Karin Axelman scite author profile

Several pathogenic Alzheimer's disease (AD) mutations have been described, all of which cause increased amyloid beta-protein (Abeta) levels. Here we present studies of a pathogenic amyloid precursor protein (APP) mutation, located within the Abeta sequence at codon 693 (E693G), that causes AD in a Swedish family. Carriers of this 'Arctic' mutation showed decreased Abeta42 and Abeta40 levels in plasma. Additionally, low levels of Abeta42 were detected in conditioned media from cells transfected with APPE693G. Fibrillization studies demonstrated no difference in fibrillization rate, but Abeta with the Arctic mutation formed protofibrils at a much higher rate and in larger quantities than wild-type (wt) Abeta. The finding of increased protofibril formation and decreased Abeta plasma levels in the Arctic AD may reflect an alternative pathogenic mechanism for AD involving rapid Abeta protofibril formation leading to accelerated buildup of insoluble Abeta intra- and/or extracellularly.

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A pathogenic mutation for probable Alzheimer's disease in the APP gene at the N–terminus of β–amyloid

Mullan

et al. 1992

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Mutations at codon 717 in exon 17 of the beta-amyloid precursor protein (APP) gene have previously been shown to segregate with early onset Alzheimer's disease in some families. We have identified a double mutation at codons 670 and 671 (APP 770 transcript) in exon 16 which co-segregates with the disease in two large (probably related) early-onset Alzheimer's disease families from Sweden. Two base pair transversions (G to T, A to C) from the normal sequence predict Lys to Asn and Met to Leu amino acid substitutions at codons 670 and 671 of the APP transcript. This mutation occurs at the amino terminal of beta-amyloid and may be pathogenic because it occurs at or close to the endosomal/lysosomal cleavage site of the molecule. Thus, pathogenic mutations in APP frame the beta-amyloid sequence.

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The structure of the presenilin 1 (S182) gene and identification of six novel mutations in early onset AD families

Clark¹,

Hutton

Fuldner³

et al. 1995

Nat Genet

417

114

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Genetic linkage studies place a gene causing early onset familial Alzheimer's disease (FAD) on chromosome 14q24.3 (refs 1-4). Five mutations within the S182 (Presenilin 1: PS-1) gene, which maps to this region, have recently been reported in several early onset FAD kindreds. We have localized the PS-1 gene to a 75 kb region and present the structure of this gene, evidence for alternative splicing and describe six novel mutations in early onset FAD pedigrees all of which alter residues conserved in the STM2 (Presenilin 2: PS-2) gene.

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Clinical and Neuropathological Features of the Arctic APP Gene Mutation Causing Early-Onset Alzheimer Disease

Basun¹,

Bogdanović²,

Ingelsson³

et al. 2008

Arch Neurol

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Background: A majority of mutations within the ␤amyloid region of the amyloid precursor protein (APP) gene cause inherited forms of intracerebral hemorrhage. Most of these mutations may also cause cognitive impairment, but the Arctic APP mutation is the only known intra-␤-amyloid mutation to date causing the more typical clinical picture of Alzheimer disease.Objective: To describe features of 1 Swedish and 1 American family with the previously reported Arctic APP mutation.Design, Setting, and Participants: Affected and nonaffected carriers of the Arctic APP mutation from the Swedish and American families were investigated clinically. In addition, 1 brain from each family was investigated neuropathologically. Results:The clinical picture, with age at disease onset in the sixth to seventh decade of life and dysfunction in

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A mutation in Alzheimerʼs disease destroying a splice acceptor site in the presenilin-1 gene

Pérez‐Tur¹,

Froelich²,

Prihar³

et al. 1995

NeuroReport

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Karin Axelman

The 'Arctic' APP mutation (E693G) causes Alzheimer's disease by enhanced Aβ protofibril formation

A pathogenic mutation for probable Alzheimer's disease in the APP gene at the N–terminus of β–amyloid

The structure of the presenilin 1 (S182) gene and identification of six novel mutations in early onset AD families

Clinical and Neuropathological Features of the Arctic APP Gene Mutation Causing Early-Onset Alzheimer Disease

A mutation in Alzheimerʼs disease destroying a splice acceptor site in the presenilin-1 gene

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