The N- or C-terminal cytoplasmic regions of P4-ATPases determine their cellular localization
Mammalian P4-ATPases specifically localize to the plasma membrane and the membranes of intracellular compartments. P4-ATPases contain 10 transmembrane domains, and their N- and C-terminal (NT and CT) regions face the cytoplasm. Among the ATP10 and ATP11 proteins of P4-ATPases, ATP10A, ATP10D, ATP11A...
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sg-ntu-dr.10356-1466422023-03-05T16:50:12Z The N- or C-terminal cytoplasmic regions of P4-ATPases determine their cellular localization Okamoto, Sayuri Naito, Tomoki Shigetomi, Ryo Kosugi, Yusuke Nakayama, Kazuhisa Takatsu, Hiroyuki Shin, Hye-Won Lee Kong Chian School of Medicine (LKCMedicine) Science::Medicine ATPase 10A ATPase 10D Mammalian P4-ATPases specifically localize to the plasma membrane and the membranes of intracellular compartments. P4-ATPases contain 10 transmembrane domains, and their N- and C-terminal (NT and CT) regions face the cytoplasm. Among the ATP10 and ATP11 proteins of P4-ATPases, ATP10A, ATP10D, ATP11A, and ATP11C localize to the plasma membrane, while ATP10B and ATP11B localize to late endosomes and early/recycling endosomes, respectively. We previously showed that the NT region of ATP9B is critical for its localization to the Golgi apparatus, while the CT regions of ATP11C isoforms are critical for Ca2+-dependent endocytosis or polarized localization at the plasma membrane. Here, we conducted a comprehensive analysis of chimeric proteins and found that the NT region of ATP10 proteins and the CT region of ATP11 proteins are responsible for their specific subcellular localization. Importantly, the ATP10B NT and the ATP11B CT regions were found to harbor a trafficking and/or targeting signal that allows these P4-ATPases to localize to late endosomes and early/recycling endosomes, respectively. Moreover, dileucine residues in the NT region of ATP10B were required for its trafficking to endosomal compartments. These results suggest that the NT and CT sequences of P4-ATPases play a key role in their intracellular trafficking. Published version 2021-03-04T04:21:27Z 2021-03-04T04:21:27Z 2020 Journal Article Okamoto, S., Naito, T., Shigetomi, R., Kosugi, Y., Nakayama, K., Takatsu, H., & Shin, H.-W. (2020). The N- or C-terminal cytoplasmic regions of P4-ATPases determine their cellular localization. Molecular Biology of the Cell, 31(19), 2115-2124. doi:10.1091/mbc.E20-04-0225 1939-4586 https://hdl.handle.net/10356/146642 10.1091/mbc.E20-04-0225 32614659 2-s2.0-85090172870 19 31 2115 2124 en Molecular Biology of the Cell © 2020 Okamoto et al. This article is distributed by The American Society for Cell Biology under license from the author(s). Two months after publication it is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0). application/pdf |
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Science::Medicine ATPase 10A ATPase 10D |
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Science::Medicine ATPase 10A ATPase 10D Okamoto, Sayuri Naito, Tomoki Shigetomi, Ryo Kosugi, Yusuke Nakayama, Kazuhisa Takatsu, Hiroyuki Shin, Hye-Won The N- or C-terminal cytoplasmic regions of P4-ATPases determine their cellular localization |
| description |
Mammalian P4-ATPases specifically localize to the plasma membrane and the membranes of intracellular compartments. P4-ATPases contain 10 transmembrane domains, and their N- and C-terminal (NT and CT) regions face the cytoplasm. Among the ATP10 and ATP11 proteins of P4-ATPases, ATP10A, ATP10D, ATP11A, and ATP11C localize to the plasma membrane, while ATP10B and ATP11B localize to late endosomes and early/recycling endosomes, respectively. We previously showed that the NT region of ATP9B is critical for its localization to the Golgi apparatus, while the CT regions of ATP11C isoforms are critical for Ca2+-dependent endocytosis or polarized localization at the plasma membrane. Here, we conducted a comprehensive analysis of chimeric proteins and found that the NT region of ATP10 proteins and the CT region of ATP11 proteins are responsible for their specific subcellular localization. Importantly, the ATP10B NT and the ATP11B CT regions were found to harbor a trafficking and/or targeting signal that allows these P4-ATPases to localize to late endosomes and early/recycling endosomes, respectively. Moreover, dileucine residues in the NT region of ATP10B were required for its trafficking to endosomal compartments. These results suggest that the NT and CT sequences of P4-ATPases play a key role in their intracellular trafficking. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Okamoto, Sayuri Naito, Tomoki Shigetomi, Ryo Kosugi, Yusuke Nakayama, Kazuhisa Takatsu, Hiroyuki Shin, Hye-Won |
| format |
Article |
| author |
Okamoto, Sayuri Naito, Tomoki Shigetomi, Ryo Kosugi, Yusuke Nakayama, Kazuhisa Takatsu, Hiroyuki Shin, Hye-Won |
| author_sort |
Okamoto, Sayuri |
| title |
The N- or C-terminal cytoplasmic regions of P4-ATPases determine their cellular localization |
| title_short |
The N- or C-terminal cytoplasmic regions of P4-ATPases determine their cellular localization |
| title_full |
The N- or C-terminal cytoplasmic regions of P4-ATPases determine their cellular localization |
| title_fullStr |
The N- or C-terminal cytoplasmic regions of P4-ATPases determine their cellular localization |
| title_full_unstemmed |
The N- or C-terminal cytoplasmic regions of P4-ATPases determine their cellular localization |
| title_sort |
n- or c-terminal cytoplasmic regions of p4-atpases determine their cellular localization |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146642 |
| _version_ |
1759854901490352128 |