TY - JOUR
T1 - Axonal elongation triggered by stimulus-induced local translation of a polarity complex protein
AU - Hengst, Ulrich
AU - Deglincerti, Alessia
AU - Kim, Hyung Joon
AU - Jeon, Noo Li
AU - Jaffrey, Samie R.
N1 - Funding Information:
We thank T. Pawson (Samuel Lunenfeld Research Institute, Mount Sinai Hospital, Canada) for the PAR6 antibody, S. Schlesinger and A. Jeromin for Sindbis plasmids, J. Harris (University of California Irvine, USA), for preparing masters for casting microfluidic chambers and members of the Jaffrey laboratory for helpful discussions. This research was supported by the National Institute of Neurological Diseases and Stroke, a Klingenstein Fellowship in the Neurosciences, Irma T. Hirschl and Monique Weill‑Caulier Trusts Career Scientist Award, the New York State Spinal Cord Injury Research Board (S.R.J.), a predoctoral fellowship from Boehringer Ingelheim Fonds (A.D.), a fellowship from the Paralysis Project of America and a Pathway to Independence Award (K99) from the National Institute of Mental Health (U.H.).
PY - 2009
Y1 - 2009
N2 - During development, axon growth rates are precisely regulated to provide temporal control over pathfinding. The precise temporal regulation of axonal growth is a key step in the formation of functional synapses and the proper patterning of the nervous system. The rate of axonal elongation is increased by factors such as netrin-1 and nerve growth factor (NGF), which stimulate axon outgrowth using incompletely defined pathways. To clarify the mechanism of netrin-1- and NGF-stimulated axon growth, we explored the role of local protein translation. We found that intra-axonal protein translation is required for stimulated, but not basal, axon outgrowth. To identify the mechanism of translation-dependent outgrowth, we examined the PAR complex, a cytoskeleton regulator. We found that the PAR complex, like local translation, is required for stimulated, but not basal, outgrowth. Par3 mRNA is localized to developing axons, and NGF and netrin-1 trigger its local translation. Selective ablation of Par3 mRNA from axons abolishes the outgrowth-promoting effect of NGF. These results identify a new role for local translation and the PAR complex in axonal outgrowth.
AB - During development, axon growth rates are precisely regulated to provide temporal control over pathfinding. The precise temporal regulation of axonal growth is a key step in the formation of functional synapses and the proper patterning of the nervous system. The rate of axonal elongation is increased by factors such as netrin-1 and nerve growth factor (NGF), which stimulate axon outgrowth using incompletely defined pathways. To clarify the mechanism of netrin-1- and NGF-stimulated axon growth, we explored the role of local protein translation. We found that intra-axonal protein translation is required for stimulated, but not basal, axon outgrowth. To identify the mechanism of translation-dependent outgrowth, we examined the PAR complex, a cytoskeleton regulator. We found that the PAR complex, like local translation, is required for stimulated, but not basal, outgrowth. Par3 mRNA is localized to developing axons, and NGF and netrin-1 trigger its local translation. Selective ablation of Par3 mRNA from axons abolishes the outgrowth-promoting effect of NGF. These results identify a new role for local translation and the PAR complex in axonal outgrowth.
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U2 - 10.1038/ncb1916
DO - 10.1038/ncb1916
M3 - Article
C2 - 19620967
AN - SCOPUS:68249104696
SN - 1465-7392
VL - 11
SP - 1024
EP - 1030
JO - Nature Cell Biology
JF - Nature Cell Biology
IS - 8
ER -