Structural insights into ligand recognition by the lysophosphatidic acid receptor LPA6

Taniguchi, Reiya; Inoue, Asuka; Sayama, Misa; Uwamizu, Akiharu; Yamashita, Keitaro; Hirata, Kunio; Yoshida, Masahito; Tanaka, Yoshiki; Kato, Hideaki E.; Nakada-Nakura, Yoshiko; Otani, Yuko; Nishizawa, Takashi; Doi, Takayuki; Ohwada, Tomohiko; Ishitani, Ryuichiro; Aoki, Junken; Nureki, Osamu

doi:10.1038/nature23448

Cited by 110 publications

(124 citation statements)

References 49 publications

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“…Alkyl chain packing and disorder is of continued interest across a range of fields, including biology where disorder may have an impact on ligand recognition processes in lipid bilayers, self‐assembly of liquid‐crystal materials, crystal engineering, and packing density in multilamellar liposomes . Understanding structural chemistry of biological membrane lipid bilayers is challenged by the difficulty of crystallising such systems, and there is an ongoing demand for spectroscopic approaches, such as solution nuclear magnetic resonance (NMR) and vibrational spectroscopy, for studying bilayer systems that are difficult or impossible to crystallise.…”

Section: Introductionmentioning

confidence: 99%

Quantifying alkyl chain disorder in crystalline models of lipid bilayers using Raman spectroscopy

Rich

Bhattacharyya

Aldilla

et al. 2018

J Raman Spectroscopy

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Crystalline bis‐N‐alkyl‐chlorotriazines 2–6 can be considered multilayers of lipid bilayers comprising a rigid hydrogen‐bonded tape in the polar layer separated by a lipid region of small to medium‐length alkyl chains. The persistent ordering of these tapes acts as a scaffold in the solid state enabling measurement of temperature‐induced conformational changes in the “lipid phase” using X‐ray crystallography. The alkyl chains in these structures are loosely packed but generally ordered at low temperature, undergoing a slow transition to a disordered structure clearly observed in the Raman spectrum. The longer‐chain derivatives 4–6 show a distinct Raman spectrum for the ordered and disordered crystallographic phases enabling a least squares fitting at each temperature point. Calibration of the Raman fit values for 5 and 6 using powder X‐ray diffraction allows a quantification of each phase and highlights the unique response of each derivative with temperature. This approach for quantifying the onset of disorder and structural phase transitions should be relevant to a wide range of lipid‐based systems.

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Section: Introductionmentioning

confidence: 99%

Quantifying alkyl chain disorder in crystalline models of lipid bilayers using Raman spectroscopy

Rich

Bhattacharyya

Aldilla

et al. 2018

J Raman Spectroscopy

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“…Thus, a drug discovery effort aimed at the development of LPA 2 GPCR-specific agonists was launched. Subsequent to the computational modeling of the EDG family GPCRs (6,7,9,10,32), several crystal structures of LPA and S1P GPCRs have been solved (24,(33)(34)(35). The validated computational models and the crystal structures now provide a robust modeling platform for virtual high-throughput-guided LPA GPCR ligand discovery.…”

Section: Virtual High-throughput Screening-guided Drug Design Of Lpa mentioning

confidence: 99%

Lysophosphatidic acid type 2 receptor agonists in targeted drug development offer broad therapeutic potential

Tigyi

Johnson

Lee

et al. 2019

Journal of Lipid Research

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The growth factor-like lipid mediator, lysophosphatidic acid (LPA), is a potent signaling molecule that influences numerous physiologic and pathologic processes. Manipulation of LPA signaling is of growing pharmacotherapeutic interest, especially because LPA resembles compounds with drug-like features. The action of LPA is mediated through activation of multiple types of molecular targets, including six G protein-coupled receptors that are clear targets for drug development. However, the LPA signaling has been linked to pathological responses that include promotion of fibrosis, atherogenesis, tumorigenesis, and metastasis. Thus, a question arises: Can we harness, in an LPA-like drug, the many beneficial activities of this lipid without eliciting its dreadful actions? We developed octadecyl thiophosphate (OTP; subsequently licensed as Rx100), an LPA mimic with higher stability in vivo than LPA. This article highlights progress made toward developing analogs like OTP and exploring prosurvival and regenerative LPA signaling. We determined that LPA prevents cell death triggered by various cellular stresses, including genotoxic stressors, and rescues cells condemned to apoptosis. LPA 2 agonists provide a new treatment option for secretory diarrhea and reduce gastric erosion caused by nonsteroidal anti-inflammatory drugs. The potential uses of LPA 2 agonists like OTP and sulfamoyl benzoic acid-based radioprotectins must be further explored for therapeutic uses.-Tigyi, G. J., L. R. acid type 2 receptor agonists in targeted drug development offer broad therapeutic potential. J. Lipid Res. 2019. 60: 464-474.Supplementary key words autotaxin • Rx100 • apoptosis • radiation mitigator • secretory diarrhea • gastric erosion • deoxyribonucleic acid damage repair

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“…We decided to use the active and inactive state homology models of CysLTR2 from the GPCRdb 34 , which are based on structural templates from the structures of the C-C chemokine receptor 5 (CCR5) for the inactive state 35 and the lysophosphatidic acid receptor 6 (LPA6) for the active state 36 . We introduced the L129Q 3.43 mutation with the Rosetta software to optimize the resulting models by local side-chain repacking and constrained energy minimization, and to predict the difference in free energies ΔΔG of the wild-type and mutant structures 37 .…”

Section: [Fig 3]mentioning

confidence: 99%

Uveal Melanoma OncogeneCYSLTR2Encodes a Constitutively Active GPCR Highly Biased Toward Gq Signaling

Ceraudo

Horioka

et al. 2019

Preprint

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The G protein-coupled receptor (GPCR) cysteinyl-leukotriene receptor 2 (CysLTR2) with a single amino acid mutation at position 3.43 (Leu replaced with Gln at position 129 in transmembrane helix 3) causes uveal melanoma in humans. The ability of CysLTR2-L129Q to cause malignant transformation has been hypothesized to result from constitutive activity. We show that CysLTR2-L129Q is a constitutively active mutant (CAM) that strongly drives Gq/11 signaling pathways in melan-a melanocytes and in HEK293T cells in culture. However, the mutant receptor only very weakly recruits beta-arrestins 1 and 2. The mutant receptor displays profound signaling bias while avoiding arrestin-mediated downregulation. The mechanism of the signaling bias results from the creation of a hydrogen-bond network that stabilizes the active G protein signaling state through novel interactions with the highly-conserved NPxxY motif on helix 7. Furthermore, the mutation destabilizes a putative allosteric sodium-binding site that usually stabilizes the inactive state of GPCRs. Thus, the mutation has a dual role of promoting the active state while destabilizing inactivating allosteric networks. The high degree of constitutive activity renders existing orthosteric antagonist ligands of CysLTR2 ineffective as inverse agonists of the mutant. CysLTR2 is the first example of a GPCR oncogene that encodes a GPCR with constitutive highly biased signaling that can escape cellular downregulation mechanisms.

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Structural insights into ligand recognition by the lysophosphatidic acid receptor LPA6

Cited by 110 publications

References 49 publications

Quantifying alkyl chain disorder in crystalline models of lipid bilayers using Raman spectroscopy

Quantifying alkyl chain disorder in crystalline models of lipid bilayers using Raman spectroscopy

Lysophosphatidic acid type 2 receptor agonists in targeted drug development offer broad therapeutic potential

Uveal Melanoma OncogeneCYSLTR2Encodes a Constitutively Active GPCR Highly Biased Toward Gq Signaling

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