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The occurrence of aging-dependent reticulon 3 immunoreactive dystrophic neurites decreases cognitive function.

The Journal of neuroscience : the official journal of the Society for Neuroscience (2009-04-24)
Qi Shi, Xiangyou Hu, Marguerite Prior, Riqiang Yan
RÉSUMÉ

Reticulon 3 (RTN3) has been shown to mark a distinct and abundant population of dystrophic neurites named RTN3 immunoreactive dystrophic neurites (RIDNs) in patients' brains of Alzheimer disease (AD). Transgenic mice expressing RTN3 (Tg-RTN3) also spontaneously develop RIDNs. To determine whether RIDNs formed in Tg-RTN3 mice would ever naturally occur in the nontransgenic mouse brain, we targeted our examination to elderly mouse brains on the basis that AD is an age-dependent neurodegenerative disease where the decline in cognitive function becomes progressively increased during the course of the disease. Here, we demonstrate that the distribution of RIDNs is abundant, rather than sporadic, in elderly but not young mouse brains. RIDNs in the elderly brain have two distinct populations: abundantly dispersed RIDNs that can only be marked by RTN3, and less abundantly clustered RIDNs that can be marked by multiple proteins including RTN3, ubiquitin, and phosphorylated neurofilament. The abundance of RIDNs in Tg-RTN3 mice at the age of 3 months resembles that of 24-month-old wild type mice, suggesting that this animal model mimics and accelerates the natural occurrence of RIDNs. Importantly, we demonstrate that preformed RIDNs appear to reduce dendritic spine density and synaptic function. Further analysis from mechanistic studies suggests that elevated levels of RTN3 lead to an imbalance in the axonal transport of RTN3, which results in the accumulation of RTN3 in swollen neurites. Collectively, these results suggest that blocking the formation of RIDNs may be a promising strategy to impede cognitive decline in the elderly and in AD patients.