Hollien J, Weissman JS.
Decay of endoplasmic reticulum-localized mRNAs during the unfolded protein response.
Science. 2006 Jul 7;313(5783):104-7.
PubMed.
This study shows that Aβ1-40 (as well as PrP106-126 peptide) induces ER stress, leading to apoptotic death in neurons. Previous studies have ruled out the primary role of ER stress in AD (e.g., Piccini et al., 2004). It would be interesting to ascertain if endogenous Aβ (produced through a Bri/Aβ fusion protein, e.g.) induces the same cascade of events described in the study. Then, check if Aβ1-42 has the same effects. Moreover, I would test the effect of different states of aggregation of Aβ peptides.
Our lab previously reported activation of the UPR in AD neurons (Hoozemans et al., 2005). In the current paper, Ferreiro et al. show induction of BiP levels, as well as decreased pro-caspase-12 levels induced by Aβ1-40. This may indicate that the ER stress response (including the apoptotic branch of the UPR) is activated directly by Aβ, and may be the cause of the UPR activation that we observe in AD neurons. However, the data obtained by Ferreiro et al. in vitro appear not to corroborate fully with observations from the actual patient material. The data presented in the Ferreiro paper suggest that apoptotic cell death is a direct consequence of Aβ-induced UPR activation, whereas we find no evidence of apoptosis in AD neurons with an activated UPR. The UPR is activated as a protective mechanism to restore ER homeostasis, and although it can result in cell death after prolonged activation, it is not necessarily a bad thing. This is in agreement with our observation that the UPR is activated relatively early in AD pathology. In this respect it would be interesting to distinguish effects of Aβ aggregation state (here only a fibrillar preparation of Aβ1-40 was used). Therefore, this paper adds to the emerging idea that the ER and the ER stress response are involved in AD pathogenesis, but caution is warranted to directly translate these in vitro data to the disease mechanism.
References:
Hoozemans JJ, Veerhuis R, van Haastert ES, Rozemuller JM, Baas F, Eikelenboom P, Scheper W.
The unfolded protein response is activated in Alzheimer's disease.
Acta Neuropathol. 2005 Aug;110(2):165-72.
PubMed.
Scheper W, Hol EM.
Protein quality control in Alzheimer's disease: a fatal saviour.
Curr Drug Targets CNS Neurol Disord. 2005 Jun;4(3):283-92.
PubMed.
Comments
University of Genoa
This study shows that Aβ1-40 (as well as PrP106-126 peptide) induces ER stress, leading to apoptotic death in neurons. Previous studies have ruled out the primary role of ER stress in AD (e.g., Piccini et al., 2004). It would be interesting to ascertain if endogenous Aβ (produced through a Bri/Aβ fusion protein, e.g.) induces the same cascade of events described in the study. Then, check if Aβ1-42 has the same effects. Moreover, I would test the effect of different states of aggregation of Aβ peptides.
View all comments by Massimo TabatonVU University Medical Center
Our lab previously reported activation of the UPR in AD neurons (Hoozemans et al., 2005). In the current paper, Ferreiro et al. show induction of BiP levels, as well as decreased pro-caspase-12 levels induced by Aβ1-40. This may indicate that the ER stress response (including the apoptotic branch of the UPR) is activated directly by Aβ, and may be the cause of the UPR activation that we observe in AD neurons. However, the data obtained by Ferreiro et al. in vitro appear not to corroborate fully with observations from the actual patient material. The data presented in the Ferreiro paper suggest that apoptotic cell death is a direct consequence of Aβ-induced UPR activation, whereas we find no evidence of apoptosis in AD neurons with an activated UPR. The UPR is activated as a protective mechanism to restore ER homeostasis, and although it can result in cell death after prolonged activation, it is not necessarily a bad thing. This is in agreement with our observation that the UPR is activated relatively early in AD pathology. In this respect it would be interesting to distinguish effects of Aβ aggregation state (here only a fibrillar preparation of Aβ1-40 was used). Therefore, this paper adds to the emerging idea that the ER and the ER stress response are involved in AD pathogenesis, but caution is warranted to directly translate these in vitro data to the disease mechanism.
References:
Hoozemans JJ, Veerhuis R, van Haastert ES, Rozemuller JM, Baas F, Eikelenboom P, Scheper W. The unfolded protein response is activated in Alzheimer's disease. Acta Neuropathol. 2005 Aug;110(2):165-72. PubMed.
Scheper W, Hol EM. Protein quality control in Alzheimer's disease: a fatal saviour. Curr Drug Targets CNS Neurol Disord. 2005 Jun;4(3):283-92. PubMed.
View all comments by Wiep Scheper