Decreased Catalytic Activity of the Insulin-degrading Enzyme in Chromosome 10-Linked Alzheimer Disease Families

Insulin-degrading enzyme (IDE) is a zinc metalloprotease that degrades the amyloid β-peptide, the key component of Alzheimer disease (AD)-associated senile plaques. We have previously reported evidence for genetic linkage and association of AD on chromosome 10q23–24 in the region harboring the IDE g...

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Bibliographic Details
Published in:The Journal of biological chemistry 2007-03, Vol.282 (11), p.7825-7832
Main Authors: Kim, Minji, Hersh, Louis B., Leissring, Malcolm A., Ingelsson, Martin, Matsui, Toshifumi, Farris, Wesley, Lu, Alice, Hyman, Bradley T., Selkoe, Dennis J., Bertram, Lars, Tanzi, Rudolph E.
Format: Article
Language:English
Subjects:
Aged
Alzheimer Disease - genetics
Alzheimer Disease - metabolism
Alzheimer Disease - pathology
Brain - metabolism
Catalysis
Chromosomes, Human, Pair 10 - ultrastructure
Family Health
Female
Genetic Linkage
Humans
Insulin - metabolism
Insulysin - genetics
Insulysin - metabolism
Lymphocytes - metabolism
Male
MEDICIN
MEDICINE
Middle Aged
Mutation
Pedigree
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Summary:Insulin-degrading enzyme (IDE) is a zinc metalloprotease that degrades the amyloid β-peptide, the key component of Alzheimer disease (AD)-associated senile plaques. We have previously reported evidence for genetic linkage and association of AD on chromosome 10q23–24 in the region harboring the IDE gene. Here we have presented the first functional assessment of IDE in AD families showing the strongest evidence of the genetic linkage. We have examined the catalytic activity and expression of IDE in lymphoblast samples from 12 affected and unaffected members of three chromosome 10-linked AD pedigrees in the National Institute of Mental Health AD Genetics Initiative family sample. We have shown that the catalytic activity of cytosolic IDE to degrade insulin is reduced in affected versus unaffected subjects of these families. Further, we have shown the decrease in activity is not due to reduced IDE expression, suggesting the possible defects in IDE function in these AD families. In attempts to find potential mutations in the IDE gene in these families, we have found no coding region substitutions or alterations in splicing of the canonical exons and exon 15b of IDE. We have also found that total IDE mRNA levels are not significantly different in sporadic AD versus age-matched control brains. Collectively, our data suggest that the genetic linkage of AD in this set of chromosome 10-linked AD families may be the result of systemic defects in IDE activity in the absence of altered IDE expression, further supporting a role for IDE in AD pathogenesis.
ISSN:0021-9258
1083-351X
1083-351X
DOI:10.1074/jbc.M609168200