Sleigh, J; Schiavo, G; (2016) Older but not slower: aging does not alter axonal transport dynamics of signalling endosomes in vivo. Matters , 2016 10.19185/matters.201605000018. (In press).

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Abstract

Efficient bi-directional axonal transport is critical for the function and survival of neurons. Defects in this process have been identified in early stages of several late-onset neurological disease models. Axonal transport is also thought to naturally decline with age, which could exacerbate pathological deficiencies and may alter disease onset and/or progression. Here, by using the atoxic binding fragment of tetanus neurotoxin (HcT), we monitored the transport kinetics of axonal signalling endosomes, which are intracellular compartments essential for neuronal differentiation and homeostasis. HcT can be injected into muscles, where it is taken up by nerve termini and hijacks the retrograde delivery of signalling endosomes. Assessing the dynamic properties of signalling endosomes in live, female, wild-type mice aged from one to over 13 months, we saw no significant alterations in transport speeds or pausing. Our work indicates that decline in signalling endosome kinetics does not occur before one year in vivo, suggesting that its deterioration during normal ageing is unlikely to be affecting previously reported disease-associated endosome transport deficits.

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