Structure versus anticoagulant and antithrombotic actions of marine sulfated polysaccharides

Pomin, Vitor H.; Mourão, Paulo Antônio de Souza

doi:10.1590/s0102-695x2012005000068

Cited by 14 publications

(9 citation statements)

References 35 publications

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“…They contain a great variety of polysaccharide compounds, including glycosaminoglycans, fucans, and galactans [ 23 , 128 , 129 , 130 ]. These compounds demonstrate diverse biological properties, including anticoagulant and antitrombotic [ 131 , 132 , 133 ], antioxidative [ 134 ], neuroprotective [ 135 , 136 ], and antiviral activity as well [ 8 , 137 ]. However, anticancer and cancer preventive activities of the polysaccharides from marine animals have been studied insufficiently.…”

Section: Polysaccharides From Marine Animalsmentioning

confidence: 99%

Anticancer and Cancer Preventive Properties of Marine Polysaccharides: Some Results and Prospects

et al. 2013

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Many marine-derived polysaccharides and their analogues have been reported as showing anticancer and cancer preventive properties. These compounds demonstrate interesting activities and special modes of action, differing from each other in both structure and toxicity profile. Herein, literature data concerning anticancer and cancer preventive marine polysaccharides are reviewed. The structural diversity, the biological activities, and the molecular mechanisms of their action are discussed.

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Section: Polysaccharides From Marine Animalsmentioning

confidence: 99%

Anticancer and Cancer Preventive Properties of Marine Polysaccharides: Some Results and Prospects

et al. 2013

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“…Until 2014, several examples of structurally unique GAGs with anticoagulant and antithrombotic effects isolated from ascidians [53,54,55,56,57], sea urchins [58], sea cucumbers [51,59,60,61], mollusks [62], and shrimps [63,64] were described in the literature. The main feature of these new and interesting GAGs isolated from the extracellular matrices of certain marine invertebrates is the structural regularity that, contrary to mammalian GAGs, allows the development of advanced structure–anticoagulation relationship studies [17,19,51,60]. The main conclusions of these studies point out the importance of specific structural combinations, such as the 2,4-di-sulfation with α- l -Fucp units found in the branched FCS molecules from sea cucumbers or the combination of the 4-sulfation in GalNAc units with occasional 2-sulfation in IdoA, as is the case of DS from ascidians (Figure 5) [17,51].…”

Section: Marine Compounds With Antithrombotic Activitymentioning

confidence: 99%

“…The reasons for the growing interest in these molecules consist of (1) substantially lower contamination levels of virus and/or prions, since they are exclusively extracted from marine sources [19]; (2) the unique and distinct structures of these glycans compared to the GAG structure [24,132]; (3) the mechanisms of action that, although being similar to the GAGs used in medicine, can exhibit additional or slightly different effects, which can be considered advantageous factors in the development of alternative anticoagulants [13]; (4) the fact that some SFs and SGs do not exhibit bleeding risks, contrarily to the HP therapy [133]. In general, algal polysaccharides are structurally more complex, with heterogeneous structures, compared to polysaccharides isolated from marine invertebrates that have simple, linear structures [134].…”

Section: Marine Compounds With Antithrombotic Activitymentioning

confidence: 99%

“…While comprehensive and updated reviews can be found in the literature regarding marine sulfated polysaccharides with antithrombotic activities [9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31], reports of marine antithrombotic small molecules are still sparse in the literature. Therefore, we performed a run-up review of some of the major representatives and newest examples of bioactive polysaccharides reported in the last five years, and a systematic compilation of small molecules isolated from marine organisms with antithrombotic activities.…”

Section: Introductionmentioning

confidence: 99%

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Antithrombotics from the Sea: Polysaccharides and Beyond

et al. 2019

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Marine organisms exhibit some advantages as a renewable source of potential drugs, far beyond chemotherapics. Particularly, the number of marine natural products with antithrombotic activity has increased in the last few years, and reports show a wide diversity in scaffolds, beyond the polysaccharide framework. While there are several reviews highlighting the anticoagulant and antithrombotic activities of marine-derived sulfated polysaccharides, reports including other molecules are sparse. Therefore, the present paper provides an update of the recent progress in marine-derived sulfated polysaccharides and quotes other scaffolds that are being considered for investigation due to their antithrombotic effect.

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“…Based on comparative and systematic analyses on the structure-anticoagulation relationships of certain MSPs, we noticed that to achieve a good anticoagulant response, certain structural combinations of sulfation and glycosylation are indeed required. In these analyses, we have particularly given more preference to examine SFs, SGs and GAGs from marine invertebrates or red algae, since these organisms can provide molecules of well-defined chemical structures (Mourão, 2004 ; Pomin, 2009 , 2012c ; Pomin and Mourão, 2012 ). This kind of structural regularity has facilitated interpretation and this in turn enables us to establish advanced structure-anticoagulation relationships (Pereira et al, 2002 ; Pomin, 2009 , 2012c ).…”

Section: Introductionmentioning

confidence: 99%

Specific sulfation and glycosylationâ€”a structural combination for the anticoagulation of marine carbohydrates

Pomin

Mourão

2014

Front. Cell. Infect. Microbiol.

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Based on considered achievements of the last 25 years, specific combinations of sulfation patterns and glycosylation types have been proved to be key structural players for the anticoagulant activity of certain marine glycans. These conclusions were obtained from comparative and systematic analyses on the structure-anticoagulation relationships of chemically well-defined sulfated polysaccharides of marine invertebrates and red algae. These sulfated polysaccharides are known as sulfated fucans (SFs), sulfated galactans (SGs) and glycosaminoglycans (GAGs). The structural combinations necessary for the anticoagulant activities are the 2-sulfation in α-L-SGs, the 2,4-di-sulfation in α-L-fucopyranosyl units found as composing units of certain sea-urchin and sea-cucumber linear SFs, or as branching units of the fucosylated chondroitin sulfate, a unique GAG from sea-cucumbers. Another unique GAG type from marine organisms is the dermatan sulfate isolated from ascidians. The high levels of 4-sulfation at the galactosamine units combined with certain levels of 2-sulfation at the iduronic acid units is the anticoagulant structural requirements of these GAGs. When the backbones of red algal SGs are homogeneous, the anticoagulation is proportionally dependent of their sulfation content. Finally, 4-sulfation was observed to be the structural motif required to enhance the inhibition of thrombin via heparin cofactor-II by invertebrate SFs.

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Structure versus anticoagulant and antithrombotic actions of marine sulfated polysaccharides

Cited by 14 publications

References 35 publications

Anticancer and Cancer Preventive Properties of Marine Polysaccharides: Some Results and Prospects

Anticancer and Cancer Preventive Properties of Marine Polysaccharides: Some Results and Prospects

Antithrombotics from the Sea: Polysaccharides and Beyond

Specific sulfation and glycosylationâ€”a structural combination for the anticoagulation of marine carbohydrates

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