Abstract
AbstractMany 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.
Publisher
Cold Spring Harbor Laboratory