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IFT88 maintains sensory function by localising signalling proteins along Drosophila cilia.

Sascha WernerPilar Okenve-RamosPhilip HehlertSihem ZitouniPranjali PriyaSusana MendonçaAnje SporbertChristian SpalthoffMartin C GöpfertSwadhin Chandra JanaMónica Bettencourt-Dias
Published in: Life science alliance (2024)
Ciliary defects cause several ciliopathies, some of which have late onset, suggesting cilia are actively maintained. Still, we have a poor understanding of the mechanisms underlying their maintenance. Here, we show Drosophila melanogaste r IFT88 ( Dm IFT88/nompB) continues to move along fully formed sensory cilia. We further identify Inactive, a TRPV channel subunit involved in Drosophila hearing and negative-gravitaxis behaviour, and a yet uncharacterised Drosophila Guanylyl Cyclase 2d ( Dm Gucy2d/CG34357) as Dm IFT88 cargoes. We also show Dm IFT88 binding to the cyclase´s intracellular part, which is evolutionarily conserved and mutated in several degenerative retinal diseases, is important for the ciliary localisation of Dm Gucy2d. Finally, acute knockdown of both Dm IFT88 and Dm Gucy2d in ciliated neurons of adult flies caused defects in the maintenance of cilium function, impairing hearing and negative-gravitaxis behaviour, but did not significantly affect ciliary ultrastructure. We conclude that the sensory ciliary function underlying hearing in the adult fly requires an active maintenance program which involves Dm IFT88 and at least two of its signalling transmembrane cargoes, Dm Gucy2d and Inactive.
Keyphrases
  • protein kinase
  • late onset
  • glycemic control
  • type diabetes
  • spinal cord
  • drug induced
  • diabetic retinopathy
  • liver failure
  • weight loss
  • respiratory failure
  • drosophila melanogaster