Abstract
GoLoco (GL) motif-containing proteins regulate G protein signaling by binding to Gα subunit and acting as guanine nucleotide dissociation inhibitors. GLs of LGN are also known to bind the GDP form of Gα(i/o) during asymmetric cell division. Here, we show that the C-terminal GL domain of LGN binds four molecules of Gα(i)·GDP. The crystal structures of Gα(i)·GDP in complex with LGN GL3 and GL4, respectively, reveal distinct GL/Gα(i) interaction features when compared with the only high resolution structure known with GL/Gα(i) interaction between RGS14 and Gα(i1.) Only a few residues C-terminal to the conserved GL sequence are required for LGN GLs to bind to Gα(i)·GDP. A highly conserved "double Arg finger" sequence (RΨ(D/E)(D/E)QR) is responsible for LGN GL to bind to GDP bound to Gα(i). Together with the sequence alignment, we suggest that the LGN GL/Gα(i) interaction represents a general binding mode between GL motifs and Gα(i). We also show that LGN GLs are potent guanine nucleotide dissociation inhibitors.
Highlights
GoLoco (GL) motif binds to G␣ and inhibits its guanine nucleotide dissociation
We show that LGN GLs are potent guanine nucleotide dissociation inhibitors
We demonstrate that in contrast to the RGS14/ G proteins (G␣)i1⁄7GDP interaction, only a few residues of the highly variable sequences C-terminal to the conserved GoLoco motifs of LGN are involved in binding to G␣i1⁄7GDP
Summary
GoLoco (GL) motif binds to G␣ and inhibits its guanine nucleotide dissociation. Results: Crystal structures of LGN-GL3(4)1⁄7G␣i1(3) complexes reveal a double Arg finger-mediated GDP recognition mechanism, which is distinct from that shown in the RGS141⁄7G␣i1 complex. LGN is an evolutionarily conserved protein (Pins in Drosophila, and GPR1/2 in Caenorhabditis elegans) that plays crucial roles in regulating spindle orientations during asymmetric cell division [19, 21] and can be considered as an example member of the multiple GoLoco motif protein family It forms a ternary protein complex with nuclear mitotic apparatus protein NuMA (Mud in Drosophila and Lin in C. elegans) and cortical membrane-bound G␣i/o via its TPR repeats and GoLoco motifs, respectively [22,23,24,25,26,27,28]. The LGN GoLoco motifs can function as a G␣/LGN/NuMA/Insc scaffold as well as a regulator of G␣ signaling in asymmetric cell division
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