Methodologies

Peptide Literature

References

Product Use and Liability

Amyloid beta-peptide stimulates nitric oxide production in astrocytes through an NFkappaB-dependent mechanism

Title

Amyloid beta-peptide stimulates nitric oxide production in astrocytes through an NFkappaB-dependent mechanism.

Author

Akama KT; Albanese C; Pestell RG; Van Eldik LJ

Source

Proc Natl Acad Sci U S A, 95(10):5795-800 1998 May 12

Abstract

The major pathological features of Alzheimer's disease (AD) include amyloid plaques composed primarily of the beta-amyloid (Abeta) peptide, degenerating neurons and neurofibrillary tangles, and the presence of numerous activated astrocytes and microglia. Although extensive genetic data implicate Abeta in the neurodegenerative cascade of AD, the molecular mechanisms underlying its effects on neurons and glia and the relationship between glial activation and neuronal death are not well defined. Abeta has been shown to induce glial activation, and a growing body of evidence suggests that activated glia contribute to neurotoxicity through generation of inflammatory cytokines and neurotoxic free radicals, such as nitric oxide (NO), potent sources of oxidative stress known to occur in AD. It is therefore crucial to identify specific Abeta-induced molecular pathways mediating these responses in activated glia. We report that Abeta stimulates the activation of the transcription factor NFkappaB in rat astrocytes, that NFkappaB activation occurs selectively from p65 transactivation domain 2, and that Abeta-induced NO synthase expression and NO production occur through an NFkappaB-dependent mechanism. This demonstration of how Abeta couples an intracellular signal transduction pathway involving NFkappaB to a potentially neurotoxic response provides a key mechanistic link between Abeta and the generation of oxidative damage. Our results also suggest possible molecular targets upon which to focus future drug discovery efforts for AD.

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