Peng Zou scite author profile

Patients with liver diseases often suffer from chronic itch, yet the pruritogen(s) and receptor(s) remain largely elusive. Here, we identify bile acids as natural ligands for MRGPRX4. MRGPRX4 is expressed in human dorsal root ganglion (hDRG) neurons and co-expresses with itch receptor HRH1. Bile acids elicited Ca2+ responses in cultured hDRG neurons, and bile acids or a MRGPRX4 specific agonist induced itch in human subjects. However, a specific agonist for another bile acid receptor TGR5 failed to induce itch in human subjects and we find that human TGR5 is not expressed in hDRG neurons. Finally, we show positive correlation between cholestatic itch and plasma bile acids level in itchy patients and the elevated bile acids is sufficient to activate MRGPRX4. Taken together, our data strongly suggest that MRGPRX4 is a novel bile acid receptor that likely underlies cholestatic itch in human, providing a promising new drug target for anti-itch therapies.

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Mapping spatial transcriptome with light-activated proximity-dependent RNA labeling

Wang

Tang

et al. 2019

Nat Chem Biol

102

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Trichoplein controls microtubule anchoring at the centrosome by binding to Odf2 and ninein

Ibi

Zou

Inoko

et al. 2011

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SummaryThe keratin cytoskeleton performs several functions in epithelial cells and provides regulated interaction sites for scaffold proteins, including trichoplein. Previously, we found that trichoplein was localized on keratin intermediate filaments and desmosomes in welldifferentiated, non-dividing epithelia. Here, we report that trichoplein is widely expressed and has a major function in the correct localization of the centrosomal protein ninein in epithelial and non-epithelial cells. Immunocytochemical analysis also revealed that this protein is concentrated at the subdistal to medial zone of both mother and daughter centrioles. Trichoplein binds the centrosomal proteins Odf2 and ninein, which are localized at the distal to subdistal ends of the mother centriole. Trichoplein depletion abolished the recruitment of ninein, but not Odf2, specifically at the subdistal end. However, Odf2 depletion inhibited the recruitment of trichoplein to a mother centriole, whereas ninein depletion did not. In addition, the depletion of each molecule impaired MT anchoring at the centrosome. These results suggest that trichoplein has a crucial role in MT-anchoring activity at the centrosome in proliferating cells, probably through its complex formation with Odf2 and ninein.

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The keratin-binding protein Albatross regulates polarization of epithelial cells

Sugimoto

Inoko

Shiromizu

et al. 2008

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The keratin intermediate filament network is abundant in epithelial cells, but its function in the establishment and maintenance of cell polarity is unclear. Here, we show that Albatross complexes with Par3 to regulate formation of the apical junctional complex (AJC) and maintain lateral membrane identity. In nonpolarized epithelial cells, Albatross localizes with keratin filaments, whereas in polarized epithelial cells, Albatross is primarily localized in the vicinity of the AJC. Knockdown of Albatross in polarized cells causes a disappearance of key components of the AJC at cell–cell borders and keratin filament reorganization. Lateral proteins E-cadherin and desmoglein 2 were mislocalized even on the apical side. Although Albatross promotes localization of Par3 to the AJC, Par3 and ezrin are still retained at the apical surface in Albatross knockdown cells, which retain intact microvilli. Analysis of keratin-deficient epithelial cells revealed that keratins are required to stabilize the Albatross protein, thus promoting the formation of AJC. We propose that keratins and the keratin-binding protein Albatross are important for epithelial cell polarization.

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Expanding APEX2 Substrates for Proximity‐Dependent Labeling of Nucleic Acids and Proteins in Living Cells

Zhou

Wang

et al. 2019

Angew Chem Int Ed

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The subcellular organization of biomolecules such as proteins and nucleic acids is intimately linked to their biological functions.A PEX2, an engineered ascorbate peroxidase that enables proximity-dependent labeling of proteins in living cells,has emerged as apowerful tool for deciphering the molecular architecture of various subcellular structures.However,only phenolic compounds have thus far been employed as APEX2 substrates,and the resulting phenoxyl radicals preferentially react with electron-rich amino acid residues.T his narrowscope of substrates could potentially limit the application of APEX2. In this study,wescreened apanel of aromatic compounds and identified biotin-conjugated arylamines as novel probes with significantly higher reactivity towards nucleic acids.A sademonstration of the spatial specificity and depth of coverageinmammalian cells,weapplied APEX2 labeling with biotin-aniline (Btn-An) in the mitochondrial matrix, capturing all 13 mitochondrial messenger RNAs and none of the cytoplasmic RNAs.A PEX2-mediated Btn-An labeling of RNAi st hus ap romising method for mapping the subcellular transcriptome,w hich could shed light on its functions in cell physiology.

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Peng Zou

MRGPRX4 is a bile acid receptor for human cholestatic itch

Mapping spatial transcriptome with light-activated proximity-dependent RNA labeling

Trichoplein controls microtubule anchoring at the centrosome by binding to Odf2 and ninein

The keratin-binding protein Albatross regulates polarization of epithelial cells

Expanding APEX2 Substrates for Proximity‐Dependent Labeling of Nucleic Acids and Proteins in Living Cells

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