebert, Hans, Fisahn, Andre, Johansson, Jan, Chen, Gefei, Abelein, Axel, Nilsson, Harriet E., Leppert, Axel, Andrade-Talavera, Yuniesky, Tambaro, Simone, Hemmingsson, Lovisa, Roshan, Firoz, Landreh, Michael, Biverstal, Henrik, Koeck, Philip J. B., Presto, Jenny, Hebert, Hans, Fisahn, Andre, and Johansson, Jan

Abstract

Protein misfolding and aggregation is increasingly being recognized as a cause of disease. In Alzheimer's disease the amyloid-beta peptide (A beta) misfolds into neurotoxic oligomers and assembles into amyloid fibrils. The Bri2 protein associated with Familial British and Danish dementias contains a BRICHOS domain, which reduces A beta fibrillization as well as neurotoxicity in vitro and in a Drosophila model, but also rescues proteins from irreversible nonfibrillar aggregation. How these different activities are mediated is not known. Here we show that Bri2 BRICHOS monomers potently prevent neuronal network toxicity of A beta, while dimers strongly suppress A beta fibril formation. The dimers assemble into high-molecular-weight oligomers with an apparent two-fold symmetry, which are efficient inhibitors of non-fibrillar protein aggregation. These results indicate that Bri2 BRICHOS affects qualitatively different aspects of protein misfolding and toxicity via different quaternary structures, suggesting a means to generate molecular chaperone diversity., QC 20180116

Published
2017
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47. Modulation of Alzheimer's amyloid β peptide self-assembly : Insights into molecular mechanisms of peptide aggregation associated with Alzheimer's disease

Author

Abelein, Axel

Subjects
Biophysics, Biofysik
Abstract

Misfolding of proteins and peptides is closely linked to several neurodegenerative disorders, among them Alzheimer's disease (AD), the most prominent example of brain diseases. The self-assembly of the amyloid β peptide (Aβ) into amyloid fibrils is one histologic hallmark of AD. A detailed knowledge about the underlying mechanism(s) of Aβ aggregation is crucial for advances toward a fundamental understanding of the disease, which may promote the search for and design of efficient therapeutics. The work presented in this thesis deals with modulation of the aggregation process by various compounds, i.e. small organic molecules (e.g. lacmoid and Congo red), surfactants and metal ions. These results provide insight into the molecular mechanism of modulator interactions and interference with Aβ and its aggregation pathways. Applying a combination of kinetic and dynamic studies as well as structural investigations we characterized the molecular interactions between Aβ and aggregation modulators in terms of microscopic rate constants, conformational preferences and thermodynamics. An important conclusion is that these modulators form highly dynamic complexes with Aβ, with life-times on the timescale of milliseconds. Despite the similar exchange dynamics, the effect on peptide aggregation is modulator-specific and fibril formation can be accelerated, retarded or inhibited by their interactions. In summary, Aβ self-assembly is governed by microscopic kinetic and dynamic processes that can be altered by aggregation modulators. Further elucidation of these mechanisms is beneficial for the understanding and therapeutic intervention of amyloid diseases. At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.

Published
2015

48. Characterization of Mn(II) ion binding to the amyloid-beta peptide in Alzheimer's disease

Author

Wallin, Cecilia, Kulkarni, Yashraj S., Abelein, Axel, Jarvet, Jüri, Liao, Qinghua, Strodel, Birgit, Olsson, Lisa, Luo, Jinghui, Abrahams, Jan Pieter, Sholts, Sabrina B., Roos, Per M., Kamerlin, Shina C. L., Gräslund, Astrid, Wärmländer, Sebastian K. T. S., Wallin, Cecilia, Kulkarni, Yashraj S., Abelein, Axel, Jarvet, Jüri, Liao, Qinghua, Strodel, Birgit, Olsson, Lisa, Luo, Jinghui, Abrahams, Jan Pieter, Sholts, Sabrina B., Roos, Per M., Kamerlin, Shina C. L., Gräslund, Astrid, and Wärmländer, Sebastian K. T. S.

Abstract

Growing evidence links neurodegenerative diseases to metal exposure. Aberrant metal ion concentrations have been noted in Alzheimer's disease (AD) brains, yet the role of metals in AD pathogenesis remains unresolved. A major factor in AD pathogenesis is considered to be aggregation of and amyloid formation by amyloid-beta (A beta) peptides. Previous studies have shown that A beta displays specific binding to Cu(II) and Zn(II) ions, and such binding has been shown to modulate A beta aggregation. Here, we use nuclear magnetic resonance (NMR) spectroscopy to show that Mn(II) ions also bind to the N-terminal part of the A beta(1-40) peptide, with a weak binding affinity in the milli- to micromolar range. Circular dichroism (CD) spectroscopy, solid state atomic force microscopy (AFM), fluorescence spectroscopy, and molecular modeling suggest that the weak binding of Mn(II) to A beta may not have a large effect on the peptide's aggregation into amyloid fibrils. However, identification of an additional metal ion displaying A beta binding reveals more complex AD metal chemistry than has been previously considered in the literature.

Published
2016
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49. Ionic Strength Modulation of the Free Energy Landscape of A beta(40) Peptide Fibril Formation

Author

Abelein, Axel, Jarvet, Jüri, Barth, Andreas, Gräslund, Astrid, Danielsson, Jens, Abelein, Axel, Jarvet, Jüri, Barth, Andreas, Gräslund, Astrid, and Danielsson, Jens

Abstract

Protein misfolding and formation of cross-beta structured amyloid fibrils are linked to, many neurodegenerative disorders. Although recently developed,quantitative approaches have started to reveal the molecular nature of self-assembly and fibril formation of proteins and peptides, it is yet unclear how these self-organization events are precisely modulated by microenvironmental factors, which are known to strongly affect the macroscopic aggregation properties. Here, we characterize the explicit effect of ionic strength on the microscopic aggregation rates of amyloid beta peptide (A beta 40) self-association, implicated in Alzheimer's disease. We found that physiological ionic strength accelerates A beta 40 aggregation kinetics by promoting surface-catalyzed secondary nucleation reactions. This promoted catalytic effect can be assigned to shielding of electrostatic repulsion between Monomers on the fibril surface or between the fibril surface itself and monomeric peptides. Furthermore, we observe the formation of two different beta-structured states with =similar but distinct spectroscopic features, which can be assigned to an off-pathway immature state (F-beta*) and a mature stable State (F-beta), where salt favors formation of the F-beta fibril morphology. Addition of salt to preformed F-beta* accelerates transition to F-beta, underlining the dynamic nature of A beta 40 fibrils in solution. On the basis of,these results we suggest a model where salt decreases the free-energy barrier for A beta 40 folding to the F-beta state, favoring the buildup of the mature fibril morphology while omitting competing, energetically less favorable structural states.

Published
2016
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50. Dementia-related Bri2 BRICHOS is a versatile molecular chaperone that efficiently inhibits Aβ42 toxicity in Drosophila

Author

Poska, Helen, primary, Haslbeck, Martin, additional, Kurudenkandy, Firoz Roshan, additional, Hermansson, Erik, additional, Chen, Gefei, additional, Kostallas, George, additional, Abelein, Axel, additional, Biverstål, Henrik, additional, Crux, Sophie, additional, Fisahn, André, additional, Presto, Jenny, additional, and Johansson, Jan, additional

Published
2016
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