Fumiya K Sano scite author profile

Lysophosphatidic acid receptor 1 (LPA1) is one of the six G protein-coupled receptors activated by the bioactive lipid, lysophosphatidic acid (LPA). LPA1 is a drug target for various diseases, including cancer, inflammation, and neuropathic pain. Notably, LPA1 agonists have potential therapeutic value for obesity and urinary incontinence. Here, we report a cryo-electron microscopy structure of the active human LPA1-Gi complex bound to ONO-0740556, an LPA analog with more potent activity against LPA1. Our structure elucidated the details of the agonist binding mode and receptor activation mechanism mediated by rearrangements of transmembrane segment 7 and the central hydrophobic core. A structural comparison of LPA1 and other phylogenetically-related lipid-sensing GPCRs identified the structural determinants for lipid preference of LPA1. Moreover, we characterized the structural polymorphisms at the receptor-G-protein interface, which potentially reflect the G-protein dissociation process. Our study provides insights into the detailed mechanism of LPA1 binding to agonists and paves the way toward the design of drug-like agonists targeting LPA1.

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Cryo-EM structure of the transposon-associated TnpB enzyme

Nakagawa

Hirano

Omura

et al. 2023

Nature

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The class 2 type V CRISPR effector Cas12 is thought to have evolved from the IS200/IS605 superfamily of transposon-associated TnpB proteins1. Recent studies have identified TnpB proteins as miniature RNA-guided DNA endonucleases2,3. TnpB associates with a single, long RNA (ωRNA) and cleaves double-stranded DNA targets complementary to the ωRNA guide. However, the RNA-guided DNA cleavage mechanism of TnpB and its evolutionary relationship with Cas12 enzymes remain unknown. Here we report the cryo-electron microscopy (cryo-EM) structure of Deinococcus radiodurans ISDra2 TnpB in complex with its cognate ωRNA and target DNA. In the structure, the ωRNA adopts an unexpected architecture and forms a pseudoknot, which is conserved among all guide RNAs of Cas12 enzymes. Furthermore, the structure, along with our functional analysis, reveals how the compact TnpB recognizes the ωRNA and cleaves target DNA complementary to the guide. A structural comparison of TnpB with Cas12 enzymes suggests that CRISPR–Cas12 effectors acquired an ability to recognize the protospacer-adjacent motif-distal end of the guide RNA–target DNA heteroduplex, by either asymmetric dimer formation or diverse REC2 insertions, enabling engagement in CRISPR–Cas adaptive immunity. Collectively, our findings provide mechanistic insights into TnpB function and advance our understanding of the evolution from transposon-encoded TnpB proteins to CRISPR–Cas12 effectors.

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Phototrophy by antenna-containing rhodopsin pumps in aquatic environments

Chazan

Das

Fujiwara

et al. 2023

Nature

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Cryo-EM structure of the endothelin-1-ETB-Gi complex

Sano

Akasaka

Shihoya

et al. 2023

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The endothelin ETB receptor is a promiscuous G-protein coupled receptor that is activated by vasoactive peptide endothelins. ETB signaling induces reactive astrocytes in the brain and vasorelaxation in vascular smooth muscle. Consequently, ETB agonists are expected to be drugs for neuroprotection and improved anti-tumor drug delivery. Here, we report the cryo-electron microscopy structure of the endothelin-1-ETB-Gi complex at 2.8 Å resolution, with complex assembly stabilized by a newly established method. Comparisons with the inactive ETB receptor structures revealed how endothelin-1 activates the ETB receptor. The NPxxY motif, essential for G-protein activation, is not conserved in ETB, resulting in a unique structural change upon G-protein activation. Compared with other GPCR-G-protein complexes, ETB binds Gi in the shallowest position, further expanding the diversity of G-protein binding modes. This structural information will facilitate the elucidation of G-protein activation and the rational design of ETB agonists.

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Cryo-EM structure of the endothelin-1-ET_B-G_icomplex

Sano

Akasaka

Shihoya

et al. 2023

Preprint

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The endothelin ETB receptor is a promiscuous G-protein coupled receptor, activated by vasoactive peptide endothelins. ETB signaling induces reactive astrocytes in the brain and vasorelaxation in vascular smooth muscle, and thus ETB agonists are expected to be utilized for neuroprotection and improved anti-tumor drug delivery. Here, we report a cryo-electron microscopy structure of the endothelin-1-ETB-Gi complex at 2.9-Å resolution, with complex assembly stabilized by a newly established method. Comparisons with the inactive ETB receptor structures revealed how endothelin-1 activates the ETB receptor. The NPxxY motif, which is essential for Gprotein activation, is not conserved in ETB, resulting in a unique structural change upon G-protein activation. As Compared with other GPCR-G-protein complexes, ETB binds Gi at the shallowest position, thus expanding the diversity of G-protein binding. This structural information will facilitate the elucidation of G-protein activation and the rational design of ETB-agonists.

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Fumiya K Sano

Structure of the active Gi-coupled human lysophosphatidic acid receptor 1 complexed with a potent agonist

Cryo-EM structure of the transposon-associated TnpB enzyme

Phototrophy by antenna-containing rhodopsin pumps in aquatic environments

Cryo-EM structure of the endothelin-1-ETB-Gi complex

Cryo-EM structure of the endothelin-1-ET_B-G_icomplex

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Fumiya K Sano

Structure of the active Gi-coupled human lysophosphatidic acid receptor 1 complexed with a potent agonist

Cryo-EM structure of the transposon-associated TnpB enzyme

Phototrophy by antenna-containing rhodopsin pumps in aquatic environments

Cryo-EM structure of the endothelin-1-ETB-Gi complex

Cryo-EM structure of the endothelin-1-ETB-Gicomplex

Contact Info

Product

Resources

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Cryo-EM structure of the endothelin-1-ET_B-G_icomplex