The GAGOme: a cell-based library of displayed glycosaminoglycans

Chen, Yen-Hsi; Narimatsu, Yoshiki; Clausen, Thomas; Gomes, Catarina; Karlsson, Richard; Steentoft, Catharina; Spliid, Charlotte B.; Gustavsson, Tobias; Salanti, Ali; Persson, Andrea; Malmström, Anders; Willén, Daniel; Ellervik, Ulf; Bennett, Eric; Mao, Yang; Clausen, Henrik; Yang, Zifeng

doi:10.1038/s41592-018-0086-z

Cited by 118 publications

(157 citation statements)

References 57 publications

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“…Here we demonstrated that CS56 staining is moderately associated with CHSY1 expression in human glioma tissue (r s = 0.676), suggesting that other CS modification enzymes, such as DSE and CHSTs, may also modulate CS56 epitopes. As a previous report suggested that the CS56 monoclonal antibody preferentially binds to 6-O-sulfated CS 33 and a recent gene knock-in experiments revealed that CHST3-mediated 6-O-sulfation exclusively induced strong CS56 binding 34 , accordingly, our CS56 staining data partially reflect the quantity of CS and suggests that CHSY1 may mediate the increases of 6-O-sulfated CS in human glioma.…”

Section: Discussionsupporting

confidence: 70%

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Chondroitin sulfate synthase 1 enhances proliferation of glioblastoma by modulating PDGFRA stability

Liao

Tseng

et al. 2020

Oncogenesis

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Chondroitin sulfate synthases, a family of enzyme involved in chondroitin sulfate (CS) polymerization, are dysregulated in various human malignancies, but their roles in glioma remain unclear. We performed database analysis and immunohistochemistry on human glioma tissue, to demonstrate that the expression of CHSY1 was frequently upregulated in glioma, and that it was associated with adverse clinicopathologic features, including high tumor grade and poor survival. Using a chondroitin sulfate-specific antibody, we showed that the expression of CHSY1 was significantly associated with CS formation in glioma tissue and cells. In addition, overexpression of CHSY1 in glioma cells enhanced cell viability and orthotopic tumor growth, whereas CHSY1 silencing suppressed malignant growth. Mechanistic investigations revealed that CHSY1 selectively regulates PDGFRA activation and PDGF-induced signaling in glioma cells by stabilizing PDGFRA protein levels. Inhibiting PDGFR activity with crenolanib decreased CHSY1induced malignant characteristics of GL261 cells and prolonged survival in an orthotopic mouse model of glioma, which underlines the critical role of PDGFRA in mediating the effects of CHSY1. Taken together, these results provide information on CHSY1 expression and its role in glioma progression, and highlight novel insights into the significance of CHSY1 in PDGFRA signaling. Thus, our findings point to new molecular targets for glioma treatment.

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Section: Discussionsupporting

confidence: 70%

“…the GAGOme library developed with CRISPR/Cas9 knockout and knock-in technology, the key enzymes participating in VAR2SCA binding have been identified 34 . The knockout experiments revealed that CHSY1 is an essential CS elongation enzyme required for VAR2SCA binding.…”

Section: Discussionmentioning

confidence: 99%

Chondroitin sulfate synthase 1 enhances proliferation of glioblastoma by modulating PDGFRA stability

Liao

Tseng

et al. 2020

Oncogenesis

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“…Other reports also show successful expression of active sulfotransferase enzymes in E. coli . It is important to note here that sulfotransferase expression in E. coli might not be as straightforward as in eukaryotic culture systems due to the complexities associated with their post‐translational modification and folding. Here, we engineered E. coli to accumulate PAPS, the least explored of the three critical components described above.…”

Section: Introductionmentioning

confidence: 92%

Increased 3′‐Phosphoadenosine‐5′‐phosphosulfate Levels in Engineered Escherichia coli Cell Lysate Facilitate the In Vitro Synthesis of Chondroitin Sulfate A

Badri

Williams

Xia

et al. 2019

Biotechnology Journal

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Chondroitin sulfates (CSs) are linear glycosaminoglycans that have important applications in the medical and food industries. Engineering bacteria for the microbial production of CS will facilitate a one‐step, scalable production with good control over sulfation levels and positions in contrast to extraction from animal sources. To achieve this goal, Escherichia coli (E. coli) is engineered in this study using traditional metabolic engineering approaches to accumulate 3′‐phosphoadenosine‐5′‐phosphosulfate (PAPS), the universal sulfate donor. PAPS is one of the least‐explored components required for the biosynthesis of CS. The resulting engineered E. coli strain shows an ≈1000‐fold increase in intracellular PAPS concentrations. This study also reports, for the first time, in vitro biotransformation of CS using PAPS, chondroitin, and chondroitin‐4‐sulfotransferase (C4ST), all synthesized from different engineered E. coli strains. A 10.4‐fold increase is observed in the amount of CS produced by biotransformation by employing PAPS from the engineered PAPS‐accumulating strain. The data from the biotransformation experiments also help evaluate the reaction components that need improved production to achieve a one‐step microbial synthesis of CS. This will provide a new platform to produce CS.

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“…β3GalT1, β3GalT2, β3GalT3/β3GalNAcT1, β3GalT4 and β3GalT5) are involved in the biosynthesis of glycoproteins and glycolipids [11], compensation for galactosyltransferase II deficiency in zebrafish by other b3galt family members is unlikely. Chinese hamster ovary B3galt6 KO cells were also shown to be capable of producing GAGs, in contrast to Xylt2, B4galt7 or B3gat3 KO cells [37]. The recent identification of the presence of a non-canonical trisaccharide linkage region, lacking one Gal residue (GlcA-Gal-Xyl-O-), as a minor constituent in the PG bikunin in the urine of healthy human individuals [28], prompted us to examine the composition of the GAG linkage region in our b3galt6 KO zebrafish models, by analyzing protein extracts from adult b3galt6 -/and WT zebrafish via LC-MS/MS.…”

Section: Discussionmentioning

confidence: 94%

b3galt6knock-out zebrafish recapitulate β3GalT6-deficiency disorders in human and reveal a trisaccharide proteoglycan linkage region

Delbaere

Clercq

Mizumoto

et al. 2020

Preprint

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Proteoglycans are structurally and functionally diverse biomacromolecules found abundantly on cell membranes and in the extracellular matrix. They consist of a core protein linked to glycosaminoglycan chains via a tetrasaccharide linkage region. Here, we show that CRISPR/Cas9-mediated b3galt6 knock-out zebrafish, lacking galactosyltransferase II, which adds the third sugar in the linkage region, largely recapitulate the phenotypic abnormalities seen in human β3GalT6-deficiency disorders. These comprise craniofacial dysmorphism, generalized skeletal dysplasia, skin involvement and indications for muscle hypotonia. Disturbed collagen fibril organization was the most consistent ultrastructural characteristic throughout affected tissues. Strikingly, despite a strong reduction in glycosaminoglycan content, we identified a small amount of proteoglycans containing a unique linkage region consisting of only three sugars. This implies that formation of glycosaminoglycans with an immature linkage region is possible in a pathogenic context. Our study therefore unveils a novel rescue mechanism for β3GalT6-deficiency, opening new avenues for therapeutic intervention.

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The GAGOme: a cell-based library of displayed glycosaminoglycans

Cited by 118 publications

References 57 publications

Chondroitin sulfate synthase 1 enhances proliferation of glioblastoma by modulating PDGFRA stability

Chondroitin sulfate synthase 1 enhances proliferation of glioblastoma by modulating PDGFRA stability

Increased 3′‐Phosphoadenosine‐5′‐phosphosulfate Levels in Engineered Escherichia coli Cell Lysate Facilitate the In Vitro Synthesis of Chondroitin Sulfate A

b3galt6knock-out zebrafish recapitulate β3GalT6-deficiency disorders in human and reveal a trisaccharide proteoglycan linkage region

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