Author
Listed:
- Hyunho Kim
(University of Maryland School of Medicine)
- Hangxue Xu
(University of Maryland School of Medicine)
- Qin Yao
(University of Maryland School of Medicine)
- Weizhe Li
(University of Maryland School of Medicine)
- Qiong Huang
(University of Maryland School of Medicine)
- Patricia Outeda
(University of Maryland School of Medicine)
- Valeriu Cebotaru
(The Johns Hopkins University School of Medicine)
- Marco Chiaravalli
(San Raffaele Scientific Institute)
- Alessandra Boletta
(San Raffaele Scientific Institute)
- Klaus Piontek
(The Johns Hopkins University School of Medicine)
- Gregory G. Germino
(National Institute of Diabetes and Digestive and Kidney Disease, National Institute of Health)
- Edward J. Weinman
(University of Maryland School of Medicine)
- Terry Watnick
(University of Maryland School of Medicine)
- Feng Qian
(University of Maryland School of Medicine)
Abstract
Primary cilia contain specific receptors and channel proteins that sense the extracellular milieu. Defective ciliary function causes ciliopathies such as autosomal dominant polycystic kidney disease (ADPKD). However, little is known about how large ciliary transmembrane proteins traffic to the cilia. Polycystin-1 (PC1) and -2 (PC2), the two ADPKD gene products, are large transmembrane proteins that co-localize to cilia where they act to control proper tubular diameter. Here we describe that PC1 and PC2 must interact and form a complex to reach the trans-Golgi network (TGN) for subsequent ciliary targeting. PC1 must also be proteolytically cleaved at a GPS site for this to occur. Using yeast two-hybrid screening coupled with a candidate approach, we identify a Rabep1/GGA1/Arl3-dependent ciliary targeting mechanism, whereby Rabep1 couples the polycystin complex to a GGA1/Arl3-based ciliary trafficking module at the TGN. This study provides novel insights into the ciliary trafficking mechanism of membrane proteins.
Suggested Citation
Hyunho Kim & Hangxue Xu & Qin Yao & Weizhe Li & Qiong Huang & Patricia Outeda & Valeriu Cebotaru & Marco Chiaravalli & Alessandra Boletta & Klaus Piontek & Gregory G. Germino & Edward J. Weinman & Ter, 2014.
"Ciliary membrane proteins traffic through the Golgi via a Rabep1/GGA1/Arl3-dependent mechanism,"
Nature Communications, Nature, vol. 5(1), pages 1-13, December.
Handle:
RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms6482
DOI: 10.1038/ncomms6482
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