The S/T-Rich Motif in the DNAJB6 Chaperone Delays Polyglutamine Aggregation and the Onset of Disease in a Mouse Model

Vaishali Kakkar; Cecilia Månsson; Eduardo P. de Mattos; Steven Bergink; Marianne van der Zwaag; Maria A.W.H. van Waarde; Niels J. Kloosterhuis; Ronald Melki; Remco T.P. van Cruchten; Salam Al-Karadaghi; Paolo Arosio; Christopher M. Dobson; Tuomas P.J. Knowles; Gillian P. Bates; Jan M. van Deursen; Sara Linse; Bart van de Sluis; Cecilia Emanuelsson; Harm H. Kampinga

doi:10.1016/j.molcel.2016.03.017

The S/T-Rich Motif in the DNAJB6 Chaperone Delays Polyglutamine Aggregation and the Onset of Disease in a Mouse Model

Vaishali Kakkar, Cecilia Månsson, Eduardo P. de Mattos, Steven Bergink, Marianne van der Zwaag, Maria A.W.H. van Waarde, Niels J. Kloosterhuis, Ronald Melki, Remco T.P. van Cruchten, Salam Al-Karadaghi, Paolo Arosio, Christopher M. Dobson, Tuomas P.J. Knowles, Gillian P. Bates, Jan M. van Deursen, Sara Linse, Bart van de Sluis, Cecilia Emanuelsson, Harm H. Kampinga

Pediatric and Adolescent Medicine

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

67 Scopus citations

Abstract

Expanded CAG repeats lead to debilitating neurodegenerative disorders characterized by aggregation of proteins with expanded polyglutamine (polyQ) tracts. The mechanism of aggregation involves primary and secondary nucleation steps. We show how a noncanonical member of the DNAJ-chaperone family, DNAJB6, inhibits the conversion of soluble polyQ peptides into amyloid fibrils, in particular by suppressing primary nucleation. This inhibition is mediated by a serine/threonine-rich region that provides an array of surface-exposed hydroxyl groups that bind to polyQ peptides and may disrupt the formation of the H bonds essential for the stability of amyloid fibrils. Early prevention of polyQ aggregation by DNAJB6 occurs also in cells and leads to delayed neurite retraction even before aggregates are visible. In a mouse model, brain-specific coexpression of DNAJB6 delays polyQ aggregation, relieves symptoms, and prolongs lifespan, pointing to DNAJB6 as a potential target for disease therapy and tool for unraveling early events in the onset of polyQ diseases. Kakkar et al. show that DNAJB6 is a chaperone that inhibits early steps in the formation of polyQ amyloid fibrils. An S/T-rich region in DNAJB6 is crucial for this function. In a polyQ mouse model, the inhibitory effects of DNAJB6 delay disease onset and increase lifespan.

Original language	English (US)
Pages (from-to)	272-283
Number of pages	12
Journal	Molecular Cell
Volume	62
Issue number	2
DOIs	https://doi.org/10.1016/j.molcel.2016.03.017
State	Published - Apr 21 2016

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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Kakkar, V., Månsson, C., de Mattos, E. P., Bergink, S., van der Zwaag, M., van Waarde, M. A. W. H., Kloosterhuis, N. J., Melki, R., van Cruchten, R. T. P., Al-Karadaghi, S., Arosio, P., Dobson, C. M., Knowles, T. P. J., Bates, G. P., van Deursen, J. M., Linse, S., van de Sluis, B., Emanuelsson, C., & Kampinga, H. H. (2016). The S/T-Rich Motif in the DNAJB6 Chaperone Delays Polyglutamine Aggregation and the Onset of Disease in a Mouse Model. Molecular Cell, 62(2), 272-283. https://doi.org/10.1016/j.molcel.2016.03.017

Kakkar, V, Månsson, C, de Mattos, EP, Bergink, S, van der Zwaag, M, van Waarde, MAWH, Kloosterhuis, NJ, Melki, R, van Cruchten, RTP, Al-Karadaghi, S, Arosio, P, Dobson, CM, Knowles, TPJ, Bates, GP, van Deursen, JM, Linse, S, van de Sluis, B, Emanuelsson, C & Kampinga, HH 2016, 'The S/T-Rich Motif in the DNAJB6 Chaperone Delays Polyglutamine Aggregation and the Onset of Disease in a Mouse Model', Molecular Cell, vol. 62, no. 2, pp. 272-283. https://doi.org/10.1016/j.molcel.2016.03.017

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title = "The S/T-Rich Motif in the DNAJB6 Chaperone Delays Polyglutamine Aggregation and the Onset of Disease in a Mouse Model",

abstract = "Expanded CAG repeats lead to debilitating neurodegenerative disorders characterized by aggregation of proteins with expanded polyglutamine (polyQ) tracts. The mechanism of aggregation involves primary and secondary nucleation steps. We show how a noncanonical member of the DNAJ-chaperone family, DNAJB6, inhibits the conversion of soluble polyQ peptides into amyloid fibrils, in particular by suppressing primary nucleation. This inhibition is mediated by a serine/threonine-rich region that provides an array of surface-exposed hydroxyl groups that bind to polyQ peptides and may disrupt the formation of the H bonds essential for the stability of amyloid fibrils. Early prevention of polyQ aggregation by DNAJB6 occurs also in cells and leads to delayed neurite retraction even before aggregates are visible. In a mouse model, brain-specific coexpression of DNAJB6 delays polyQ aggregation, relieves symptoms, and prolongs lifespan, pointing to DNAJB6 as a potential target for disease therapy and tool for unraveling early events in the onset of polyQ diseases. Kakkar et al. show that DNAJB6 is a chaperone that inhibits early steps in the formation of polyQ amyloid fibrils. An S/T-rich region in DNAJB6 is crucial for this function. In a polyQ mouse model, the inhibitory effects of DNAJB6 delay disease onset and increase lifespan.",

author = "Vaishali Kakkar and Cecilia M{\aa}nsson and {de Mattos}, {Eduardo P.} and Steven Bergink and {van der Zwaag}, Marianne and {van Waarde}, {Maria A.W.H.} and Kloosterhuis, {Niels J.} and Ronald Melki and {van Cruchten}, {Remco T.P.} and Salam Al-Karadaghi and Paolo Arosio and Dobson, {Christopher M.} and Knowles, {Tuomas P.J.} and Bates, {Gillian P.} and {van Deursen}, {Jan M.} and Sara Linse and {van de Sluis}, Bart and Cecilia Emanuelsson and Kampinga, {Harm H.}",

note = "Publisher Copyright: {\textcopyright} 2016 Elsevier Inc.",

year = "2016",

month = apr,

day = "21",

doi = "10.1016/j.molcel.2016.03.017",

language = "English (US)",

volume = "62",

pages = "272--283",

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T1 - The S/T-Rich Motif in the DNAJB6 Chaperone Delays Polyglutamine Aggregation and the Onset of Disease in a Mouse Model

AU - Kakkar, Vaishali

AU - Månsson, Cecilia

AU - de Mattos, Eduardo P.

AU - Bergink, Steven

AU - van der Zwaag, Marianne

AU - van Waarde, Maria A.W.H.

AU - Kloosterhuis, Niels J.

AU - Melki, Ronald

AU - van Cruchten, Remco T.P.

AU - Al-Karadaghi, Salam

AU - Arosio, Paolo

AU - Dobson, Christopher M.

AU - Knowles, Tuomas P.J.

AU - Bates, Gillian P.

AU - van Deursen, Jan M.

AU - Linse, Sara

AU - van de Sluis, Bart

AU - Emanuelsson, Cecilia

AU - Kampinga, Harm H.

PY - 2016/4/21

Y1 - 2016/4/21

N2 - Expanded CAG repeats lead to debilitating neurodegenerative disorders characterized by aggregation of proteins with expanded polyglutamine (polyQ) tracts. The mechanism of aggregation involves primary and secondary nucleation steps. We show how a noncanonical member of the DNAJ-chaperone family, DNAJB6, inhibits the conversion of soluble polyQ peptides into amyloid fibrils, in particular by suppressing primary nucleation. This inhibition is mediated by a serine/threonine-rich region that provides an array of surface-exposed hydroxyl groups that bind to polyQ peptides and may disrupt the formation of the H bonds essential for the stability of amyloid fibrils. Early prevention of polyQ aggregation by DNAJB6 occurs also in cells and leads to delayed neurite retraction even before aggregates are visible. In a mouse model, brain-specific coexpression of DNAJB6 delays polyQ aggregation, relieves symptoms, and prolongs lifespan, pointing to DNAJB6 as a potential target for disease therapy and tool for unraveling early events in the onset of polyQ diseases. Kakkar et al. show that DNAJB6 is a chaperone that inhibits early steps in the formation of polyQ amyloid fibrils. An S/T-rich region in DNAJB6 is crucial for this function. In a polyQ mouse model, the inhibitory effects of DNAJB6 delay disease onset and increase lifespan.

AB - Expanded CAG repeats lead to debilitating neurodegenerative disorders characterized by aggregation of proteins with expanded polyglutamine (polyQ) tracts. The mechanism of aggregation involves primary and secondary nucleation steps. We show how a noncanonical member of the DNAJ-chaperone family, DNAJB6, inhibits the conversion of soluble polyQ peptides into amyloid fibrils, in particular by suppressing primary nucleation. This inhibition is mediated by a serine/threonine-rich region that provides an array of surface-exposed hydroxyl groups that bind to polyQ peptides and may disrupt the formation of the H bonds essential for the stability of amyloid fibrils. Early prevention of polyQ aggregation by DNAJB6 occurs also in cells and leads to delayed neurite retraction even before aggregates are visible. In a mouse model, brain-specific coexpression of DNAJB6 delays polyQ aggregation, relieves symptoms, and prolongs lifespan, pointing to DNAJB6 as a potential target for disease therapy and tool for unraveling early events in the onset of polyQ diseases. Kakkar et al. show that DNAJB6 is a chaperone that inhibits early steps in the formation of polyQ amyloid fibrils. An S/T-rich region in DNAJB6 is crucial for this function. In a polyQ mouse model, the inhibitory effects of DNAJB6 delay disease onset and increase lifespan.

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JF - Molecular Cell

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The S/T-Rich Motif in the DNAJB6 Chaperone Delays Polyglutamine Aggregation and the Onset of Disease in a Mouse Model

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