Nature 2005 Apr 14;4347035:898-904. doi: 10.1038/nature03478.

Requirement of TRPC channels in netrin-1-induced chemotropic turning of nerve growth cones.

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Ion channels formed by the TRP (transient receptor potential) superfamily of proteins act as sensors for temperature, osmolarity, mechanical stress and taste. The growth cones of developing axons are responsible for sensing extracellular guidance factors, many of which trigger Ca2+ influx at the growth cone; however, the identity of the ion channels involved remains to be clarified. Here, we report that TRP-like channel activity exists in the growth cones of cultured Xenopus neurons and can be modulated by exposure to netrin-1 and brain-derived neurotrophic factor, two chemoattractants for axon guidance. Whole-cell recording from growth cones showed that netrin-1 induced a membrane depolarization, part of which remained after all major voltage-dependent channels were blocked. Furthermore, the membrane depolarization was sensitive to blockers of TRP channels. Pharmacological blockade of putative TRP currents or downregulation of Xenopus TRP-1 (xTRPC1) expression with a specific morpholino oligonucleotide abolished the growth-cone turning and Ca2+ elevation induced by a netrin-1 gradient. Thus, TRPC currents reflect early events in the growth cone's detection of some extracellular guidance signals, resulting in membrane depolarization and cytoplasmic Ca2+ elevation that mediates the turning of growth cones.

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Species referenced: Xenopus laevis
Genes referenced: ntn1
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