Christopher C. Rider scite author profile

The BMPs (bone morphogenetic proteins) and the GDFs (growth and differentiation factors) together form a single family of cystine-knot cytokines, sharing the characteristic fold of the TGFbeta (transforming growth factor-beta) superfamily. Besides the ability to induce bone formation, which gave the BMPs their name, the BMP/GDFs display morphogenetic activities in the development of a wide range of tissues. BMP/GDF homo- and hetero-dimers interact with combinations of type I and type II receptor dimers to produce multiple possible signalling complexes, leading to the activation of one of two competing sets of SMAD transcription factors. BMP/GDFs have highly specific and localized functions. These are regulated in a number of ways, including the developmental restriction of BMP/GDF expression and through the secretion of several specific BMP antagonist proteins that bind with high affinity to the cytokines. Curiously, a number of these antagonists are also members of the TGF-beta superfamily. Finally a number of both the BMP/GDFs and their antagonists interact with the heparan sulphate side chains of cell-surface and extracellular-matrix proteoglycans.

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Cytokines and proteoglycans: an introductory overview

Mulloy

Rider

2006

104

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The defining characteristic of the glycoproteins known as proteoglycans is the presence of O-linked acidic polysaccharides known as GAGs (glycosaminoglycans). The backbone of these linear polysaccharides is a repeating disaccharide, comprising N-acetyl hexosamine alternating with beta-D-glucuronic acid, alpha-L-iduronic acid, or galactose. For some GAGs, partial deacetylation, epimerization of glucuronic acid, and substitution with N- and O-sulphates result in highly complex, heterogeneous structures. The interactions with proteins through which GAGs exert their biological effects depend on the resulting sequences. Some proteins, for example antithrombin, have highly specific sequence requirements for their GAG ligand [in this case heparin or HS (heparan sulphate)]; others, for example the fibroblast growth factors, are less demanding. GAGs, in particular HS, play a role as co-receptors for some cytokines. In addition, HS is thought to be important for the localization of cytokines, acting both as a tissue store and as a mediator of morphogen gradient formation in development. The structural determinants of GAG-cytokine interactions are therefore clearly important to understanding the biology of development, wound healing and the immune system. No single paradigm has been identified for such interactions, and the search for general principles underlying involvement of GAGs in cytokine function is at an early stage.

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Heparin/heparan sulphate binding in the TGF-β cytokine superfamily

Rider

2006

149

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The TGF-beta (transforming growth factor-beta) cytokine superfamily in mammals contains some 30 members. These dimeric proteins are characterized by a strongly conserved cystine knot-based structure. They regulate the proliferation, differentiation and migration of many cell types, and therefore have important roles in morphogenesis, organogenesis, tissue maintenance and wound healing. Thus far, around one-quarter of these cytokines have been shown to bind to heparin and heparan sulphate. Well-established examples are the TGF-beta isoforms 1 and 2, and the BMPs (bone morphogenetic proteins) -2 and -4. In studies in my laboratory, we have shown that GDNF (glial-cell-line-derived neurotrophic factor) and its close relatives neurturin and artemin bind to heparin and heparan sulphate with high affinity. We have reported previously that binding of GDNF is highly dependent on the presence of 2-O-sulphate groups. More recently, we and others have been investigating the heparin/heparan sulphate-binding properties of BMP-7, which is a representative of a distinct BMP subgroup from that of BMPs -2 and -4. Interestingly, several of the various specific BMP antagonist proteins also bind to heparin and heparan sulphate. Much remains to be learnt about the nature and role of glycosaminoglycan interactions in the TGF-beta superfamily, but current work suggests that these cytokines do not share a single highly conserved heparin/heparan sulphate-binding site.

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Characterization of the Heparin-Binding Properties of IL-6

Mummery¹,

Rider²

2004

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Characterization of the Heparin-Binding Properties of IL-6

Mummery

Rider

2000

156

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We establish, using an ELISA approach, that recombinant human and murine IL-6 bind to an immobilized heparin-BSA complex. In the case of human IL-6, this binding is displaceable by soluble heparin, IC50 ∼2 μg/ml, corresponding to ∼200 nM. This binding is specific because chondroitin sulfates B and C fail to compete, whereas chondroitin sulfate A and several heparan sulfates are weak inhibitors. Of a range of chemically modified heparins examined, the strongest competitor was the 2-O-desulfated product, but even this showed a considerably reduced IC50 (∼30 μg/ml). The epitopes of five IL-6-specific mAbs were still accessible in heparin-bound IL-6, and the dimer formed from the association of rIL-6 with its truncated soluble receptor polypeptide, srIL-6α, still bound to heparin. Further analysis showed that heparin competed partially and weakly with the binding of srIL-6 to IL-6; however, it competed strongly for the binding of the rIL-6/srIL-6Rα dimer, to soluble glycoprotein 130. In studies of the proliferation of IL-6-sensitive Ba/F3 cells expressing glycoprotein 130, we were unable to detect any effect of either the removal of cell surface heparan sulfate, or addition of soluble heparin. By contrast, heparin was able to protect IL-6 from digestion by the bacterial endoproteinase Lys-C. Overall, our findings show that IL-6 is a heparin-binding cytokine. This interaction will tend to retain IL-6 close to its sites of secretion in the tissues by binding to heparin-like glycosaminoglycans, thus favoring a paracrine mode of activity. Moreover, this binding may serve to protect the IL-6 from proteolytic degradation.

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