PA14 domain of glycosyltransferase B4GALNT3 is a lectin that binds to sulfated glycan ligands
Yuko Tokoro, Takahiro Yamasaki, Hiroaki Tateno, Yuji O. Kamatari, Bakhtyar Sepehri, Tomohiro Sensui, Hiroto Kawashima, Robert J. Doerksen, Yasuhiko Kizuka

TL;DR
This study shows that the PA14 domain of B4GALNT3 acts as a lectin that binds sulfated glycans, regulating the enzyme's activity in synthesizing LDN.
Contribution
The PA14 domain of B4GALNT3 is identified as a lectin that binds sulfated glycans, revealing a novel regulatory mechanism for LDN synthesis.
Findings
PA14 binds sulfated glycans like Gal[6S]β1-4GlcNAc[6S], as shown by glycan microarray and SPR.
Sulfated ligands and PA14 mutations inhibit B4GALNT3 activity toward glycoprotein substrates.
Reducing cellular sulfation increases LDN synthesis, suggesting negative feedback by sulfated products.
Abstract
Mammalian proteins are decorated with a variety of glycans, providing proteins with enormous functional diversity. GalNAcβ1-4GlcNAc (LacdiNAc or LDN), a unique sub-terminal glycan structure regulating the half-life of circulating glycoproteins, is biosynthesized by the dedicated glycosyltransferases, B4GALNT3 and B4GALNT4. We recently reported that B4GALNT3 contains a unique non-catalytic PA14 domain that is necessary for the enzyme activity, while the precise function of PA14 is unclear. Here we show that PA14 in B4GALNT3 is a lectin domain required for the activity of B4GALNT3 toward glycoprotein substrates. Glycan microarray experiments, together with surface plasmon resonance and molecular dynamics simulations, demonstrated the specific binding between the PA14 domain of B4GALNT3 and sulfated glycan ligands, such as Gal[6S]β1-4GlcNAc[6S]. Both addition of the sulfated disaccharide…
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Taxonomy
TopicsGlycosylation and Glycoproteins Research · Galectins and Cancer Biology · Invertebrate Immune Response Mechanisms
