The primary cilium (PC), a plasma membrane microtubule-based structure, is a sensor of extracellular chemical and mechanical stress stimuli. Upon ciliogenesis, the autophagy protein ATG16L1 and the ciliary protein IFT20 are co-transported to the PC. We demonstrated in a recent study that IFT20 and ATG16L1 interact in a multiprotein complex. This interaction is mediated by the ATG16L1 WD40 domain and an ATG16L1-binding motif newly identified in IFT20. ATG16L1-deficient cells are decorated by giant ciliary structures hallmarked by defects in PC-associated signaling. These structures uncommonly accumulate phosphatidylinositol-4,5-bisphosphate (PtdIns[4,5]P) while phosphatidylinositol-4-phosphate (PtdIns4P), a lipid normally concentrated in the PC, is excluded. We show that INPP5E, a phosphoinositide-associated phosphatase responsible for PtdIns4P generation, is a partner of ATG16L1 in this context. Perturbation of the ATG16L1-IFT20 complex alters INPP5E trafficking and proper function at the ciliary membrane. Altogether, these results reveal a novel autophagy-independent function of ATG16L1 that contributes to proper PC dynamics and function.
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| http://dx.doi.org/10.1080/15548627.2021.1935004 | DOI Listing |
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