Journal
MOLECULAR BIOLOGY OF THE CELL
Volume 26, Issue 9, Pages 1728-1742Publisher
AMER SOC CELL BIOLOGY
DOI: 10.1091/mbc.E15-01-0047
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Funding
- National Institutes of Health [GM34107, EY08531]
- Beca-Chile fellowship
- Pew Latin American Fellowship
- Dyson Foundation
- Research to Prevent Blindness Foundation
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In spite of the many key cellular functions of chloride channels, the mechanisms that mediate their subcellular localization are largely unknown. ClC-2 is a ubiquitous chloride channel usually localized to the basolateral domain of epithelia that regulates cell volume, ion transport, and acid-base balance; mice knocked out for ClC-2 are blind and sterile. Previous work suggested that CLC-2 is sorted basolaterally by (TIFSLL)-L-812, a dileucine motif in CLC-2's C-terminal domain. However, our in silico modeling of ClC-2 suggested that this motif was buried within the channel's dimerization interface and identified two cytoplasmically exposed dileucine motifs, (ESMILL)-L-623 and QVVA(635)LL, as candidate sorting signals. Alanine mutagenesis and trafficking assays support a scenario in which (ESMILL)-L-623 acts as the authentic basolateral signal of ClC-2. Silencing experiments and yeast three-hybrid assays demonstrated that both ubiquitous (AP-1A) and epithelium-specific (AP-1B) forms of the tetrameric clathrin adaptor AP-1 are capable of carrying out basolateral sorting of ClC-2 through interactions of (ESMILL)-L-623 with a highly conserved pocket in their gamma 1-sigma 1A hemicomplex.
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