Hongyu Shao scite author profile

Hongyu Shao

2Publications

22Citation Statements Received

213Citation Statements Given

How they've been cited

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149

207

Affiliations

University of Sheffield, MRC Centre for Regenerative Medicine, Regenerative Medicine Institute

Publications

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Molecular mechanisms mediating asymmetric subcellular localisation of the core planar polarity pathway proteins

Harrison

Shao

Strutt

et al. 2020

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Planar polarity refers to cellular polarity in an orthogonal plane to apicobasal polarity, and is seen across scales from molecular distributions of proteins to tissue patterning. In many contexts it is regulated by the evolutionarily conserved ‘core' planar polarity pathway that is essential for normal organismal development. Core planar polarity pathway components form asymmetric intercellular complexes that communicate polarity between neighbouring cells and direct polarised cell behaviours and the formation of polarised structures. The core planar polarity pathway consists of six structurally different proteins. In the fruitfly Drosophila melanogaster, where the pathway is best characterised, an intercellular homodimer of the seven-pass transmembrane protein Flamingo interacts on one side of the cell junction with the seven-pass transmembrane protein Frizzled, and on the other side with the four-pass transmembrane protein Strabismus. The cytoplasmic proteins Diego and Dishevelled are co-localised with Frizzled, and Prickle co-localises with Strabismus. Between these six components there are myriad possible molecular interactions, which could stabilise or destabilise the intercellular complexes and lead to their sorting into polarised distributions within cells. Post-translational modifications are key regulators of molecular interactions between proteins. Several post-translational modifications of core proteins have been reported to be of functional significance, in particular phosphorylation and ubiquitination. In this review, we discuss the molecular control of planar polarity and the molecular ecology of the core planar polarity intercellular complexes. Furthermore, we highlight the importance of understanding the spatial control of post-translational modifications in the establishment of planar polarity.

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Competence to epithelialise coincides with competence to differentiate in pluripotent cells

Lin

Tatar

Blin

et al. 2019

Preprint

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Pluripotent cells reorganise themselves into an epithelium before they initiate differentiation, but it is not clear how these two events are mechanistically linked. Here we use quantitative imaging approaches to measure cellular rearrangements that accompany exit from naive pluripotency. We show that competence to epithelialise, like competence to differentiate, is a regulated process. The pro-differentiation transcription factor Tcf15 prospectively identifies cells that are competent to epithelialise. We identify early upregulation of the laminin receptor integrin alpha3 prior to differentiation and show that Tcf15 helps to regulate this change. Finally, we show that Tcf15 identifies and is required for efficient differentiation of a primed subpopulation of pluripotent cells.We conclude that competence to epithelialise is actively regulated and linked to differentiationcompetence through the transcription factor Tcf15.

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Hongyu Shao

Molecular mechanisms mediating asymmetric subcellular localisation of the core planar polarity pathway proteins

Competence to epithelialise coincides with competence to differentiate in pluripotent cells

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