Xiaoyuan Ma scite author profile

Xiaoyuan Ma

5Publications

73Citation Statements Received

409Citation Statements Given

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Vrije Universiteit Amsterdam

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Development of a Conformational Histamine H₃ Receptor Biosensor for the Synchronous Screening of Agonists and Inverse Agonists

Schihada

Zabel

et al. 2020

ACS Sens.

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The histamine H 3 receptor (H 3 R) represents a highly attractive drug target for the treatment of various central nervous system disorders, but the discovery of novel H 3 R targeting compounds relies on the assessment of highly amplified intracellular signaling events that do not only reflect H 3 R modulation and carry the risk of high false-positive and -negative screening rates. To address these limitations, we designed an intramolecular H 3 R biosensor based on the principle of bioluminescence resonance energy transfer (BRET) that reports the receptor's real-time conformational dynamics and provides an advanced tool to screen for both H 3 R agonists and inverse agonists in a live cell screening-compatible assay format. This conformational G-proteincoupled receptor (GPCR) sensor allowed us to characterize the pharmacological properties of known and new H 3 receptor ligands with unprecedented accuracy. Interestingly, we found that one newly developed H 3 receptor ligand possesses even stronger inverse agonistic activity than reference H 3 R inverse agonists including the current gold standard pitolisant. Taken together, we describe here the design and validation of the first screening-compatible H 3 R conformational biosensor that will aid in the discovery of novel H 3 R ligands and can be employed to gain deeper insights into the (in-)activation mechanism of this highly attractive drug target.

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Genetically encoded sensors for measuring histamine release both in vitro and in vivo

Dong

Yan

et al. 2023

Neuron

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BRET-Based Biosensors to Measure Agonist Efficacies in Histamine H1 Receptor-Mediated G Protein Activation, Signaling and Interactions with GRKs and β-Arrestins

Verweij

Bosma

Gao

et al. 2022

IJMS

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The histamine H1 receptor (H1R) is a G protein-coupled receptor (GPCR) and plays a key role in allergic reactions upon activation by histamine which is locally released from mast cells and basophils. Consequently, H1R is a well-established therapeutic target for antihistamines that relieve allergy symptoms. H1R signals via heterotrimeric Gq proteins and is phosphorylated by GPCR kinase (GRK) subtypes 2, 5, and 6, consequently facilitating the subsequent recruitment of β-arrestin1 and/or 2. Stimulation of a GPCR with structurally different agonists can result in preferential engagement of one or more of these intracellular signaling molecules. To evaluate this so-called biased agonism for H1R, bioluminescence resonance energy transfer (BRET)-based biosensors were applied to measure H1R signaling through heterotrimeric Gq proteins, second messengers (inositol 1,4,5-triphosphate and Ca2+), and receptor-protein interactions (GRKs and β-arrestins) in response to histamine, 2-phenylhistamines, and histaprodifens in a similar cellular background. Although differences in efficacy were observed for these agonists between some functional readouts as compared to reference agonist histamine, subsequent data analysis using an operational model of agonism revealed only signaling bias of the agonist Br-phHA-HA in recruiting β-arrestin2 to H1R over Gq biosensor activation.

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Identification of TSPAN4 as Novel Histamine H4 Receptor Interactor

Verweij

Siderius

et al. 2021

Biomolecules

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The histamine H4 receptor (H4R) is a G protein-coupled receptor that is predominantly expressed on immune cells and considered to be an important drug target for various inflammatory disorders. Like most GPCRs, the H4R activates G proteins and recruits -arrestins upon phosphorylation by GPCR kinases to induce cellular signaling in response to agonist stimulation. However, in the last decade, novel GPCR-interacting proteins have been identified that may regulate GPCR functioning. In this study, a split-ubiquitin membrane yeast two-hybrid assay was used to identify H4R interactors in a Jurkat T cell line cDNA library. Forty-three novel H4R interactors were identified, of which 17 have also been previously observed in MYTH screens to interact with other GPCR subtypes. The interaction of H4R with the tetraspanin TSPAN4 was confirmed in transfected cells using bioluminescence resonance energy transfer, bimolecular fluorescence complementation, and co-immunoprecipitation. Histamine stimulation reduced the interaction between H4R and TSPAN4, but TSPAN4 did not affect H4R-mediated G protein signaling. Nonetheless, the identification of novel GPCR interactors by MYTH is a starting point to further investigate the regulation of GPCR signaling.

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Analysis of Missense Variants in the Human Histamine Receptor Family Reveals Increased Constitutive Activity of E4106.30×30K Variant in the Histamine H1 Receptor

Segura

Zarzycka

et al. 2021

IJMS

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The Exome Aggregation Consortium has collected the protein-encoding DNA sequences of almost 61,000 unrelated humans. Analysis of this dataset for G protein-coupled receptor (GPCR) proteins (available at GPCRdb) revealed a total of 463 naturally occurring genetic missense variations in the histamine receptor family. In this research, we have analyzed the distribution of these missense variations in the four histamine receptor subtypes concerning structural segments and sites important for GPCR function. Four missense variants R1273.52×52H, R13934.57×57H, R4096.29×29H, and E4106.30×30 K, were selected for the histamine H1 receptor (H1R) that were hypothesized to affect receptor activity by interfering with the interaction pattern of the highly conserved D(E)RY motif, the so-called ionic lock. The E4106.30×30 K missense variant displays higher constitutive activity in G protein signaling as compared to wild-type H1R, whereas the opposite was observed for R1273.52×52H, R13934.57×57H, and R4096.29×29H. The E4106.30×30 K missense variant displays a higher affinity for the endogenous agonist histamine than wild-type H1R, whereas antagonist affinity was not affected. These data support the hypothesis that the E4106.30×30 K mutation shifts the equilibrium towards active conformations. The study of these selected missense variants gives additional insight into the structural basis of H1R activation and, moreover, highlights that missense variants can result in pharmacologically different behavior as compared to wild-type receptors and should consequently be considered in the drug discovery process.

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Xiaoyuan Ma

Development of a Conformational Histamine H₃ Receptor Biosensor for the Synchronous Screening of Agonists and Inverse Agonists

Genetically encoded sensors for measuring histamine release both in vitro and in vivo

BRET-Based Biosensors to Measure Agonist Efficacies in Histamine H1 Receptor-Mediated G Protein Activation, Signaling and Interactions with GRKs and β-Arrestins

Identification of TSPAN4 as Novel Histamine H4 Receptor Interactor

Analysis of Missense Variants in the Human Histamine Receptor Family Reveals Increased Constitutive Activity of E4106.30×30K Variant in the Histamine H1 Receptor

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Xiaoyuan Ma

Development of a Conformational Histamine H3 Receptor Biosensor for the Synchronous Screening of Agonists and Inverse Agonists

Genetically encoded sensors for measuring histamine release both in vitro and in vivo

BRET-Based Biosensors to Measure Agonist Efficacies in Histamine H1 Receptor-Mediated G Protein Activation, Signaling and Interactions with GRKs and β-Arrestins

Identification of TSPAN4 as Novel Histamine H4 Receptor Interactor

Analysis of Missense Variants in the Human Histamine Receptor Family Reveals Increased Constitutive Activity of E4106.30×30K Variant in the Histamine H1 Receptor

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Development of a Conformational Histamine H₃ Receptor Biosensor for the Synchronous Screening of Agonists and Inverse Agonists