Cytoplasmic inclusions of Htt Exon1 containing an
expanded polyglutamine tract suppress execution of
apoptosis in sympathetic neurons
Cytoplasmic inclusions of Htt Exon1 containing an
expanded polyglutamine tract suppress execution of
apoptosis in sympathetic neurons
Proteins containing extended polyglutamine repeats cause at least nine neurodegenerative disorders, but the mechanisms of disease-related neuronal death remain uncertain. We show that sympathetic neurons containing cytoplasmic inclusions formed by 97 glutamines expressed within human huntingtin exon1–enhanced green fluorescent protein (Q97) undergo a protracted form of nonapoptotic death that is insensitive to Bax deletion or caspase inhibition but is characterized by mitochondrial dysfunction. By treating the neurons with combined cytosine arabinoside and NGF withdrawal, we demonstrate that Q97 confers a powerful resistance to apoptosis at multiple levels: despite normal proapoptotic signaling (elevation of P-ser15–p53 and BimEL), there is no increase of Puma mRNA or Bax activation, both necessary for apoptosis. Even restoration of Bax translocation with overexpressed Puma does not activate apoptosis. We demonstrate that this robust inhibition of apoptosis is caused by Q97-mediated accumulation of Hsp70, which occurs through inhibition of proteasomal activity. Thus, apoptosis is reinstated by short hairpin RNA-mediated knockdown of Hsp70. These findings explain the rarity of apoptotic death in Q97-expressing neurons. Given the proteasomal blockade, we test whether enhancing lysosomal-mediated degradation with rapamycin reduces Q97 accumulation. Rapamycin reduces the amount of nonpathological Q25 by 70% over 3 d, but Q97 accumulation is unaffected. Interestingly, Q47 inclusions form more slowly as a result of constitutive lysosomal degradation, but faster-forming Q97 inclusions escape lysosomal control. Thus, cytoplasmic Q97 inclusions are refractory to clearance by proteasomal and lysosomal systems, leading to a toxicity that dominates over neuroprotective Hsp70. Our findings may explain the rarity of apoptosis but the inevitable cell death associated with polyQ inclusion diseases.
bim, cell death, Hsp70, lysosome, proteasome, puma
King, Matthew A.
fb62e460-3d28-43e6-b9f4-f0b822e59142
Goemans, Cristoph G.
0721d70c-224c-4f79-9044-132618f4da70
Hafiz, Farida
8de6d051-da9a-4afd-8121-9334e6c61452
Prehn, Jochen H.M.
bc189b6e-a7bc-424a-b511-a60160135ef8
Wyttenbach, Andreas
05019897-52b1-4bb6-b259-5d51abae7540
Tolkovsky, Aviva M.
c7bfa481-5040-4558-8100-d83b8aff45b2
31 October 2008
King, Matthew A.
fb62e460-3d28-43e6-b9f4-f0b822e59142
Goemans, Cristoph G.
0721d70c-224c-4f79-9044-132618f4da70
Hafiz, Farida
8de6d051-da9a-4afd-8121-9334e6c61452
Prehn, Jochen H.M.
bc189b6e-a7bc-424a-b511-a60160135ef8
Wyttenbach, Andreas
05019897-52b1-4bb6-b259-5d51abae7540
Tolkovsky, Aviva M.
c7bfa481-5040-4558-8100-d83b8aff45b2
King, Matthew A., Goemans, Cristoph G., Hafiz, Farida, Prehn, Jochen H.M., Wyttenbach, Andreas and Tolkovsky, Aviva M.
(2008)
Cytoplasmic inclusions of Htt Exon1 containing an
expanded polyglutamine tract suppress execution of
apoptosis in sympathetic neurons.
Journal of Neuroscience, 28.
(doi:10.1523/JNEUROSCI.4751-08.2008).
Abstract
Proteins containing extended polyglutamine repeats cause at least nine neurodegenerative disorders, but the mechanisms of disease-related neuronal death remain uncertain. We show that sympathetic neurons containing cytoplasmic inclusions formed by 97 glutamines expressed within human huntingtin exon1–enhanced green fluorescent protein (Q97) undergo a protracted form of nonapoptotic death that is insensitive to Bax deletion or caspase inhibition but is characterized by mitochondrial dysfunction. By treating the neurons with combined cytosine arabinoside and NGF withdrawal, we demonstrate that Q97 confers a powerful resistance to apoptosis at multiple levels: despite normal proapoptotic signaling (elevation of P-ser15–p53 and BimEL), there is no increase of Puma mRNA or Bax activation, both necessary for apoptosis. Even restoration of Bax translocation with overexpressed Puma does not activate apoptosis. We demonstrate that this robust inhibition of apoptosis is caused by Q97-mediated accumulation of Hsp70, which occurs through inhibition of proteasomal activity. Thus, apoptosis is reinstated by short hairpin RNA-mediated knockdown of Hsp70. These findings explain the rarity of apoptotic death in Q97-expressing neurons. Given the proteasomal blockade, we test whether enhancing lysosomal-mediated degradation with rapamycin reduces Q97 accumulation. Rapamycin reduces the amount of nonpathological Q25 by 70% over 3 d, but Q97 accumulation is unaffected. Interestingly, Q47 inclusions form more slowly as a result of constitutive lysosomal degradation, but faster-forming Q97 inclusions escape lysosomal control. Thus, cytoplasmic Q97 inclusions are refractory to clearance by proteasomal and lysosomal systems, leading to a toxicity that dominates over neuroprotective Hsp70. Our findings may explain the rarity of apoptosis but the inevitable cell death associated with polyQ inclusion diseases.
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Published date: 31 October 2008
Keywords:
bim, cell death, Hsp70, lysosome, proteasome, puma
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Local EPrints ID: 145335
URI: http://eprints.soton.ac.uk/id/eprint/145335
ISSN: 0270-6474
PURE UUID: 53ff6617-d3de-4a80-8e28-f6b533f4ce8f
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Date deposited: 19 Apr 2010 08:43
Last modified: 14 Mar 2024 00:50
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Author:
Matthew A. King
Author:
Cristoph G. Goemans
Author:
Farida Hafiz
Author:
Jochen H.M. Prehn
Author:
Andreas Wyttenbach
Author:
Aviva M. Tolkovsky
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