Abstract
Pleiotrophin (PTN) is a potent cytokine that plays an important role in neural generation, angiogenesis, inflammation, and cancers. Its interactions with the polysaccharide glycosaminoglycan (GAG) are crucial to PTN’s biological activities. In this study, we investigated the interaction of selectively protonated PTN with the heparin hexasaccharide ΔUA2S-(GlcNS6S-IdoA2S)2-GlcNS6S using solution NMR. The use of a structurally defined oligosaccharide and selectively protonated PTN enabled us to obtain intermolecular contacts using unfiltered NOESY experiments, significantly increasing the amount of high-resolution structural information obtainable. Our data showed that PTN’s arginines, lysines, and tryptophans in the two structured domains have strong interactions with the 2-O-sulfated uronate protons in the heparin hexasaccharide. Consistent with the NMR data is the observation that 2-O-desulfation and N-desulfation/N-acetylation significantly decreased heparin hexasaccharides’ affinity for PTN, while 6-O-desulfation only modestly affected the interactions with PTN. These results allowed us to hypothesize that PTN has a preference for sulfate clusters centered on the GlcNS6S-IdoA2S disaccharide. Using these data and the fact that PTN domains mostly bind heparin hexasaccharides independently, models of the PTN-heparin complex were constructed.
Highlights
Pleiotrophin (PTN) is a powerful mitogenic and angiogenic cytokine associated with many cellular processes
We used solution NMR to investigate the interactions of PTN with a structurally defined heparin dp6 at atomic resolution
As far as we know, this study is the first attempt at using unfiltered NOESY and deuteration with selective protonation to study PTN
Summary
Pleiotrophin (PTN) is a powerful mitogenic and angiogenic cytokine associated with many cellular processes. PTN plays an important role in early CNS development and stimulates neurite growth in spinal cord injuries [1,2,3] It exerts a protective effect on addiction-associated neurotoxicity and is known to modulate the activities of microglial cells [4,5,6,7,8,9,10]. Abnormal levels of PTN have been associated with a number of diseases, including many types of cancer and inflammatory diseases [11,12,13,14,15,16,17,18,19,20] It has been connected with adipocyte differentiation and obesity [21,22,23,24]. The source of PTN’s pleiotropy is most likely connected with PTN’s ability to bind multiple receptors
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