Martin Trinker scite author profile

Glycosaminoglycans (GAGs) are a class of highly negatively charged, unbranched, O-linked polysaccharides that are involved in many diseases. Their role as a protein-binding matrix on cell surfaces has long been recognized, but therapeutic approaches to interfere with protein-GAG interactions have been limited due to the complex chemistry of GAGs, on one hand, and due to the lack of specific antibodies against GAGs, on the other hand. We have developed a protein engineering platform (the so-called CellJammer ® technology), which enables us to introduce higher GAG-binding affinity into wild-type GAG-binding proteins and to combine this with impaired biological, receptor-binding function. Chemokines are among the prototypic GAG-binding proteins and here we present selected results of our CellJammer technology applied to several of these proinflammatory proteins. An overview is given of our lead decoy protein, PA401, which is a CXCL8-based mutant protein with increased GAG-binding affinity and decreased CXCR1/2 binding and activation. Major results from our CCL2 and CCL5 programmes are also summarized and the potential for clinical application of these decoy proteins is presented.

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Glycosaminoglycan silencing by engineered CXCL12 variants

Gschwandtner

Trinker

Hecher

et al. 2015

FEBS Letters

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a b s t r a c tWe have engineered GPCR (G protein-coupled receptor) knock-out and high GAG-binding affinity into CXCL12a to inhibit CXCL12a-induced cell migration. Compared to wtCXCL12, the mutant CXCL12a (D8 L29K V39K) exhibited a 5.6-fold and a 2.2-fold affinity increase for heparin and heparan sulfate, respectively. From NaCl-based heparin displacement chromatography we concluded that more amino acid replacements would lead to altered GAG (glycosaminoglycan) ligand specificity. GAG silencing by this mutant was shown in a murine seeding model of human cancer cells, whereby a greatly reduced number of liver metastases was detected when the animals were treated intravenously with 1 mg/kg CXCL12a (D8 L29K V39K) before cancer cell application.

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Targeting chemokine–glycan interactions: the CellJammer® technology platform

Trinker

Kungl

2012

Drug Discovery Today: Technologies

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Martin Trinker

Structure‐based design of decoy chemokines as a way to explore the pharmacological potential of glycosaminoglycans

Glycosaminoglycan silencing by engineered CXCL12 variants

Targeting chemokine–glycan interactions: the CellJammer® technology platform

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