The DNAJB6 and DNAJB8 protein chaperones prevent intracellular aggregation of polyglutamine peptides

J. Gillis; S. Schipper-Krom; K. Juenemann; A. Gruber; S. Coolen; R. van den Nieuwendijk; H. van Veen; H. Overkleeft; J. Goedhart; H.H. Kampinga; E.A. Reits

doi:https://doi.org/10.1074/jbc.M112.421685

The DNAJB6 and DNAJB8 protein chaperones prevent intracellular aggregation of polyglutamine peptides

J. Gillis, S. Schipper-Krom, K. Juenemann, A. Gruber, S. Coolen, R. van den Nieuwendijk, H. van Veen, H. Overkleeft, J. Goedhart, H.H. Kampinga, E.A. Reits

Research output: Contribution to journal › Article › Academic › peer-review

98 Citations (Scopus)

Abstract

Fragments of proteins containing an expanded polyglutamine (polyQ) tract are thought to initiate aggregation and toxicity in at least nine neurodegenerative diseases, including Huntington's disease. Because proteasomes appear unable to digest the polyQ tract, which can initiate intracellular protein aggregation, preventing polyQ peptide aggregation by chaperones should greatly improve polyQ clearance and prevent aggregate formation. Here we expressed polyQ peptides in cells and show that their intracellular aggregation is prevented by DNAJB6 and DNAJB8, members of the DNAJ (Hsp40) chaperone family. In contrast, HSPA/Hsp70 and DNAJB1, also members of the DNAJ chaperone family, did not prevent peptide-initiated aggregation. Intriguingly, DNAJB6 and DNAJB8 also affected the soluble levels of polyQ peptides, indicating that DNAJB6 and DNAJB8 inhibit polyQ peptide aggregation directly. Together with recent data showing that purified DNAJB6 can suppress fibrillation of polyQ peptides far more efficiently than polyQ expanded protein fragments in vitro, we conclude that the mechanism of DNAJB6 and DNAJB8 is suppression of polyQ protein aggregation by directly binding the polyQ tract.

Original language	English
Pages (from-to)	17225-17237
Journal	The Journal of Biological Chemistry
Volume	288
Issue number	24
DOIs	https://doi.org/10.1074/jbc.M112.421685
Publication status	Published - 2013

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https://doi.org/10.1074/jbc.M112.421685

https://pure.uva.nl/ws/files/1985769/151186_The_DNAJB6_and_DNAJB8_protein.pdf

Cite this

Gillis, J., Schipper-Krom, S., Juenemann, K., Gruber, A., Coolen, S., van den Nieuwendijk, R., van Veen, H., Overkleeft, H., Goedhart, J., Kampinga, H. H., & Reits, E. A. (2013). The DNAJB6 and DNAJB8 protein chaperones prevent intracellular aggregation of polyglutamine peptides. The Journal of Biological Chemistry, 288(24), 17225-17237. https://doi.org/10.1074/jbc.M112.421685

@article{38d9ff32e695422e94a75e85b551ece0,

title = "The DNAJB6 and DNAJB8 protein chaperones prevent intracellular aggregation of polyglutamine peptides",

abstract = "Fragments of proteins containing an expanded polyglutamine (polyQ) tract are thought to initiate aggregation and toxicity in at least nine neurodegenerative diseases, including Huntington's disease. Because proteasomes appear unable to digest the polyQ tract, which can initiate intracellular protein aggregation, preventing polyQ peptide aggregation by chaperones should greatly improve polyQ clearance and prevent aggregate formation. Here we expressed polyQ peptides in cells and show that their intracellular aggregation is prevented by DNAJB6 and DNAJB8, members of the DNAJ (Hsp40) chaperone family. In contrast, HSPA/Hsp70 and DNAJB1, also members of the DNAJ chaperone family, did not prevent peptide-initiated aggregation. Intriguingly, DNAJB6 and DNAJB8 also affected the soluble levels of polyQ peptides, indicating that DNAJB6 and DNAJB8 inhibit polyQ peptide aggregation directly. Together with recent data showing that purified DNAJB6 can suppress fibrillation of polyQ peptides far more efficiently than polyQ expanded protein fragments in vitro, we conclude that the mechanism of DNAJB6 and DNAJB8 is suppression of polyQ protein aggregation by directly binding the polyQ tract.",

author = "J. Gillis and S. Schipper-Krom and K. Juenemann and A. Gruber and S. Coolen and {van den Nieuwendijk}, R. and {van Veen}, H. and H. Overkleeft and J. Goedhart and H.H. Kampinga and E.A. Reits",

year = "2013",

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Gillis, J, Schipper-Krom, S, Juenemann, K, Gruber, A, Coolen, S, van den Nieuwendijk, R, van Veen, H, Overkleeft, H, Goedhart, J, Kampinga, HH & Reits, EA 2013, 'The DNAJB6 and DNAJB8 protein chaperones prevent intracellular aggregation of polyglutamine peptides', The Journal of Biological Chemistry, vol. 288, no. 24, pp. 17225-17237. https://doi.org/10.1074/jbc.M112.421685

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T1 - The DNAJB6 and DNAJB8 protein chaperones prevent intracellular aggregation of polyglutamine peptides

AU - Gillis, J.

AU - Schipper-Krom, S.

AU - Juenemann, K.

AU - Gruber, A.

AU - Coolen, S.

AU - van den Nieuwendijk, R.

AU - van Veen, H.

AU - Overkleeft, H.

AU - Goedhart, J.

AU - Kampinga, H.H.

AU - Reits, E.A.

PY - 2013

Y1 - 2013

N2 - Fragments of proteins containing an expanded polyglutamine (polyQ) tract are thought to initiate aggregation and toxicity in at least nine neurodegenerative diseases, including Huntington's disease. Because proteasomes appear unable to digest the polyQ tract, which can initiate intracellular protein aggregation, preventing polyQ peptide aggregation by chaperones should greatly improve polyQ clearance and prevent aggregate formation. Here we expressed polyQ peptides in cells and show that their intracellular aggregation is prevented by DNAJB6 and DNAJB8, members of the DNAJ (Hsp40) chaperone family. In contrast, HSPA/Hsp70 and DNAJB1, also members of the DNAJ chaperone family, did not prevent peptide-initiated aggregation. Intriguingly, DNAJB6 and DNAJB8 also affected the soluble levels of polyQ peptides, indicating that DNAJB6 and DNAJB8 inhibit polyQ peptide aggregation directly. Together with recent data showing that purified DNAJB6 can suppress fibrillation of polyQ peptides far more efficiently than polyQ expanded protein fragments in vitro, we conclude that the mechanism of DNAJB6 and DNAJB8 is suppression of polyQ protein aggregation by directly binding the polyQ tract.

AB - Fragments of proteins containing an expanded polyglutamine (polyQ) tract are thought to initiate aggregation and toxicity in at least nine neurodegenerative diseases, including Huntington's disease. Because proteasomes appear unable to digest the polyQ tract, which can initiate intracellular protein aggregation, preventing polyQ peptide aggregation by chaperones should greatly improve polyQ clearance and prevent aggregate formation. Here we expressed polyQ peptides in cells and show that their intracellular aggregation is prevented by DNAJB6 and DNAJB8, members of the DNAJ (Hsp40) chaperone family. In contrast, HSPA/Hsp70 and DNAJB1, also members of the DNAJ chaperone family, did not prevent peptide-initiated aggregation. Intriguingly, DNAJB6 and DNAJB8 also affected the soluble levels of polyQ peptides, indicating that DNAJB6 and DNAJB8 inhibit polyQ peptide aggregation directly. Together with recent data showing that purified DNAJB6 can suppress fibrillation of polyQ peptides far more efficiently than polyQ expanded protein fragments in vitro, we conclude that the mechanism of DNAJB6 and DNAJB8 is suppression of polyQ protein aggregation by directly binding the polyQ tract.

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DO - https://doi.org/10.1074/jbc.M112.421685

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