A Short Isoform of the UNC-6/Netrin Receptor UNC-5 is Required for Growth Cone Polarity and Robust Growth Cone Protrusion in

Overview

Journal Front Cell Dev Biol

Specialty Cell Biology

Date 2023 Aug 31

PMID 37649551

Authors

Snehal S Mahadik

Erik A Lundquist

Affiliations

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Abstract

UNC-6/Netrin is a conserved bi-functional guidance cue which regulates dorsal-ventral axon guidance in . In the Polarity/Protrusion model of UNC-6/Netrin mediated dorsal growth away from UNC-6/Netrin, The UNC-5 receptor first polarizes the VD growth cone such that filopodial protrusions are biased dorsally. Based on this polarity, the UNC-40/DCC receptor stimulates growth cone lamellipodial and filopodial protrusion dorsally. The UNC-5 receptor maintains dorsal polarity of protrusion, and inhibits growth cone protrusion ventrally, resulting in net dorsal growth cone advance. Growth cone imaging in mutants, combined with Cas9 genome editing and genetic analysis, were used to analyze the role of a novel short isoform on in growth cone polarity and protrusion. Work presented here demonstrates a novel role of a previously undescribed, conserved short isoform of UNC-5 (UNC-5B). UNC-5B lacks the cytoplasmic domains of UNC-5 long, including the DEATH domain, the UPA/DB domain, and most of the ZU5 domain. Mutations that specifically affect only the long isoforms were hypomorphic, suggesting a role of short. A mutation specifically affecting caused loss of dorsal polarity of protrusion and reduced growth cone filopodial protrusion, the opposite of long mutations. Transgenic expression of partially rescued axon guidance defects, and resulted in large growth cones. Tyrosine 482 (Y482) in the cytoplasmic juxtamembrane region has been shown to be important for UNC-5 function, and is present in both UNC-5 long and UNC-5B short. Results reported here show that Y482 is required for the function of UNC-5 long and for some functions of UNC-5B short. Finally, genetic interactions with and suggest that UNC-5B short acts in parallel to UNC-6/Netrin to ensure robust growth cone lamellipodial protrusion. These results demonstrate a previously-undescribed role for the UNC-5B short isoform, which is required for dorsal polarity of growth cone filopodial protrusion and to stimulate growth cone protrusion, in contrast to the previously-described role of UNC-5 long in inhibiting growth cone protrusion.

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