New survival mechanism for neurons found
Johns Hopkins researchers have clarified the workings of the microtubule network inside of axons and the mechanisms of retrograde transport of key neuronal survival signals.
Using mouse neurons from ganglia that line the spinal column, the scientists figured out the signal known as nerve growth factor (NGF) travels along the axon to the command center of the cell, the cell body. They also found that a related signal known as NT3 doesn’t support travel of a survival signal back to the cell body.
The team then analyzed all the protein components of NGF signaling for the purpose of pinpointing the key component that supports long-range signaling and neuronal survival. They found that the Raca protein is present in NGF signals but missing from NT3. (Rac regulates components of the cytoskeletal roadway along which molecular machinery assembles cargo to be moved up the axon toward a target tissue or back down to the cell body.)
Because neurons die in mice that are engineered to lack either NT3 or NGF, conventional wisdom held that both NFG and NT3 are survival factors. This new work reveals an important distinction between the two by showing how and why NGF — but not NT3 — is capable of making the long trip to the cell body to support neuron survival.
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