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Partial Loss-of-Function Mutations in Insulin-Degrading Enzyme that Induce Diabetes also Impair Degradation of Amyloid β-Protein

https://doi.org/10.1016/S0002-9440(10)63229-4Get rights and content

The causes of cerebral accumulation of amyloid β-protein (Aβ) in most cases of Alzheimer's disease (AD) remain unknown. We recently found that homozygous deletion of the insulin-degrading enzyme (IDE) gene in mice results in an early and marked elevation of cerebral Aβ. Both genetic linkage and allelic association in the IDE region of chromosome 10 have been reported in families with late-onset AD. For IDE to remain a valid candidate gene for late-onset AD on functional grounds, it must be shown that partial loss of function of IDE can still alter Aβ degradation, but without causing early, severe elevation of brain Aβ. Here, we show that naturally occurring IDE missense mutations in a well-characterized rat model of type 2 diabetes mellitus (DM2) result in decreased catalytic efficiency and a significant ∼15 to 30% deficit in the degradation of both insulin and Aβ. Endogenously secreted Aβ40 and Aβ42 are significantly elevated in primary neuronal cultures from animals with the IDE mutations, but there is no increase in steady-state levels of rodent Aβ in the brain up to age 14 months. We conclude that naturally occurring, partial loss-of-function mutations in IDE sufficient to cause DM2 also impair neuronal regulation of Aβ levels, but the brain can apparently compensate for the partial deficit during the life span of the rat. Our findings have relevance for the emerging genetic evidence suggesting that IDE may be a late-onset AD-risk gene, and for the epidemiological relationships among hyperinsulinemia, DM2, and AD.

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Supported by the National Institutes of Health (grant AG12479 to W.F., S.M., M.A.L., D.J.S.), the Mayo Alzheimer's Disease Research Center (to C.E. and E.E.), the Alzheimer's Association (to C.E. and E.E.), and the Smith Fellowship (to E.E.).

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