Gip1 structure places G proteins in lockdown
- Date:
- November 26, 2018
- Source:
- Osaka University
- Summary:
- Heterotrimeric G proteins are important in G protein-coupled receptor signaling, which is important in the detection of various stimuli. Here, researchers found that the protein that regulates activities of G proteins, Gip1, contains a hydrophobic (water-fearing) space, with a unique molecular bonding arrangement that allows interactions with G proteins. These interactions remove G proteins from the cell membrane and sequester G proteins in the cytosol.
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Heterotrimeric G proteins are important in G protein-coupled receptor signaling, which plays many roles in the detection of various environmental stimuli, including hormones, neurotransmitters, light, smells, and chemical signals. G protein functions are regulated by interactions with Gip1, a protein that sequesters G proteins to block signaling processes. Many studies have attempted to understand the mechanism for this interaction between G proteins and Gip1; none have provided a clear explanation, until now.
In a new study published in Nature Communications, a research team, led by experts from Osaka University, investigated the structure of Gip1 to better understand how Gip1 sequesters G proteins in the cytosol, away from their primary location at the cell membrane. They found that Gip1 contains a hydrophobic (water-fearing) space, with a unique molecular bonding arrangement that allows interactions with G proteins.
"We found that the Gip1 hydrophobic cavity, as well as the hydrogen bond network at its entrance, are critical in the ability of Gip1 to mask the membrane-binding region of heterotrimeric G proteins," says corresponding author Masahiro Ueda. "Experimentally modifying either of these aspects greatly impacted the abilities of Gip1 to bind G proteins and release those proteins when needed."
In the study, the hydrophobic cavity was shown to involve six alpha helices, which is an unusual structural composition for this type of cavity. Because of this unique structure, although Gip1 is similar to other proteins that bind hydrophobic groups, it solely binds to heterotrimeric G proteins.
"Our analyses revealed unique aspects of solubilization of lipophilic G proteins as a regulatory mechanism during eukaryotic chemotaxis, which we used as a model system," says lead author Takero Miyagawa. "Because heterotrimeric G proteins are involved in many different signal transduction processes, our findings are important to both basic science advancements and potential drug development."
In addition to providing a better understanding of the mechanism for Gip1 interaction with G proteins, the researchers showed how this interaction might be disrupted, which may be important in understanding diseases caused by defects in signal transduction.
Story Source:
Materials provided by Osaka University. Note: Content may be edited for style and length.
Journal Reference:
- Takero Miyagawa, Hiroyasu Koteishi, Yoichiro Kamimura, Yukihiro Miyanaga, Kohei Takeshita, Atsushi Nakagawa, Masahiro Ueda. Structural basis of Gip1 for cytosolic sequestration of G protein in wide-range chemotaxis. Nature Communications, 2018; 9 (1) DOI: 10.1038/s41467-018-07035-x
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