A motor neuron disease-associated mutation in p150 super(Glued) perturbs dynactin function and induces protein aggregation

A motor neuron disease-associated mutation in p150 super(Glued) perturbs dynactin function and induces protein aggregation

The microtubule motor cytoplasmic dynein and its activator dynactin drive vesicular transport and mitotic spindle organization. Dynactin is ubiquitously expressed in eukaryotes, but a G59S mutation in the p150 super(Glued) subunit of dynactin results in the specific degeneration of motor neurons. Th...

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Veröffentlicht in:The Journal of cell biology 2006-02, Vol.172 (5), p.733-745
Hauptverfasser: Levy, Jennifer R, Sumner, Charlotte J, Caviston, Juliane P, Tokito, Mariko K, Ranganathan, Srikanth, Ligon, Lee A, Wallace, Karen E, LaMonte, Bernadette H, Harmison, George G, Puls, Imke, Fischbeck, Kenneth H, Holzbaur, Erika LF
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container_issue 5
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container_title The Journal of cell biology
container_volume 172
creator Levy, Jennifer R
Sumner, Charlotte J
Caviston, Juliane P
Tokito, Mariko K
Ranganathan, Srikanth
Ligon, Lee A
Wallace, Karen E
LaMonte, Bernadette H
Harmison, George G
Puls, Imke
Fischbeck, Kenneth H
Holzbaur, Erika LF
description The microtubule motor cytoplasmic dynein and its activator dynactin drive vesicular transport and mitotic spindle organization. Dynactin is ubiquitously expressed in eukaryotes, but a G59S mutation in the p150 super(Glued) subunit of dynactin results in the specific degeneration of motor neurons. This mutation in the conserved cytoskeleton-associated protein, glycine-rich (CAP-Gly) domain lowers the affinity of p150 super(Glued) for microtubules and EB1. Cell lines from patients are morphologically normal but show delayed recovery after nocodazole treatment, consistent with a subtle disruption of dynein/dynactin function. The G59S mutation disrupts the folding of the CAP-Gly domain, resulting in aggregation of the p150 super(Glued) protein both in vitro and in vivo, which is accompanied by an increase in cell death in a motor neuron cell line. Overexpression of the chaperone Hsp70 inhibits aggregate formation and prevents cell death. These data support a model in which a point mutation in p150 super(Glued) causes both loss of dynein/dynactin function and gain of toxic function, which together lead to motor neuron cell death.
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title A motor neuron disease-associated mutation in p150 super(Glued) perturbs dynactin function and induces protein aggregation
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