Nobuo Tanaka scite author profile

Sphingosine-1-phosphate (S1P) regulates numerous important physiological functions, including immune response and vascular integrity, via its cognate receptors (S1PR1 to S1PR5); however, it remains unclear how S1P activates S1PRs upon binding. Here, we determined the crystal structure of the active human S1PR3 in complex with its natural agonist S1P at 3.2-Å resolution. S1P exhibits an unbent conformation in the long tunnel, which penetrates through the receptor obliquely. Compared with the inactive S1PR1 structure, four residues surrounding the alkyl tail of S1P (the “quartet core”) exhibit orchestrating rotamer changes that accommodate the moiety, thereby inducing an active conformation. In addition, we reveal that the quartet core determines G protein selectivity of S1PR3. These results offer insight into the structural basis of activation and biased signaling in G protein–coupled receptors and will help the design of biased ligands for optimized therapeutics.

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Preparation, x-ray molecular structure determination, and chemical properties of dinitrogen-coordinated cobalt complexes containing triphenylphosphine ligands and alkali metal or magnesium. Protonation of the coordinated dinitrogen to ammonia and hydrazine

Yamamoto¹,

Miura²,

Ito³

et al. 1983

Organometallics

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Isotope effects in hydrophobic binding measured by high-pressure liquid chromatography

Tanaka¹,

Thornton²

1976

J. Am. Chem. Soc.

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LPA Induces Keratinocyte Differentiation and Promotes Skin Barrier Function through the LPAR1/LPAR5-RHO-ROCK-SRF Axis

Sumitomo

Siriwach

Thumkeo

et al. 2019

Journal of Investigative Dermatology

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The skin barrier protects the body from water loss, allergens, and pathogens. Profilaggrin is produced by differentiated keratinocytes and is processed into filaggrin monomers. These monomers cross-link keratin filaments and are also decomposed to natural moisturizing factors in the stratum corneum for skin hydration and barrier function. Deficits in FLG expression impair skin barrier function and underlie skin diseases such as dry skin and atopic dermatitis. However, intrinsic factors that regulate FLG expression and their mechanisms of action remain unknown. Here, we show that lysophosphatidic acid induces FLG expression in human keratinocytes via the LPAR1 and LPAR5 receptors and the downstream RHO-ROCK-SRF pathway. Comprehensive gene profiling analysis further showed that lysophosphatidic acid not only induces FLG expression but also facilitates keratinocyte differentiation. Moreover, lysophosphatidic acid treatment significantly up-regulated FLG production in a three-dimensional culture model of human skin and promoted barrier function in mouse skin in vivo. Thus, our work shows a previously unsuspected role for lysophosphatidic acid and its downstream signaling in the maintenance of skin homeostasis, which may serve as a novel therapeutic target for skin barrier dysfunction.

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Nobuo Tanaka

Isolation and structure of the novel dihydroxamate siderophore alcaligin

Endogenous agonist–bound S1PR3 structure reveals determinants of G protein–subtype bias

Preparation, x-ray molecular structure determination, and chemical properties of dinitrogen-coordinated cobalt complexes containing triphenylphosphine ligands and alkali metal or magnesium. Protonation of the coordinated dinitrogen to ammonia and hydrazine

Isotope effects in hydrophobic binding measured by high-pressure liquid chromatography

LPA Induces Keratinocyte Differentiation and Promotes Skin Barrier Function through the LPAR1/LPAR5-RHO-ROCK-SRF Axis

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