PLoS Genetics (May 2020)

An EHBP-1-SID-3-DYN-1 axis promotes membranous tubule fission during endocytic recycling.

  • Jinghu Gao,
  • Linyue Zhao,
  • Qian Luo,
  • Shuyao Liu,
  • Ziyang Lin,
  • Peixiang Wang,
  • Xin Fu,
  • Juan Chen,
  • Hongjie Zhang,
  • Long Lin,
  • Anbing Shi

DOI
https://doi.org/10.1371/journal.pgen.1008763
Journal volume & issue
Vol. 16, no. 5
p. e1008763

Abstract

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The ACK family tyrosine kinase SID-3 is involved in the endocytic uptake of double-stranded RNA. Here we identified SID-3 as a previously unappreciated recycling regulator in the Caenorhabditis elegans intestine. The RAB-10 effector EHBP-1 is required for the endosomal localization of SID-3. Accordingly, animals with loss of SID-3 phenocopied the recycling defects observed in ehbp-1 and rab-10 single mutants. Moreover, we detected sequential protein interactions between EHBP-1, SID-3, NCK-1, and DYN-1. In the absence of SID-3, DYN-1 failed to localize at tubular recycling endosomes, and membrane tubules breaking away from endosomes were mostly absent, suggesting that SID-3 acts synergistically with the downstream DYN-1 to promote endosomal tubule fission. In agreement with these observations, overexpression of DYN-1 significantly increased recycling transport in SID-3-deficient cells. Finally, we noticed that loss of RAB-10 or EHBP-1 compromised feeding RNAi efficiency in multiple tissues, implicating basolateral recycling in the transport of RNA silencing signals. Taken together, our study demonstrated that in C. elegans intestinal epithelia, SID-3 acts downstream of EHBP-1 to direct fission of recycling endosomal tubules in concert with NCK-1 and DYN-1.