Author
Listed:
- Szu-Yi Chou
(Weill Cornell Medical College
Present address: Graduate Institute of Neural Regenerative Medicine, College of Medical Science and Technology, Taipei Medical University, Taipei 110, Taiwan.)
- Kuo-Shun Hsu
(Weill Cornell Medical College)
- Wataru Otsu
(Weill Cornell Medical College)
- Ya-Chu Hsu
(Weill Cornell Medical College)
- Yun-Cin Luo
(Weill Cornell Medical College)
- Celine Yeh
(Weill Cornell Medical College)
- Syed S. Shehab
(Institute for Pediatric Urology, Weill Cornell Medical College)
- Jie Chen
(Institute for Pediatric Urology, Weill Cornell Medical College)
- Vincent Shieh
(Weill Cornell Medical College)
- Guo-an He
(Weill Cornell Medical College)
- Michael B. Marean
(Institute for Pediatric Urology, Weill Cornell Medical College)
- Diane Felsen
(Institute for Pediatric Urology, Weill Cornell Medical College)
- Aihao Ding
(Weill Cornell Medical College)
- Dix P. Poppas
(Institute for Pediatric Urology, Weill Cornell Medical College)
- Jen-Zen Chuang
(Weill Cornell Medical College)
- Ching-Hwa Sung
(Weill Cornell Medical College
Weill Cornell Medical College)
Abstract
Chloride intracellular channel 4 (CLIC4) is a mammalian homologue of EXC-4 whose mutation is associated with cystic excretory canals in nematodes. Here we show that CLIC4-null mouse embryos exhibit impaired renal tubulogenesis. In both developing and developed kidneys, CLIC4 is specifically enriched in the proximal tubule epithelial cells, in which CLIC4 is important for luminal delivery, microvillus morphogenesis, and endolysosomal biogenesis. Adult CLIC4-null proximal tubules display aberrant dilation. In MDCK 3D cultures, CLIC4 is expressed on early endosome, recycling endosome and apical transport carriers before reaching its steady-state apical membrane localization in mature lumen. CLIC4 suppression causes impaired apical vesicle coalescence and central lumen formation, a phenotype that can be rescued by Rab8 and Cdc42. Furthermore, we show that retromer- and branched actin-mediated trafficking on early endosome regulates apical delivery during early luminogenesis. CLIC4 selectively modulates retromer-mediated apical transport by negatively regulating the formation of branched actin on early endosomes.
Suggested Citation
Szu-Yi Chou & Kuo-Shun Hsu & Wataru Otsu & Ya-Chu Hsu & Yun-Cin Luo & Celine Yeh & Syed S. Shehab & Jie Chen & Vincent Shieh & Guo-an He & Michael B. Marean & Diane Felsen & Aihao Ding & Dix P. Poppas, 2016.
"CLIC4 regulates apical exocytosis and renal tube luminogenesis through retromer- and actin-mediated endocytic trafficking,"
Nature Communications, Nature, vol. 7(1), pages 1-14, April.
Handle:
RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms10412
DOI: 10.1038/ncomms10412
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Citations
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Cited by:
- Cheng Fu & Nan Yang & Jen-Zen Chuang & Nobuyuki Nakajima & Satoshi Iraha & Neeta Roy & Zhenquan Wu & Zhichun Jiang & Wataru Otsu & Roxana A. Radu & Howard Hua Yang & Maxwell Ping Lee & Tilla S. Worgal, 2024.
"Mutant mice with rod-specific VPS35 deletion exhibit retinal α-synuclein pathology-associated degeneration,"
Nature Communications, Nature, vol. 15(1), pages 1-19, December.
- Bar Manori & Alisa Vaknin & Pavla Vaňková & Anat Nitzan & Ronen Zaidel-Bar & Petr Man & Moshe Giladi & Yoni Haitin, 2024.
"Chloride intracellular channel (CLIC) proteins function as fusogens,"
Nature Communications, Nature, vol. 15(1), pages 1-14, December.
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