Abstract
BackgroundPrevious studies showed that heparin's anti-allergic activity is molecular weight dependent and resides in oligosaccharide fractions of <2500 daltons.ObjectiveTo investigate the structural sequence of heparin's anti-allergic domain, we used nitrous acid depolymerization of porcine heparin to prepare an oligosaccharide, and then fractionated it into disaccharide, tetrasaccharide, hexasaccharide, and octasaccharide fractions. The anti-allergic activity of each oligosaccharide fraction was tested in allergic sheep.MethodsAllergic sheep without (acute responder) and with late airway responses (LAR; dual responder) were challenged with Ascaris suum antigen with and without inhaled oligosaccharide pretreatment and the effects on specific lung resistance and airway hyperresponsiveness (AHR) to carbachol determined. Additional inflammatory cell recruitment studies were performed in immunized ovalbumin-challenged BALB/C mice with and without treatment.ResultsThe inhaled tetrasaccharide fraction was the minimal effective chain length to show anti-allergic activity. This fraction showed activity in both groups of sheep; it was also effective in inhibiting LAR and AHR, when administered after the antigen challenge. Tetrasaccharide failed to modify the bronchoconstrictor responses to airway smooth muscle agonists (histamine, carbachol and LTD4), and had no effect on antigen-induced histamine release in bronchoalveolar lavage fluid in sheep. In mice, inhaled tetrasaccharide also attenuated the ovalbumin-induced peribronchial inflammatory response and eosinophil influx in the bronchoalveolar lavage fluid. Chemical analysis identified the active structure to be a pentasulfated tetrasaccharide ([IdoU2S (1→4)GlcNS6S (1→4) IdoU2S (1→4) AMan-6S]) which lacked anti-coagulant activity.ConclusionsThese results demonstrate that heparin tetrasaccharide possesses potent anti-allergic and anti-inflammatory properties, and that the domains responsible for anti-allergic and anti-coagulant activity are distinctly different.
Highlights
Heparin is a highly sulfated, linear polysaccharide that has multiple biological activities [1,2,3]
These results demonstrate that heparin tetrasaccharide possesses potent anti-allergic and antiinflammatory properties, and that the domains responsible for anti-allergic and anti-coagulant activity are distinctly different
The sugar sequence, degree of sulfation and its high charge density are the basis of heterogenous molecular organization of heparin and its ability to interact with various proteins causing their activation, deactivation, or stabilization [2,3,24]
Summary
Heparin is a highly sulfated, linear polysaccharide that has multiple biological activities [1,2,3]. The sugar sequence, degree of sulfation and its high charge density are the basis of heterogenous molecular organization of heparin and its ability to interact with various proteins causing their activation, deactivation, or stabilization [2,3,24]. The binding domain to antithrombin III [25], and basic fibroblast growth factor [4] demonstrate the relationship between the fine structure of heparin derived oligosaccharides and biological functions. Previous studies showed that heparin’s anti-allergic activity is molecular weight dependent and resides in oligosaccharide fractions of
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