James D. Harper scite author profile

Ordered protein aggregation in the brain is a hallmark of Alzheimer's disease and scrapie. The disease-specific amyloid fibrils comprise primarily a single protein, amyloid beta, in Alzheimer's disease, and the prion protein in scrapie. These proteins can be induced to form aggregates in vitro that are indistinguishable from brain-derived fibrils. Consequently, much effort has been invested in the development of in vitro model systems to study the details of the aggregation processes and the effects of endogenous molecules that have been implicated in disease. Selected studies of this type are reviewed herein. A simple mechanistic model has emerged for both processes that involves a nucleation-dependent polymerization. This mechanism dictates that aggregation is dependent on protein concentration and time. Furthermore, amyloid formation can be seeded by a preformed fibril. The physiological consequences of this mechanism are discussed.

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Accelerated in vitro fibril formation by a mutant α-synuclein linked to early-onset Parkinson disease

Conway

Harper

Lansbury

1998

Nat Med

1,423

1,182

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Fibrils Formed in Vitro from α-Synuclein and Two Mutant Forms Linked to Parkinson's Disease are Typical Amyloid

2000

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Two missense mutations in the gene encoding alpha-synuclein have been linked to rare, early-onset forms of Parkinson's disease (PD). These forms of PD, as well as the common idiopathic form, are characterized by the presence of cytoplasmic neuronal deposits, called Lewy bodies, in the affected region of the brain. Lewy bodies contain alpha-synuclein in a form that resembles fibrillar Abeta derived from Alzheimer's disease (AD) amyloid plaques. One of the mutant forms of alpha-synuclein (A53T) fibrillizes more rapidly in vitro than does the wild-type protein, suggesting that a correlation may exist between the rate of in vitro fibrillization and/or oligomerization and the progression of PD, analogous to the relationship between Abeta fibrillization in vitro and familial AD. In this paper, fibrils generated in vitro from alpha-synuclein, wild-type and both mutant forms, are shown to possess very similar features that are characteristic of amyloid fibrils, including a wound and predominantly unbranched morphology (demonstrated by atomic force and electron microscopies), distinctive dye-binding properties (Congo red and thioflavin T), and antiparallel beta-sheet structure (Fourier transform infrared spectroscopy and circular dichroism spectroscopy). alpha-Synuclein fibrils are relatively resistant to proteolysis, a property shared by fibrillar Abeta and the disease-associated fibrillar form of the prion protein. These data suggest that PD, like AD, is a brain amyloid disease that, unlike AD, is characterized by cytoplasmic amyloid (Lewy bodies). In addition to amyloid fibrils, a small oligomeric form of alpha-synuclein, which may be analogous to the Abeta protofibril, was observed prior to the appearance of fibrils. This species or a related one, rather than the fibril itself, may be responsible for neuronal death.

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James D. Harper

MODELS OF AMYLOID SEEDING IN ALZHEIMER'S DISEASE AND SCRAPIE: Mechanistic Truths and Physiological Consequences of the Time-Dependent Solubility of Amyloid Proteins

Accelerated in vitro fibril formation by a mutant α-synuclein linked to early-onset Parkinson disease

Fibrils Formed in Vitro from α-Synuclein and Two Mutant Forms Linked to Parkinson's Disease are Typical Amyloid

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