Subtle genomic DNA damage induces intraneuronal production of amyloid‐β (1‐42) by increasing β‐secretase activity

Aberrant accumulation of amyloid‐β (Aβ) in brain is the major trigger for pathogenesis in Alzheimer's disease (AD). It is imperative to understand how Aβ attains such toxic levels in the brain parenchyma. We detected that a subtle and tolerable amount of DNA damage, related to aging, increased...

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Veröffentlicht in:	The FASEB journal 2021-05, Vol.35 (5), p.e21569-n/a
Hauptverfasser:	Das, Hrishita, Sarkar, Sukanya, Paidi, Ramesh K., Biswas, Subhas C.
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Sprache:	eng
Schlagworte:	5xFAD amyloid‐β BACE1 DNA damage eIF2α MFN2 PERK
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creator	Das, Hrishita Sarkar, Sukanya Paidi, Ramesh K. Biswas, Subhas C.
description	Aberrant accumulation of amyloid‐β (Aβ) in brain is the major trigger for pathogenesis in Alzheimer's disease (AD). It is imperative to understand how Aβ attains such toxic levels in the brain parenchyma. We detected that a subtle and tolerable amount of DNA damage, related to aging, increased intraneuronal Aβ1‐42 production both in cultured neuron and in cortex of rodent brain. Strikingly, we also observed elevated levels of mitochondrial fusion and of its major driver protein, MFN2. Hyperfusion of mitochondria may be seen as an adaptive stress response resulting from the induction of ER stress since we detected the activation of both PERK and IRE1α arms of unfolded protein response of ER stress. We found increased phosphorylation of PERK substrate eukaryotic initiation factor 2 α (eIF2α), and upregulation of the downstream effector proteins, ATF4 and CHOP. Concomitantly, increased XBP1 level, the direct effecter protein of IRE‐1α, was observed. Reports suggest that eIF2α phosphorylation can increase BACE1 activity, the rate limiting enzyme in Aβ production. Here, we show that inhibiting PERK, decreased Aβ1‐42 level while direct BACE1 inhibition, reduced the mitochondrial fusion. We found increased MFN2 expression in young 5xFAD mice when Aβ plaques and neurodegeneration were absent. Thus, our study indicates that mild DNA damage leads to increased Aβ1‐42 production almost as a consequence of an initial ER stress‐directed protective mitochondrial fusion in brain. We propose that an age‐related subtle genomic DNA damage may trigger enhanced intraneuronal Aβ1‐42 production in an apparently healthy neuron way before the appearance of clinical symptoms in AD.
doi_str_mv	10.1096/fj.202001676RR
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Here, we show that inhibiting PERK, decreased Aβ1‐42 level while direct BACE1 inhibition, reduced the mitochondrial fusion. We found increased MFN2 expression in young 5xFAD mice when Aβ plaques and neurodegeneration were absent. Thus, our study indicates that mild DNA damage leads to increased Aβ1‐42 production almost as a consequence of an initial ER stress‐directed protective mitochondrial fusion in brain. 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source	Wiley Online Library Journals Frontfile Complete; Alma/SFX Local Collection
subjects	5xFAD amyloid‐β BACE1 DNA damage eIF2α MFN2 PERK
title	Subtle genomic DNA damage induces intraneuronal production of amyloid‐β (1‐42) by increasing β‐secretase activity
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