<p>Heparan sulfate proteoglycans (HSPGs) have been recognized as key plasma membrane-tethered co-receptors for a broad range of growth factors and cytokines containing cationic heparan-binding domains<sup><CitationRef CitationID="CR1">1</CitationRef>,<CitationRef CitationID="CR2">2</CitationRef></sup>. However, how HSPGs mechanistically mediate signalling at the cell surface—particularly in the context of cell&#xa0;surface RNA—remain poorly understood. During developmental and disease processes, vascular endothelial growth factor (VEGF-A), a heparan sulfate-binding factor, regulates endothelial cell growth and angiogenesis<sup><CitationRef CitationID="CR3">3</CitationRef></sup>. The regulatory paradigm for endothelial cell-mediated selectively of VEGF-A binding and activity has largely been focused on understanding the selective sulfation of the anionic heparan sulfate chains<sup><CitationRef AdditionalCitationIDS="CR5 CR6 CR7" CitationID="CR4">4</CitationRef>–<CitationRef CitationID="CR8">8</CitationRef></sup>. Here we examine the organizational rules of a new class of anionic cell&#xa0;surface conjugates, glycoRNAs<sup><CitationRef CitationID="CR9">9</CitationRef>,<CitationRef CitationID="CR10">10</CitationRef></sup>, and cell&#xa0;surface RNA-binding proteins (csRBPs<sup><CitationRef CitationID="CR11">11</CitationRef>,<CitationRef CitationID="CR12">12</CitationRef></sup>). Leveraging genome-scale knockout screens, we discovered that heparan sulfate biosynthesis and specifically the 6-<i>O</i>-sulfated forms of heparan sulfate chains are critical for the assembly of clusters of glycoRNAs and csRBPs (cell&#xa0;surface ribonucleoproteins (csRNPs)). Mechanistically, we show that these clusters antagonize heparan sulfate-mediated activation of ERK signalling downstream of VEGF-A. We demonstrate that the heparan sulfate-binding domain of VEGF-A<sub>165</sub> is responsible for binding RNA, and that disrupting this interaction enhances ERK signalling and impairs vascular development both in vitro and in vivo and is conserved across species. Our study thus uncovers a previously unrecognized regulatory axis by which csRNPs negatively modulate heparan sulfate-mediated signalling in the context of angiogenesis driven by VEGF-A.</p>

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GlycoRNA complexed with heparan sulfate regulates VEGF-A signalling

  • Peiyuan Chai,
  • Sina Kheiri,
  • Andrew Kuo,
  • Jessica Shah,
  • Lauren Kageler,
  • Ruiqi Ge,
  • Jonathan Perr,
  • Jennifer Porat,
  • Charlotta G. Lebedenko,
  • Joao M. L. Dias,
  • Eliza Yankova,
  • Sandeep K. Rai,
  • Christopher P. Watkins,
  • Petar Hristov,
  • Konstantinos Tzelepis,
  • Timothy Hla,
  • Ritu Raman,
  • Eliezer Calo,
  • Jeffrey D. Esko,
  • Ryan A. Flynn

摘要

Heparan sulfate proteoglycans (HSPGs) have been recognized as key plasma membrane-tethered co-receptors for a broad range of growth factors and cytokines containing cationic heparan-binding domains1,2. However, how HSPGs mechanistically mediate signalling at the cell surface—particularly in the context of cell surface RNA—remain poorly understood. During developmental and disease processes, vascular endothelial growth factor (VEGF-A), a heparan sulfate-binding factor, regulates endothelial cell growth and angiogenesis3. The regulatory paradigm for endothelial cell-mediated selectively of VEGF-A binding and activity has largely been focused on understanding the selective sulfation of the anionic heparan sulfate chains48. Here we examine the organizational rules of a new class of anionic cell surface conjugates, glycoRNAs9,10, and cell surface RNA-binding proteins (csRBPs11,12). Leveraging genome-scale knockout screens, we discovered that heparan sulfate biosynthesis and specifically the 6-O-sulfated forms of heparan sulfate chains are critical for the assembly of clusters of glycoRNAs and csRBPs (cell surface ribonucleoproteins (csRNPs)). Mechanistically, we show that these clusters antagonize heparan sulfate-mediated activation of ERK signalling downstream of VEGF-A. We demonstrate that the heparan sulfate-binding domain of VEGF-A165 is responsible for binding RNA, and that disrupting this interaction enhances ERK signalling and impairs vascular development both in vitro and in vivo and is conserved across species. Our study thus uncovers a previously unrecognized regulatory axis by which csRNPs negatively modulate heparan sulfate-mediated signalling in the context of angiogenesis driven by VEGF-A.