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Cryo-EM analysis of PIP2 regulation in mammalian GIRK channels
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G-protein-gated inward rectifier potassium (GIRK) channels are regulated by G proteins and PIP
2
. Here, using cryo-EM single particle analysis we describe the equilibrium ensemble of structures of neuronal GIRK2 as a function of the C8-PIP
2
concentration. We find that PIP
2
shifts the equilibrium between two distinguishable structures of neuronal GIRK (GIRK2), extended and docked, towards the docked form. In the docked form the cytoplasmic domain, to which G
βγ
binds, becomes accessible to the cytoplasmic membrane surface where G
βγ
resides. Furthermore, PIP
2
binding reshapes the G
βγ
binding surface on the cytoplasmic domain, preparing it to receive G
βγ
. We find that cardiac GIRK (GIRK1/4) can also exist in both extended and docked conformations. These findings lead us to conclude that PIP
2
influences GIRK channels in a structurally similar manner to Kir2.2 channels. In Kir2.2 channels, the PIP
2
-induced conformational changes open the pore. In GIRK channels, they prepare the channel for activation by G
βγ
.
Title: Cryo-EM analysis of PIP2 regulation in mammalian GIRK channels
Description:
G-protein-gated inward rectifier potassium (GIRK) channels are regulated by G proteins and PIP
2
.
Here, using cryo-EM single particle analysis we describe the equilibrium ensemble of structures of neuronal GIRK2 as a function of the C8-PIP
2
concentration.
We find that PIP
2
shifts the equilibrium between two distinguishable structures of neuronal GIRK (GIRK2), extended and docked, towards the docked form.
In the docked form the cytoplasmic domain, to which G
βγ
binds, becomes accessible to the cytoplasmic membrane surface where G
βγ
resides.
Furthermore, PIP
2
binding reshapes the G
βγ
binding surface on the cytoplasmic domain, preparing it to receive G
βγ
.
We find that cardiac GIRK (GIRK1/4) can also exist in both extended and docked conformations.
These findings lead us to conclude that PIP
2
influences GIRK channels in a structurally similar manner to Kir2.
2 channels.
In Kir2.
2 channels, the PIP
2
-induced conformational changes open the pore.
In GIRK channels, they prepare the channel for activation by G
βγ
.
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