UNC-6/Netrin and its Receptors UNC-5 and UNC-40/DCC Control Growth Cone Polarity, Microtubule Accumulation, and Protrusion
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Abstract
Many axon guidance ligands and their receptors have been identified, but it is still unclear how these ligand-receptor interactions regulate events in the growth cone, such as protrusion and cytoskeletal arrangement, during directed outgrowth in vivo . In this work, we dissect the multiple and complex effects of UNC-6/Netrin on the growth cone. Previous studies showed that in C. elegans , the UNC-6/Netrin receptor UNC-5 regulates growth cone polarity, as evidenced by loss of asymmetric dorsal F-actin localization and protrusion in unc-5 mutants. UNC-5 and another UNC-6/Netrin receptor UNC-40/DCC also regulate the extent of protrusion, with UNC-40/DCC driving protrusion and UNC-5 inhibiting protrusion. In this work we analyze the roles of UNC-6/Netrin, UNC-40/DCC, and UNC-5 in coordinating growth cone F-actin localization, microtubule organization, and protrusion that results in directed outgrowth away from UNC-6/Netrin. We find that a previously-described pathway involving the UNC-73/Trio Rac GEF and UNC-33/CRMP that acts downstream of UNC-5, regulates growth cone dorsal asymmetric F-actin accumulation and protrusion. unc-5 and unc-33 mutants also display excess EBP-2::GFP puncta, suggesting that MT + end accumulation is important in growth cone polarity and/or protrusion. unc-73 Rac GEF mutants did not display excess EBP-2::GFP puncta despite larger and more protrusive growth cones, indicating a MT-independent mechanism to polarize the growth cone and to inhibit protrusion, possibly via actin. Finally, we show that UNC-6/Netrin and UNC-40/DCC are required for excess protrusion in unc-5 mutants, but not for loss of F-actin asymmetry or MT + end accumulation, indicating that UNC-6/Netrin and UNC-40/DCC are required for protrusion downstream of F-actin asymmetry and MT + end entry. Our data suggest a model in which UNC-6/Netrin polarizes the growth cone via UNC-5, and then regulates a balance of pro- and anti-protrusive forces driven by UNC-40 and UNC-5, respectively, that result in directed protrusion and outgrowth.
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