Lachlan Wilson scite author profile

PRESENILIN1 (PSEN1) is the major locus for mutations causing familial Alzheimer's disease (FAD) and is also mutated in Pick disease of brain, familial acne inversa and dilated cardiomyopathy. It is a critical facilitator of Notch signalling and many other signalling pathways and protein cleavage events including production of the Amyloidβ (Aβ) peptide from the AMYLOID BETA A4 PRECURSOR PROTEIN (APP). We previously reported that interference with splicing of transcripts of the zebrafish orthologue of PSEN1 creates dominant negative effects on Notch signalling. Here, we extend this work to show that various truncations of human PSEN1 (or zebrafish Psen1) protein have starkly differential effects on Notch signalling and cleavage of zebrafish Appa (a paralogue of human APP). Different truncations can suppress or stimulate Notch signalling but not Appa cleavage and vice versa. The G183V mutation possibly causing Pick disease causes production of aberrant transcripts truncating the open reading frame after exon 5 sequence. We show that the truncated protein potentially translated from these transcripts avidly incorporates into very stable Psen1-dependent higher molecular weight complexes and suppresses cleavage of Appa but not Notch signalling. In contrast, the truncated protein potentially produced by the P242LfsX11 acne inversa mutation has no effect on Appa cleavage but, unexpectedly, enhances Notch signalling. Our results suggest novel hypotheses for the pathological mechanisms underlying these diseases and illustrate the importance of investigating the function of dominant mutations at physiologically relevant expression levels and in the normally heterozygous state in which they cause human disease rather than in isolation from healthy alleles.

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The BACE1-PSEN-AβPP Regulatory Axis has an Ancient Role in Response to Low Oxygen/Oxidative Stress

Nik

Wilson

Newman

et al. 2012

JAD

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Oxygen homeostasis is essential for the development and normal physiology of an organism. Hypoxia causes the mitochondrial electron transport chain to generate higher levels of reactive oxygen species resulting in oxidative stress. Hypoxia can be a direct consequence of hypoperfusion, a common vascular component among Alzheimer's disease (AD) risk factors, and may play an important role in AD pathogenesis. Beta-site amyloid-β A4 precursor protein-cleaving enzyme 1 (BACE1) is responsible, with γ-secretase, for cleavage of the amyloid-β protein precursor (AβPP) to produce amyloid-β (Aβ) peptide. A recent study observed that oxidative stress increases BACE1 expression via a regulatory pathway dependent on γ-secretase cleavage of AβPP and this increases Aβ peptide production. Zebrafish embryos represent normal cells in which complex and subtle manipulations of gene activity can be performed to facilitate analysis of genes involved in human disease. Here we identify and describe the expression of bace1, the zebrafish ortholog of human BACE1. We observe that the zebrafish AD-related genes bace1, psen1, psen2, appa, and appb all show increased mRNA levels under hypoxia. A dominant negative form of psen1 putatively blocking γ-secretase activity blocks bace1 upregulation under hypoxia. Hypoxia increases catalase gene mRNA indicating increased oxidative stress but we did not observe increased levels of F2-isoprostanes that indicate peroxidation of arachidonic acid, possibly due to relatively low levels of arachidonic acid in zebrafish. Our results demonstrate that upregulation of PSEN1 & 2, AβPP and the γ-secretase-dependent upregulation of BACE1 is an ancient, conserved, and thus selectively advantageous response to hypoxia/oxidative stress.

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Alzheimer's disease-related peptide PS2V plays ancient, conserved roles in suppression of the unfolded protein response under hypoxia and stimulation of γ-secretase activity

Nik¹,

Newman²,

Wilson³

et al. 2015

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The PRESENILIN1 and PRESENILIN2 genes encode structurally related proteases essential for γ-secretase activity. Of nearly 200 PRESENILIN mutations causing early onset, familial Alzheimer's disease (FAD) only the K115Efx10 mutation of PSEN2 causes truncation of the open reading frame. If translated, the truncated product would resemble a naturally occurring isoform of PSEN2 named PS2V that is induced by hypoxia and found at elevated levels in late onset Alzheimer's disease (AD) brains. The function of PS2V is largely unexplored. We show that zebrafish possess a PS2V-like isoform, PS1IV, produced from the fish's PSEN1 rather than PSEN2 orthologous gene. The molecular mechanism controlling formation of PS2V/PS1IV was probably present in the ancient common ancestor of the PSEN1 and PSEN2 genes. Human PS2V and zebrafish PS1IV have highly divergent structures but conserved abilities to stimulate γ-secretase activity and to suppress the unfolded protein response (UPR) under hypoxia. The putative protein truncation caused by K115Efx10 resembles PS2V in its ability to increase γ-secretase activity and suppress the UPR. This supports increased Aβ levels as a common link between K115Efx10 early onset AD and sporadic, late onset AD. The ability of mutant variants of PS2V to stimulate γ-secretase activity partially correlates with their ability to suppress the UPR. The cytosolic, transmembrane and luminal domains of PS2V are all critical to its γ-secretase and UPR-suppression activities. Our data support a model in which chronic hypoxia in aged brains promotes excessive Notch signalling and accumulation of Aβ that contribute to AD pathogenesis.

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A Zebrafish Melanophore Model of Amyloidβ Toxicity

et al. 2010

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Reliable animal models are required to facilitate the understanding of neurodegenerative pathways in Alzheimer's disease. Animal models can also be employed to search for disease-modifying drugs. The embryos and larvae of zebrafish are particularly advantageous for this purpose. For Alzheimer's disease, drugs that can ameliorate amyloid beta (A beta) toxicity have therapeutic and/or prophylactic potential. We attempted to generate a zebrafish model of A beta toxicity that would be viable and fertile but have a highly visible pigmentation phenotype in larvae. The larvae could then be arrayed in microtiter plates to screen compound libraries for drugs acting to reduce A beta toxicity. We used the promoter of the zebrafish mitfa (nacre) gene to drive expression of the pathological 42 amino acid species of human A beta, A beta(42), specifically in the highly visible melanophores (melanocytes) of transgenic zebrafish. However, the transgenic fish only showed an aberrant pigment phenotype in adults at the advanced age of 16 months. Nevertheless, our results show that alteration of zebrafish pigment pattern may be useful for analysis of toxic peptide action.

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The Development of an in vivo γ-Secretase Assay using Zebrafish Embryos

Wilson

Lardelli

2013

JAD

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Aberrant proteolytic processing of amyloid-β protein precursor by γ-secretase complexes may result in an imbalance between production and clearance of the Aβ proteolytic product and promote neuronal dysfunction and death. Presenilin proteins form the catalytic core of γ-secretase complexes. The zebrafish, Danio rerio, is a versatile vertebrate model for investigating the molecular basis of Alzheimer's disease pathology. It possesses genes orthologous to human PSEN1 and PSEN2 (psen1 and psen2 respectively), and AβPP (appa and appb that are duplicates of an ancestral AβPP orthologue). Currently there is no in vivo assay appropriate for directly monitoring γ-secretase activity. Here, we describe such an assay in which the level of a γ-secretase substrate (a modified form of Appa protein) is observed in zebrafish embryos by western immunoblotting relative to a co-expressed protein not subject to γ-secretase activity. We have used the assay to analyze the effects on γ-secretase activity of blocking translation of transcripts of zebrafish psen1 and/or psen2.

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Lachlan Wilson

Differential, dominant activation and inhibition of Notch signalling and APP cleavage by truncations of PSEN1 in human disease

The BACE1-PSEN-AβPP Regulatory Axis has an Ancient Role in Response to Low Oxygen/Oxidative Stress

Alzheimer's disease-related peptide PS2V plays ancient, conserved roles in suppression of the unfolded protein response under hypoxia and stimulation of γ-secretase activity

A Zebrafish Melanophore Model of Amyloidβ Toxicity

The Development of an in vivo γ-Secretase Assay using Zebrafish Embryos

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