Advances in Biomedical Applications of Hydrogels from Seaweed-Derived Sulfated Polysaccharides:Carrageenan,Fucoidan,and Ulvan

Sulfated polysaccharides extracted from seaweeds,including Carrageenan,Fucoidan and Ulvan,are crucial bioactive compounds known for their diverse beneficial properties,such as anti-inflammatory,antitumor,immunomodulatory,antiviral,and anticoagulant effects.These polysaccharides form hydrogels hold immense promise in biomedicine,particularly in tissue engineering,drug delivery systems and wound healing.This review comprehensively explores the sources and structural characteristics of the three important sulfated polysaccharides extracted from different algae species.It elucidates the gelation mechanisms of these polysaccharides into hydrogels.Furthermore,the biomedical applications of these three sulfated polysaccharide hydrogels in wound healing,drug delivery,and tissue engineering are discussed,highlighting their potential in the biomedicine.

Sulfated Cyclocarya paliurus polysaccharides exert immunomodulatory potential on macrophages via Toll-like receptor 4 mediated MAPK/NF-κB signaling pathways

The biological activity of plant polysaccharides can be enhanced by sulfated modification.In this study,the immunomodulatory effect of sulfated Cyclocarya paliurus polysaccharides(SCP3)on macrophages RAW264.7 and its potential molecular mechanism were investigated.Results showed that SCP3 at 25-100μg/m L increased viability and improved phagocytosis of RAW264.7 cells.Meanwhile,SCP3 could activate mitogen-activated protein kinase(MAPK)and nuclear factor kappa B(NF-κB)signaling pathways,which increased the phosphorylation of Erk1/2,JNK,p38 and NF-κB p65,promoting secretion of cytokines tumor necrosis factorα(TNF-α),interleukin 6(IL-6)and nitric oxide(NO)as well as the production of reactive oxygen species(ROS).In addition,Toll-like receptor 4(TLR4)receptor inhibitors were able to block the production of NO and TNF-αby SCP3-stimulated macrophages.Based on Western blot analysis and validation using specific inhibitors against MAPK and NF-κB signaling pathways,the results demonstrated that SCP3 induced macrophages activation and enhanced TNF-αand NO production via TLR4-mediated MAPK and NF-κB pathways.In summary,SCP3 has significant immunomodulatory potential.The underlying molecular mechanism was that SCP3 activates macrophages via TLR4 receptors to promote ROS production,which in turn activates the downstream MAPK/NF-κB signaling pathway and then increases the secretion levels of cytokines and NO.

In Vitro Anti-influenza Virus Activities of Sulfated Polysaccharide Fractions from Gracilaria lemaneiformis

In this paper, in vitro anti-influenza virus activities of sulfated polysaccharide fractions from Gracilaria lemaneiforrnis were investigated. Cytotoxicities and antiviral activities of Gracilaria lemaneiformis polysaccharides （PGL）, Gracilaria lemaneiformis polysaccharide fraction-1 （GL-1）, Gracilaria lemaneiformis polysaccharide fraction-2 （GL-2） and Gracilaria lemaneiformis polysaccharide fraction-3 （GL-3） were studied by the Methyl thiazolyl tetrazolium （MTT） method, and the inhibitory effect against Human influenza virus H1-364 induced cytopathic effect （CPE） on MDCK cells were observed by the CPE method. In addition, the antiviral mechanism of PGL was explored by Plaque forming unit （PFU）, MTT and CPE methods. The results showed： i） Cytotoxicities were not significantly revealed, and H1-364 induced CPE was also reduced treated with sulfated polysaccharide fractions from Gracilaria lemaneiformis; ii） Antiviral activities were associated with the mass percentage content of sulfate groups in polysaccharide fractions, which was about 13%, in polysaccharides （PGL and GL-2） both of which exhibited higher antiviral activity; iii） A potential antiviral mechanism to explain these observations is that viral adsorption and replication on host cells were inhibited by sulfated polysaccharides from Gracilaria lemaneiformis. In conclusion, Anti-influenza virus activities of sulfated polysaccharide fractions from Gracilaria lemaneiformis were revealed, and the antiviral activities were associated with content of sulfate groups in polysaccharide fractions

Sulfated polysaccharides with antioxidant and anticoagulant activity from the sea cucumber Holothuria fuscogliva

Sea cucumber is a traditional nutritional food and medicinal resource with many bioactive components in China. Holothuriafuscogliva is a big sea cucumber with a rich of bioactive polysaccharides. To investigate the bioactivities of the polysaccharides from sea cucumber H. fuscogliva, we prepared the sulfated polysaccharides （HfP） from sea cucumber H. fuscogliva using a protease hydrolysis method. Antioxidant activities of HfP were investigated, including hydroxyl radical scavenging activity and superoxide radical scavenging activity. And, the anticoagulant activities of HfP were studied, including the activated partial thromboplastin time （APTT）, prothrombin time （PT） and thrombin time （TT）. The average molecular weight was 1 867.1 Da, with a sulfate content of 20.7%. In addition, the molar ratio of monosaccharide composition of HfP was Man： Rha： Glc A： Glc： Gal： Xyl： Fuc=0.083 6： 0.437： 0.134： 0： 1.182： 0.748： 1. It had a strong antioxidant activity, the hydroxyl and superoxide radical scavenging activity ECs0 of HfP was 3.74 and 0.037 mg/mL, respectively. It also showed a good anticoagulant activity in our study. The APTT of HfP was much higher than that of heparin sodium, and the PT and TT of HfP was close to that ofheparin sodium at a low concentration. Therefore, HfP shows a good antioxidant and anticoagulant activity and it may become a potential candidate of the natural antioxidant and anticoagulant and will have a good application future in health product or medicine industry.

Microanalysis and preliminary pharmacokinetic studies of a sulfated polysaccharide from Laminariajaponica

A rapid, sensitive and reproducible high performance liquid chromatography （HPLC） method with post-column fluorescence derivatization has been developed to determine the amount of low-molecular- weight sulfated polysaccharide （GFS） in vivo. The metabolism of GFS has been shown to fit a two component model following its administration by intravenous injection, and its pharmacokinetic parameters were determined to be as follows： half-time of distribution phase （t1/2α）=11.2±2.93 min, half-time of elimination phase （tl/2α）=98.20±25.78 min, maximum concentration （Cmax）=110.53 gg/mL and peak time （Tmax）=5 min. The pharmacokinetic behavior of GFS was also investigated following intragastric administration. However, the concentration of GFS found in serum was too low for detection, and GFS could only be detected for up to 2 h after intragastric administration （200 mg/kg body weight）. Thus, the bioavailability of GFS was low following intragastric administration because of the metabolism of GFS. In conclusion, HPLC with post-column derivatization could be used for quantitative microanalysis and pharmacokinetic studies to determine the presence of polysaccharides in the serum following intravenous injection.

Inhibition of the Crystal Growth and Aggregation of Calcium Oxalate by Algae Sulfated Polysaccharide In-vitro

The influence of sulfated polysaccharide （SPS） isolated from marine algae Sargassum fusiforme on the morphology and phase compositions of urinary crystal calcium oxalate was investigated in vitro by means of scanning electron microscopy and X-ray diffraction. SPS maybe is a potential inhibitor to CaOxa urinary stones by inhibiting the growth of calcium oxalate monohydrate （COM）, preventing the aggregation of COM, and inducing the formation of calcium oxalate dihydrate （COD） crystals.

Chemical Characteristics and Anticoagulant Activities of Two Sulfated Polysaccharides from Enteromorpha linza (Chlorophyta)

Two sulfated polysaccharides, designated MP and SP, were extracted from the marine green alga Enteromorpha linza using hot water and then purified using ion-exchange and size-exclusion chromatography. The anticoagulant activities of MP and SP were examined by determination of their activated partial thromboplastin time （APTT）, thrombin time （TT） and prothrombin time （PT） using human plasma. Results showed that MP and SP were composed of abundant rhamnose with small amounts of xylose and glucuronic acid, whereas SP also contained a small amount of galactose. Approximate molecular weights of MP and SP were 535 and 502 kDa, respectively. As compared with SP, MP had higher contents of sulfate ester （19.0%） and uronic acid （14.9%）. The MP mainly consisted of （1→4）-linked rhamnose residues with partially sulfated groups at the C-3 position, and small amounts of （1→3, 4）-linked rhamnose, （1→2,4）-linked rhamnose, （1→4）-linked glucuronic acid and （1→4）-linked xylose residues. The SP contained abundant （1→4）-linked rhamnose with minor amounts of （1→3）-linked rhanmose, （1→3, 4）-linked rhamnose, （1→2, 4）-linked rhanmose, （1→4）4inked glucuronic acid, （1→4）-linked xylose, and （1→3）-linked galactose residues. The sulfate groups were mainly located at C-3 of （1→4）-linked rhamnose residues. Both MP and SP, in particular the former, effectively prolonged APTT and TT. This work demonstrates that MP and SP have unique structural characteristics distinct from those of other sulfated polysaccharides from Enteromorpha. The MP is a potential source of anticoagulant, and the difference in anticoagulant activities of the two sulfated polysaccharides is directly linked to the discrepancy of their chemical features.

Biomechanics mechanism of the anti-tumor effects of sulfated polysaccharide and sulfated glycopeptide

There are also a variety of cytokines in the tumor microenvironment,which are involved in the change in the hardness of the tumor,thereby affecting the invasion and metastasis of tumor cells.As traditional Chinese medicines,drugs of softening and dissipating firm knot contains different kinds of sulfated polysaccharide and sulfated glycopeptide.By inhibiting the function of cancer-associated fibroblasts,they reduce interstitial fibrosis,thereby reducing the hardness of the tumor and exerting an anti-tumor effect.

Preparation of Polyporus Albicans Teng Sulfate andIts Anti-coagulation Activity

More studies have indicated that polysaccharide sulfate has anti-coagulant activity.Now,heparin is the most popular anticoagulant used in clinic,however,its side effects have also caused highly concern.It is still under intensive investigations to synthesize effective safe polysaccharide sulfate as heparin substitute.We extracted water-soluble polysaccharide from fermented mycelium of edible polyporus albicans（Imaz.） teng,and got the water-soluble polyporus albicans teng sulfate（PATS） by modifying the water-solubility polyose with the method of chlorosulfonic acid-pyridine.The anti-coagulant assay of PATS in vitro towards normal human plasma indicates its remarkable anticoagulant activity,while the dose could be as low as 5 mg/L for anticoagulation.The anti-coagulant effect was equivalent to that of heparin about 150 U when the concentration of PATS was 10 mg/L.The study on anti-coagulation mechanism suggests that PATS got involved in the intrinsic pathway.The anti-coagulation activity of PATS was due to the inhibition of the coagulation factors IIa and Xa activities mediated by antithrombin Ⅲ（ATIII）.The anti-coagulation mechanism of PATS is absolutely identical to that of heparin.In conclusion,we suggest that PATS has the similar anti-coagulation characteristic to heparin,but with a better anti-coagulation effect.Meanwhile,derived from edible fungus-polysaccharide,PATS has more bio-safety advantage.Therefore,PATS has promising future to be developed and used as an ideal substitute for heparin in clinic.

Effect of polysaccharide sulfate 916 on the production of nitric oxide in ECV3 04 cells induced by cytokines and H_2O_2

To investigate the effect of polysaccharide sulfate 916 (PS916) on the productio n of nitric oxide (NO) in ECV304 cells induced by tumor necrosis factor α (TNF α), interleukin 1β (IL 1β) and H 2O 2 in vitro Methods Production of NO in ECV304 cells was measured by the Griess method and the proli feration of cells was tested by the MTT method The activity of NO synthase was detected spectrophotometrically Results Production of NO in ECV304 cells decreased after treatment with 40?ng/ml IL 1 β and 40?ng/ml TNFα, but increased in the presence of H 2O 2 0 1?mmol/L PS916 significantly enhanced NO production in ECV304 cells in a dose depende nt manner in the TNFα and IL 1β treated groups and decreased it in the H 2O 2 treated group Proliferation of ECV304 cells was inhibited by TNFα and H 2O 2 and no effect was found in the IL 1β treated group PS916 increased the proliferation of cells treated with TNFα and H 2O 2 dose dependently In vitro, PS916 has no effect on the activity of NO synthase Conclusion PS916 has a protective effect on ECV304 cells exposed to IL 1β, TNFα and H 2 O 2

Hypolipidemic effect of chromium-modified enzymatic product of sulfated rhamnose polysaccharide from Enteromorpha prolifera in type 2 diabetic mice

Sulfated rhamnose polysaccharide(SRP)derived from Enteromorpha prolifera is a metal-ion chelating agent that could potentially be used to treat diabetes.The aim of our study was to determine the effect of a variant of SRP on DIABETES.First,we synthesized and characterized SRPE-3 chromium(III)[SRPE-3-Cr(III)]complex using an enzymatic method.The maximum chelation rate was 18.2%under optimal chelating conditions of pH 6.0,time 4 h,and temperature 60°C.Fourier transform infrared spectroscopy results showed important sites for Cr(III)-binding were O–H and C=O groups.We then studied the hypolipidemic effects of SRPE-3-Cr(III)on type 2 diabetes mellitus(T2DM)induced by a high-fat,high-sucrose diet(HFSD).Decreased blood glucose content,body fat ratio,serum TG,TC,LDL-C,and increased serum HDL-C were observed after treatment with SRPE-3-Cr(III).In addition,SRPE-3-Cr(III)significantly reduced leptin,resistin,and TNF-αlevels,and increased adiponectin contents relative to T2DM.Histopathology results also showed that SRPE-3-Cr(III)could alleviate the HFSD-lesioned tissues.SRPE-3-Cr(III)also improved lipid metabolism via a reduction in aspartate aminotransferase,alanine aminotransferase,fatty acid synthase,and acetyl-CoA carboxylase activities in the liver.SRPE-3-Cr(III)at low doses exhibited better lipid-lowering activities,hence,could be considered to be a novel compound to treat hyperlipidemia and also act as an anti-diabetic agent.

Protective effect of sulfated polysaccharides from a Celluclast-assisted extract of Hizikia fusiforme against ultraviolet B-induced photoaging in vitro in human keratinocytes and in vivo in zebrafish

Our previous study evaluated the in vitro and in vivo antioxidant activities of sulfated polysaccharides from a Celluclastassistedextract of Hizikia fusiforme (HFPS). The results indicate that HFPS possesses potent antioxidant activity and suggestthe potential use of HFPS to combat photoaging. In this study, we investigated the ultraviolet (UV) protective effect of HFPSin vitro in keratinocytes (HaCaT cells) and in vivo in zebrafish. The results indicate that HFPS significantly reduced thelevel of intracellular reactive oxygen species (ROS) and improved the viability of UVB-irradiated HaCaT cells. In addition,HFPS remarkably decreased apoptosis formation in UVB-irradiated HaCaT cells in a dose-dependent manner. The in vivotest results also demonstrate that HFPS significantly reduced intracellular ROS levels, cell death, NO production, and lipidperoxidation levels in UVB-irradiated zebrafish in a dose-dependent manner. These results suggest that HFPS possessesstrong in vitro and in vivo UV-protective effects, making it a potential ingredient in the cosmeceutical industry.

Effect of polysaccharide sulfate 916 on the production of nitric oxide in ECV3 04 cells induced by cytokines and H2O2

To investigate the effect of polysaccharide sulfate 916 (PS916) on the productio n of nitric oxide (NO) in ECV304 cells induced by tumor necrosis factor α (TNF α), interleukin 1β (IL 1β) and H 2O 2 in vitro Methods Production of NO in ECV304 cells was measured by the Griess method and the proli feration of cells was tested by the MTT method The activity of NO synthase was detected spectrophotometrically Results Production of NO in ECV304 cells decreased after treatment with 40?ng/ml IL 1 β and 40?ng/ml TNFα, but increased in the presence of H 2O 2 0 1?mmol/L PS916 significantly enhanced NO production in ECV304 cells in a dose depende nt manner in the TNFα and IL 1β treated groups and decreased it in the H 2O 2 treated group Proliferation of ECV304 cells was inhibited by TNFα and H 2O 2 and no effect was found in the IL 1β treated group PS916 increased the proliferation of cells treated with TNFα and H 2O 2 dose dependently In vitro, PS916 has no effect on the activity of NO synthase Conclusion PS916 has a protective effect on ECV304 cells exposed to IL 1β, TNFα and H 2 O 2

Regulating the bioactivity of non-glycosylated recombinant human bone morphogenetic protein-2 to enhance bone regeneration

Recombinant human bone morphogenetic protein-2(rhBMP-2)is the predominant growth factor that effectively induces osteogenic differentiation in orthopedic procedures.However,the bioactivity and stability of rhBMP-2 are intrinsically associated with its sequence,structure,and storage conditions.In this study,we successfully determined the amino acid sequence and protein secondary structure model of non-glycosylated rhBMP-2 expressed by an E.coli expression system through X-ray crystal structure analysis.Furthermore,we observed that acidic storage conditions enhanced the proliferative and osteoinductive activity of rhBMP-2.Although the osteogenic activity of non-glycosylated rhBMP-2 is relatively weaker compared to glycosylated rhBMP-2;however,this discrepancy can be mitigated by incorporating exogenous chaperone molecules.Overall,such information is crucial for rationalizing the design of stabilization methods and enhancing the bioactivity of rhBMP-2,which may also be applicable to other growth factors.

褐海藻中硫酸多糖的抗菌和抗氧化活性(英文)

AIMS: Sulfated polysaccharide extracted from the brown algae Sargassum swartzii was studied for antioxidant potential. METHODS: The extracted sulfated polysaccharide was analyzed for physico-chemical characteristics, TAC, reducing power, free radical scavenging potentials (DPPH, ABTS, H2O2 radical) and antibacterial properties. RESULTS: The extract showed a high percentage of carbohydrate (7.40 ± 0.63) %, followed by sulfate (5.3 ± 1.54) %. The highest antioxidant activity was observed in ABTS (55 ± 3.61) %, followed by H2O2 (47.23 ± 2.81) % and DPPH (25.33 ± 2.52) %; significant differences were observed at (P ≥ 0.05). Among the ten human pathogenic strains tested, E. coli was the more sensitive. The characterization and mobility of the sulfated polysaccharide was examined by the FT-IR spectrum and assayed by agarose gel electrophoresis which showed highest mobility at higher pH buffer in carbonate-bicarbonate (pH 10) buffer. The molecular weight of the sulfated polysaccharide was determined by gradient PAGE and was found to be 50 KDa. Finally, GC-MS analysis revealed the presence of peaks corresponding to dimethyl-4-nitroaniline (26.34%). CONCLUSIONS: It is suggested that the sulfated polysaccharide from Sargassum swartzii could be a better source of natural antioxidant, as well as an antibacterial agent.