The diffusion of a dye (left to right) is slowed by spines, especially those with large head/neck diameters (inset, right).

AUGUSTINE/ELSEVIER

Little bulbous neuronal protrusions known as spines slow diffusion along dendrites, say Fidel Santamaria, George Augustine (Duke University, Durham, NC), and colleagues. Based on their new data, they offer a new hypothesis for how active synapses are tagged during long-term potentiation (LTP).

Spines are thought to act locally by preventing the chemical messengers made at a synapse from leaking into the rest of the dendrite. But Augustine turned this idea around: he wondered whether spines affect the long-distance journey of chemicals along dendrites. Using fluorescent imaging, the group now shows that dendritic diffusion of both an inert dye and calcium-mobilizing IP3 is slowed when spine density is high.

Slowing occurs because signals that enter a spine do not always escape quickly. How long...

You do not currently have access to this content.