CN1232040A - Fructoan sulfate, its synthesizing process and use thereof - Google Patents
Fructoan sulfate, its synthesizing process and use thereof Download PDFInfo
- Publication number
- CN1232040A CN1232040A CN 99113444 CN99113444A CN1232040A CN 1232040 A CN1232040 A CN 1232040A CN 99113444 CN99113444 CN 99113444 CN 99113444 A CN99113444 A CN 99113444A CN 1232040 A CN1232040 A CN 1232040A
- Authority
- CN
- China
- Prior art keywords
- fructoan
- sulfate
- synthetic method
- water
- pyridine
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Landscapes
- Polysaccharides And Polysaccharide Derivatives (AREA)
- Pharmaceuticals Containing Other Organic And Inorganic Compounds (AREA)
Abstract
A levan sulfate with 708-5838 of average molecular weight and sulfur content of 4-21 wt.% is prepared from the achyranthes root, a Chinese-medicinal material, through extracting levan, sulfonation reaction, and purifying by chromatograph. Said compound has antivirus and anticoagulating actions. Its advantage is widely available raw materials and simple synthetic process.
Description
The present invention relates to compound of polysaccharide, i.e. Fructoan sulfate, synthetic method and application thereof.
Polysaccharide is a colourful member who forms in the biopolymer family, the natural high moleculer eompound that she is made up of monose.Present known polysaccharide has kind more than 300 approximately, extensively is present in each kind of plant, animal and the microorganism cultures, and wherein many all have a very important function.Recent two decades comes, it is found that polysaccharide and glycoconjugate (as glycoprotein and glycolipid etc.) have participated in just causing after the various biological phenomenas of cell enough attention of people, as the information transmission of immunocyte and impression is that mediation with cell surface polysaccharide body has substantial connection, and this has very important meaning for the various diseases that caused by infectation of bacteria of research; Polysaccharide still is the acceptor of various antigens of cell surface and medicine simultaneously.Modern medicine, cytobiology and development of molecular biology, make people recognize that immune disorder not only can produce various immunological diseases, and confidential relation is all arranged with human senility and the elderly's the frequently-occurring disease such as the generation of tumour, hypertension, diabetes even psychosis etc.The harm of acquired immune deficiency syndrome (AIDS) makes people to the damaged serious consequence of immunity system more deep understanding arranged.Therefore, seeking good immunoregulation druge is pressing for of contemporary medical science, also is the common research topic that chemist and biologist face.A large amount of pharmacology and clinical studyes show that polysaccharide compound is a kind of good immunomodulator, and its energy immune cell activated improves body's immunological function, and normal cell is not had toxic side effect.Develop into a kind of immunotherapy therapy in recent ten years gradually, it more demonstrates superiority to tumor treatment than operation, chemotherapy, radiotherapy.
At present, separate from natural product in more than the 300 kind of polysaccharide that obtains, with from plant, it is the most important especially to separate the water-soluble polysaccharide that obtains from herbal medicine.As krestin common on the present market, ganoderan, Achyranthan etc., experiment and clinical proof they and infection, tumour, inflammation and some autoimmune disorders have substantial connection, this class polysaccharide is compared with respect to the immunomodulator that searches out from the meta-bolites of microorganism or bacterium such as Muramyl dipeptide MDP, Corynebacter Parvum CP, Picibanil OK-432 etc. does not have antigenicity and toxic side effect, and drug quality is controlled easily by chemical means.The inducing action of its generation by influencing reticuloendothelial system, scavenger cell, white corpuscle, antibody and complement and Interferon, rabbit and interleukin-waits and promotes body cell and humoral immune reaction, reaches the purpose of treatment disease and health care.For example Tian Gengyuan, Hui Yongzheng etc. disclose the new compound homologous fructosan compound from the Chinese medicine Radix Acanthopanacis Bidentatae extraction in CN ZL93112588.X, have another name called Achyranthan or AbPS, has obvious enhancing body immunologic function, suppress sarcoma growth and leukocyte increasing, but do not have antiviral and biological activity such as anticoagulation.In recent years, extensively be present in the antivirus action of the polysaccharide derivates-sulfated polysaccharides in the organism, particularly the effect of AIDS resisting poison HIV has caused domestic and international medicine scholar and virologist's very big interest.And the preparation of the high substitution value sulfate compound of polysaccharide, difficulty comparatively, be not substitution value low be exactly easily to cause original polysaccharide structures to be destroyed.
The purpose of this invention is to provide a kind of Fructoan sulfate, have another name called achyranthes polysaccharide sulphate, be called for short S-AbPS.
Another object of the present invention provides a kind of synthetic method of Fructoan sulfate, is to make through sulfuric acid esterification from the homologous fructosan compound.
The object of the invention also provides the purposes of Fructoan sulfate of the present invention.
Fructoan sulfate of the present invention has following structural formula:
Wherein: R=SO
3Na or OH, a, b, c, d, o, p, q=0-9;
A+b+c+d+o+p+q=1-9; This compound molecular-weight average is 708-5838, and its sulfur-bearing weight percent is 4-21%.
Fructoan sulfate of the present invention can be simplified to following primary structure formula:
Wherein: R=SO
3Na or OH, R '=R or
N=1 → 9, its sulphur content are 4-21%.
Above-mentioned Fructoan sulfate of the present invention is a homology mixture, and its major ingredient is to be made of 9 sugar.
Can obtain the Fructoan sulfate of 9 sugar after the purified deduction of Fructoan sulfate of the present invention.
Sulfate group is a very strong electron-withdrawing group, and its introducing will make the chemical shift of the carbon that links to each other with it that bigger variation is arranged.According to bibliographical information, after the primary hydroxyl on last 6 carbon of sugar ring was replaced by sulfate group, the chemical shift of the carbon that links to each other with it will be to a low mobile 6-8ppm, and other secondary hydroxyl except that 6 hydroxyls by the sulfate replacement after, its
13The C chemical shift can simultaneously, not have the chemical shift of substituted carbon to have less variation (Takashi Yoshida, etal.macromolecules, 23 (16), 3717,1990 more than a low mobile 4ppm yet; The same, 27,6272,1994; Edwin A. Yates, etal, carbohydrate Research, 294:15,1996).For this reason, we have carried out 600,000,000 to Polylevulosan and Fructoan sulfate respectively
13The research of CNMR, its spectrogram such as Fig. 2, shown in Figure 3.According to Polylevulosan
13CNMR universal law (Hans Hammer and Svein Morgenlie, Classification of Grass Fructans by
13C NMR spectroscopy, Acta Chemica Scandinavica, 44:158,1990).Above-mentioned two spectrograms are belonged to and compare, the results are shown in table 1, in table 2 and the table 3:
Table 1. Polylevulosan
13C NMR data
Carbon on the fructosyl | Chemical shift | Carbon on the glucosyl group | Chemical shift |
????C-1 | ???60.306??60.599 ???????60.658 | ?C-1 | 92.770??92.390 92.200 |
????C-2 | ???104.44??104.35 ???????104.24 ???104.06??103.95 ???????103.77 ???103.61??103.41 | C-2 | 71.384??71.344 |
????C-3 | ???77.487??77.281 ???????76.996 ???76.949??76.788 ???????76.684 ???76.603??76.327 | ?C-3 | 72.942??72.889 |
????C-4 | ???75.656??75.465 ???????75.187 ???74.943??74.888 ???????74.545 ???74.433??74.158 | ?C-4 | 69.702??69.552 69.506 69.455 |
????C-5 | ???81.290??80.940 ???????81.141 | ?C-5 | 72.698 |
????C-6 | ???63.618??63.464 ???????63.201 ???62.894??62.747 ???????62.640 ???62.545??62.396 | ?C-6 | 60.202 |
Table 2. Fructoan sulfate
13C NMR data
In order to seem convenient, each row one of difference of the chemical shift of corresponding carbon in Fructoan sulfate and the Achyranthan are shown as table 3.
Carbon on the fructosyl | Chemical shift | Carbon on the glucose | Chemical shift |
????C-1 | ??64.02??65.99 | ????C-1 | ?????89.99 |
????C-2 | ?103.15??102.60 | ????C-2 | ???????? |
????C-3 | ?????78.79 | ????C-3 | ???????? |
????C-4 | ?????79.52 | ????C-4 | ?????74.54 |
????C-5 | ??78.79??79.52 | ????C-5 | ?????74.54 |
????C-6 | ??69.51??69.02 | ????C-6 | ?????66.63 |
Table 3. Fructoan sulfate and Achyranthan
13C chemical shift poor
According to table 3, the C-1 of fructose in the Fructoan sulfate molecule, the C-6 of the glucose of C-6 its
13The variation of C chemical shift is bigger, has moved about 6ppm to low field, and this is conformed to by the chemical shift variation that sulfate replaces the coupled carbon in back with primary hydroxyl.The variation of the chemical shift of the C-4 of glucose and fructose has all been moved about 4.5ppm to low field.This is conformed to by the chemical shift variation that sulfate replaces the coupled carbon in back with secondary hydroxyl.And the about 2ppm of variation of the C-3 position chemical shift of fructose, less than introducing of the influence of a sulfate to the chemical shift of the carbon that links to each other, therefore can think, Achyranthan is after chemically modified, the C-1 of fructose, C-4, the C-4 of C-6 and glucose, hydroxyl on the C-6 position has been replaced by sulfate, and the hydroxyl on the fructose C-3 position is not substituted.
Carbon on the fructosyl | Chemical shift poor | Carbon on the glucose | Chemical shift poor |
?????C-1 | ????~6.0 | ?????C-1 | ????~-2.5 |
?????C-2 | ????~-1.0 | ?????C-2 | ???????? |
?????C-3 | ????~2.0 | ?????C-3 | ???????? |
?????C-4 | ????~4.5 | ?????C-4 | ????~5.0 |
?????C-5 | ????~-1.5 | ?????C-5 | ????~2.0?? |
?????C-6 | ????~6.5 | ?????C-6 | ????~6.2???? |
Above-mentioned Fructoan sulfate is through the element S analytical results, and sulphur content is 17.95%.Pass through electrospray ionization mass spectrum (ESIMS) analysis again and have only one group of main peak, have 11 electric charges, its total mass number is 3491 (Fig. 4).Carry out analysis-by-synthesis according to these two experimental datas, can draw to have only on one 9 glycan (being with 29 free hydroxyl groups) has 19 hydroxyl quilt-OSO
3Na replaces, and then its total mass number is 3414, if this 9 sugar sulfate molecule has 11 electric charges, wherein 8 is H
+, 3 Na
+, then its total mass number is 3491 just, and is just in time identical with the main peak of ESIMS.And no matter use other any amount of glycan, allow it be with M H
+With N Na
+Make m+n=11, its total mass number all can not match with 3491 these main peaks, therefore can think that the main component of this Fructoan sulfate is the compound that one 9 glycan has 19 sulfates, the content of the element S that calculates according to this result is 17.8%, and the S amount that contains that this and element branch result obtain is 17.95% to match.In addition, 29 free hydroxyl groups are arranged in one the 9 levan molecule, and wherein belong to C-1, the hydroxyl of C-4 and C-6 position just in time is 19 again, therefore can infer usefulness
13The glucose C-2 that C NMR method can't be determined, the hydroxyl on the C-3 position is not substituted.Therefore, the Fructoan sulfate that can infer 9 sugar has following structure:
R=SO wherein
3Na.MW=3414。
The preparation method of Fructoan sulfate of the present invention is to be raw material by extract the Polylevulosan (be called for short AbPS, have another name called Achyranthan) that obtains from the Chinese medicine root of bidentate achyranthes, and the Polylevulosan that is to say R=OH in the Fructoan sulfate structural formula is a raw material, with SO
3-N, dinethylformamide (is called for short SO
3-DMF) or sulphur trioxide-pyridine is dense or sulfuric acid room temperature to 120 ℃ reaction 0.1-10 hour, precipitate in the solvent that dissolves each other at water or with water then, water carries out film dialysis, drying.Promptly obtain S-AbPS.Described Polylevulosan and SO
3The mol ratio of-DMF or sulphur trioxide-pyridine or the vitriol oil is 1: 1-100.
In preparation method of the present invention, the alcohol that the described solvent that dissolves each other with water can be a low carbon chain, ketone, acetonitrile, pyridine etc., as methyl alcohol, ethanol, acetone, acetonitrile, pyridine etc.The film that is adopted can be that molecular weight cut-off is 500 to 1500 permeable membrane.
In preparation method of the present invention, improve temperature of reaction and help accelerating the reaction times, need 5-10 hour as reaction under the room temperature, reaction can be satisfied the demand in 0.1-1 hour in the time of 120 ℃.
Because Fructoan sulfate and SO
3The Fructoan sulfate that-DMF reaction back generates should decompose under acidic conditions, so, after the reaction or before, regulate pH to neutrality or slight alkalinity with monovalence metal hydroxides or its aqueous solution such as NiOH, KOH, NaOH and the aqueous solution thereof etc. with the film dialysis.Recommended adjustment is to PH7 to 8.
The drying of Cai Yonging can be common methods such as lyophilize, centrifugal drying or spray-dried in the present invention.
Adopt S-AbPS that aforesaid method makes further column chromatography purification obtain the Fructoan sulfate of 9 sugar, as usefulness SephadexG-25 or/and Dowexl * 2 column chromatographic isolation and purifications.Be about to the aqueous solution of aforesaid S-AbPS, make eluent, collect the elutriant of back 9 sugared glycan, concentrate or the dry Fructoan sulfate that promptly obtains 9 sugar with NaCl or the water-soluble shallow lake of KCl of water or 0.05-0.1mol.
Fructoan sulfate of the present invention has kept the basic structure of AbPS, should have immune enhancing function, but also has antiviral drug effect, as contains 0.25-0.5% Fructoan sulfate solution to CoxB
3Virus has complete restraining effect, contains 0.00625-0.25% Fructoan sulfate solution to CoxB
5Virus has complete restraining effect.Toxicity in the Vero cell, TC under the 50% cytopathy concentration
50Be 2420 ± 180mg/ml, T1 is 9.49 to the simplexvirus therapeutic index, to CoxB
3Viral therapy index T1 is 22.6.Animal experiment shows suckling mouse infection CoxB
3Virus has restraining effect.S-AbPS also has functions such as blood coagulation resisting function.
Fructoan sulfate of the present invention can be used as antiviral and anticoagulant medicine, and raw material sources are abundant, simple synthetic method.
Description of drawings, Fig. 1 are the outflow figure that Fructoan sulfate is used Dowexl * 2 (a) and SephadexG-25 (b) column chromatography respectively, and ordinate is the spectral absorption value of S-AbPS, and abscissa is the pipe number that effluent liquid is collected.Fig. 2 is AbPS
13C NMR spectrogram.Fig. 3 is the S-AbPS of 9 sugar
13C NMR spectrogram.Fig. 4 is the ESIMS spectrogram of the S-AbPS of 9 sugar.
20mL DMF is added in the 50mL three-necked bottle with drying tube and whipping appts, starts and stir, add the exquisite Polylevulosan powder of 1g slowly, to glycan complete molten after, add 3gSO
3-N, dinethylformamide, and vigorous stirring, the oil bath heating is warming up to 120 ℃, isothermal reaction 0.5hr gradually, take out three-necked bottle, be chilled to room temperature, reaction solution is poured in 60mL methyl alcohol or the acetone while stirring, continue to stir, make full and uniformly, leave standstill refrigerator overnight, incline and supernatant liquid, collecting precipitation, methyl alcohol or washing with alcohol get light brown viscous material 4.5g, it is dissolved in the 50mL distilled water, transfer to pH=7-7.5 with the 3N NaOH aqueous solution, remove by filter insolubles, the aqueous solution was to distill water dialysis 48 hours, dialysate volumes increases to 110mL, and it is 21% crude product 2.34g that lyophilize gets sulphur content.Above-mentioned crude product is water-soluble, after the SephadexG-25 column chromatography for separation, receive the unimodal position of a Sulfate of polysaccharide, through concentrate, must Fructoan sulfate 2.15g after the lyophilize.Molecular-weight average is 4230 by analysis, and sulphur content is 20.40, ultra-violet analysis UV (nm): 198,264,268,288.IR,cm
-1:821,1064,1233。Embodiment 2
Pyridine of falling 10mL and 10mL DMF respectively in the 50mL three-necked bottle of moisture eliminator and whipping appts stir, and adding the 1g molecular weight slowly is the Polylevulosan powder of 666-1962, is stirred to complete molten by constant pressure funnel dropping SO
3-DMF or sulphur trioxide-pyridine or concentrated sulfuric acid solution (2.5N).Room temperature, stirred 8 hours, in reactant impouring 200mL frozen water, transfer pH to 7-7.5 elimination insolubles with 3N KOH, filtrate adds the long-pending ethanol (95%) of triploid while stirring, the refrigerator standing over night, inclining solution, and throw out is dissolved in 50mL distilled water, adds 150mL ethanol, obtain light-yellow precipitate once more, throw out is dissolved in 50mL distilled water, is that 500 permeable membrane was dialysed 48 hours with molecular weight cut-off again, and the dialyzate lyophilize gets crude product 2.24g, crude product is dissolved in distilled water, through the SephadexG-25 column chromatography for separation, Fructoan sulfate 2.1g behind the purifying.The molecular weight ranges of the S-AbPS that obtains is 870-5838, sulphur content 15.4%, UV (nm): 200,264,268,288.IR,cm
-1:820,1064,1233。Embodiment 3
With 1g Polylevulosan yellow powder water dissolution, with after the SephadexG-25 column chromatography for separation, collect main unimodal position material, concentrate, after the drying, operation is as embodiment 1.Obtain the crude product Fructoan sulfate.
Get the Fructoan sulfate of 500mg methanol extraction, be dissolved in the 2ml distilled water, the centrifugal insolubles of removing, be added on the good Sephadex G-25 post of pre-balance, make eluent with distilled water, eluent flow rate is 20ml/hr, collect elutriant with the 2ml/ pipe, sulfuric acid-one phynol method is collected sugared peak.
Get the Fructoan sulfate of 500mg through the SephadexG-25 column chromatography purification, be dissolved in the 2ml distilled water, the centrifugal insolubles of removing, clarifying Fructoan sulfate is added on Dowexl * 2 posts, make eluent with 0.01MNaCl solution, collect elutriant with the 2ml/ pipe, collect sugared peak with sulfuric acid one phynol method, purification result as shown in Figure 1.Sulphur content is 17.81%, and molecular-weight average is 3414.UV(nm):198,264,268,288,IR,cm
-1:821,1064,1233。
13C NMR and ESIMS analytical results are shown in Fig. 3 and 4.Embodiment 4, the extracorporeal antivirus effect test
Because change of coxsackie b virus belongs to Picornaviridae, can cause paralysis disease, meningitis, encephalitis, myocarditis and respiratory tract disease etc., press the test method standard working specification, with micro plate cell cultures neutralization test, detect the effect of Fructoan sulfate, the results are shown in the following table change of coxsackie b virus.
(medicine) Fructoan sulfate is to coxsackie B
3(CoxB
3) viral effect
Inoculation material | Drug level | ||||
?1% | ?0.5% | ?0.25% | ?0.125% | ?0.0625% | |
??CoxB 3100TCID 50-medicine Hela cell contrast CoxB 3100TCID 50Contrast positive drug contrast (Guanidinium hydrochloride) | Toxicity-4 toxicity | --4 toxicity | ???- ???- ???4 ???- | ????4 ????- ????4 ????- | ????4 ????- ????4 ????4 |
Fructoan sulfate is to coxsackie B
5(CoxB
5) viral effect
Above-mentioned check conclusion is: 0.25%~0.5% Fructoan sulfate is to CoxB
3Virus has complete restraining effect; The 0.00625%-0.25% Fructoan sulfate has complete restraining effect to CoxB5 virus.Embodiment 5, and toxicity and antivirus test S-AbPS toxicity in the Vero cell reaches COXB in the cell
3Effect with simplexvirus
Inoculation material | Drug level (%) | |||
???0.50 | ???0.25 | ???0.0125 | ???0.00625 | |
Virus adds medicine Hep-2 cell contrast virus control 100TCID 50???(10 -55) the medicine contrast | Slightly atrophy--(2 days)++ slightly atrophy | ----(3 days) ++ ++-- | ----(6 days) ++ ++ ++ ++-- | ??????-- ??????-- ??????- |
S-AbPS is mixed with 5mg/ml with nutrient solution.Adopt [Vero (African green monkey kidney) cell] and following virus: COXB
3Go down to posterity on VR (30) 4, the Vero cells ,-70 ℃ of preservations, during experiment with 10
-3Simplexvirus SM44 goes down to posterity on the Vero cell ,-70 ℃ of preservations, during experiment with 10
-4Detection method:
1. toxicity test: Vero cell 200,000/ml kind 96 orifice plates, 37 ℃ of 5%CO
2Cultivate, grew up to individual layer, and added medicine: 5mg/ml in 48 hours; 2.5mg/ml; 1.25mg/ml; 0.625mg/ml; 0.3125mg/ml, every concentration 4 holes, the observation of cell pathology, the 7th day record CPE adds MTT dyeing 4 hours, and the DMSO lysing cell is surveyed cell OD value, calculates 50% cytopathy concentration TC
50
2. antiviral titration: Vero cell 200,000/ml kind 96 orifice plates, 37 ℃ of 5% CO
2Cultivate, grew up to individual layer in 48 hours, add virus, adsorbed 2 hours, inclining viral liquid, adds medicine: 2mg/ml; 1mg/ml; 0.5mg/ml; 0.25mg/ml; 0.125mg/ml; 0.0625mg/ml:0.03125mg/ml, concentration 4 holes, 37 ℃ of 5% CO
2Cultivate, observation of cell pathology after 48-72 hour, record CPE adds MTT dyeing 4 hours, and the DMSO lysing cell is surveyed cell OD value, calculates 50% and suppresses cytopathy concentration IC
50And therapeutic index TI.Detected result:
1. two crowdes of experimental result TC of cytotoxicity
50For: 2550 μ g/ml; Average 2420 ± 180 μ g/ml of 2290 μ g/ml.
2. simplexvirus is acted on: two crowdes of experimental result IC
50For: 230 μ g/ml; Average 255 ± 35 μ g/ml of 280 μ g/ml.Therapeutic index TI:9.49.
3. to COXB
3Virus function: two crowdes of experimental result IC
50Be 110 μ g/ml; Average 107 ± 5 μ g/ml of 103 μ g/ml.Therapeutic index TI:22.6.Embodiment 6, animal experiment
Require to have checked Fructoan sulfate to antiviral drug effect in the animal body according to acute toxicity test in mice, compare with the positive drug Guanidinium hydrochloride, the result is as shown in the table:
Fructoan sulfate is to CoxB
3The restraining effect (14 days results) of virus
(Kunming kind<48 hour suckling mouse experiment)
Inoculation material | Drug level | ||
????0.5%(LDo) | ?0.25%(12LDo) | ??0.125%(14LDo) | |
?CoxB 3100LD 50The normal suckling mouse contrast of-medicine CoxB 3100LD 50The contrast of contrast positive drug | All all survival 5/10 survivals of survival of 8/10 survival | 5/10 survival, 1/10 survival | All dead all dead |
The above results shows: positive drug (hydrochloric acid arc) contrast is set up, and the result shows that also 0.5% Fructoan sulfate infects CoxB to suckling mouse
3Virus has 80% restraining effect, and 0.25% Fructoan sulfate infects CoxB to suckling mouse
3Virus has 50% restraining effect.And positive drug 0.5% concentration has only 50% restraining effect, and 0.25% concentration has only 10% restraining effect.Embodiment 7, the anticoagulation test
Before the S-AbPS administration, be solvent, be made into the concentration of needs with physiological saline.To male, body weight 20-22g is the Kunming mouse administration, to observe the blood coagulation resisting function of S-AbPS.The heparin injection of producing with the Shanghai biochemical-pharmaceutical factory is medicine in contrast.
Experimental technique: measure ED with sequential method
50Intravenous administration, capacity is 10ml/kg, presses the different concns administration, extracts eyeball after the administration in 1 minute, and the eye blood sampling of sinking in places in vitro, observes whether blood coagulation after 10 minutes.Measure the roughly concentration range of blood coagulation and not blood coagulation earlier through trial test.In this scope, begin to successively decrease and be diluted to the different concns test solution by eight folding geometric ratios from blood coagulation concentration.By the sequential method requirement, determine next grade dosage according to last shelves dosage result, carry out two sequences continuously, average as experimental result.
Experimental result: measure S-AbPS blood coagulation resisting function ED with sequential method
50The result: carry out two sequences, its mean value intravenous injection ED
50=104.86 μ g, the intravenous ED of control drug heparin
50=3.42 μ (unit), the result shows that AbPS has blood coagulation resisting function.
Claims (10)
4. the synthetic method as claim 1,2 or 3 described Fructoan sulfates is characterized in that in solvent, Polylevulosan and the SO of R=OH in claim 1, the 2 or 3 described molecular formula
3-N, dinethylformamide or sulphur trioxide-pyridine or the vitriol oil be room temperature to 120 ℃ reaction 0.1-10 hour, precipitates in the solvent that reaction product is dissolved each other at water or with water, and water carries out permeable membrane dialysis, drying, described Polylevulosan and SO
3-N, the mol ratio of dinethylformamide or sulphur trioxide-pyridine or the vitriol oil is 1: 1-100.
5. synthetic method as claimed in claim 4 is characterized in that the described solvent that dissolves each other with water is ketone, alcohol, pyridine or the acetonitrile of low carbon chain.
6. synthetic method as claimed in claim 4 is characterized in that described permeable membrane molecular weight cut-off is 500 to 1500.
7. synthetic method as claimed in claim 4 is characterized in that using column chromatography purifying again, gets the described Fructoan sulfate of claim 3.
8. synthetic method as claimed in claim 4 is characterized in that described column chromatography adopts SephadexG-25 or/and the chromatography column of Dowexl * 2.
9. the purposes as claim 1,2 or 3 described Fructoan sulfates is characterized in that a kind of antiviral drug.
10. the purposes as claim 1,2 or 3 described Fructoan sulfates is characterized in that a kind of anticoagulant medicine.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN99113444A CN1083848C (en) | 1999-01-29 | 1999-01-29 | Fructoan sulfate, its synthesizing process and use thereof |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN99113444A CN1083848C (en) | 1999-01-29 | 1999-01-29 | Fructoan sulfate, its synthesizing process and use thereof |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1232040A true CN1232040A (en) | 1999-10-20 |
CN1083848C CN1083848C (en) | 2002-05-01 |
Family
ID=5276634
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN99113444A Expired - Fee Related CN1083848C (en) | 1999-01-29 | 1999-01-29 | Fructoan sulfate, its synthesizing process and use thereof |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN1083848C (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1313098C (en) * | 2005-03-21 | 2007-05-02 | 中国医学科学院医药生物技术研究所 | New use of achyranthes polysaccharide sulphate for anti Aids and immune regulation |
CN107383225A (en) * | 2017-06-29 | 2017-11-24 | 华东师范大学 | A kind of anti-tumor drug levulan carboxylate and its synthetic method |
CN108840959A (en) * | 2018-07-13 | 2018-11-20 | 河北鑫安然生物科技有限公司 | It is esterified the preparation method of Inokopolyose |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE1300668B (en) * | 1964-01-11 | 1969-08-07 | Hoechst Ag | Process for the production of low molecular weight sulfuric acid esters from Laevanen |
DE1443903A1 (en) * | 1964-09-19 | 1968-10-31 | Hoechst Ag | Carboxylalkyl levan sulfates and processes for their preparation |
BE792916A (en) * | 1971-12-16 | 1973-06-18 | Hoechst Ag | MEDICINAL PRODUCT WITH ANTIPEPTIC ACTIVITY |
CN1067405C (en) * | 1998-04-24 | 2001-06-20 | 华中理工大学 | Indocalamus-leaf polyose sulfate and preparation process therefor |
-
1999
- 1999-01-29 CN CN99113444A patent/CN1083848C/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1313098C (en) * | 2005-03-21 | 2007-05-02 | 中国医学科学院医药生物技术研究所 | New use of achyranthes polysaccharide sulphate for anti Aids and immune regulation |
CN107383225A (en) * | 2017-06-29 | 2017-11-24 | 华东师范大学 | A kind of anti-tumor drug levulan carboxylate and its synthetic method |
CN108840959A (en) * | 2018-07-13 | 2018-11-20 | 河北鑫安然生物科技有限公司 | It is esterified the preparation method of Inokopolyose |
Also Published As
Publication number | Publication date |
---|---|
CN1083848C (en) | 2002-05-01 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN114163545B (en) | Lycium barbarum polysaccharide and application thereof in reducing blood sugar | |
CN100336833C (en) | Companumoea root polyose, derivative and its preparing method and use | |
CN114591448A (en) | Phellinus igniarius sporophore mannogalactan and preparation and application thereof | |
CN110540603B (en) | Rhizoma anemarrhenae polysaccharide, and preparation method, identification method and application thereof | |
CN113278091A (en) | Porphyridium polysaccharide and preparation method and application thereof | |
CN102234336A (en) | Fucoidan-galactosan sulfate, extracting, separating, and purifying method thereof, and application thereof | |
CN105902562A (en) | Application of glucomannan in preparation of leucocytopenia prevention and treatment drugs | |
CN1290867C (en) | Polysaccharide of echinacea angustifolia | |
CN104829737A (en) | Crude raspberry leaf polysaccharide, and preparation method and application thereof | |
CN1083848C (en) | Fructoan sulfate, its synthesizing process and use thereof | |
CN112321737B (en) | Oyster mushroom polysaccharide selenoside-II, preparation method thereof and application thereof in preparation of medicines for specifically killing non-small lung adenocarcinoma | |
EP0441278A1 (en) | Polysaccharides with immunomodulating properties from astragalus membranaceus and pharmaceutical compositions containing them | |
CN107698695A (en) | Homogeneous polysaccharide with immunomodulatory action and preparation method thereof | |
CN105796587B (en) | Caulis bambusae in taenian polysaccharide immunological regulation, it is antitumor in application | |
CN112274529A (en) | Application of oyster mushroom polysaccharide selenoside-III anticancer active ingredient in preparation of anti-gastric cancer medicine | |
CN108864316B (en) | Sulfonated peony seed polysaccharide and application thereof in preparation of auxiliary medicine for treating liver cancer | |
CN116003645A (en) | Fucoidan, and preparation and purification method thereof | |
CN112237588B (en) | Application of oyster mushroom polysaccharide selenoside-III anticancer active ingredient in preparation of medicine for resisting prostate cancer | |
CN1266164C (en) | Lucid ganoderma spore powder polysaccharide, production method and use | |
CN100349579C (en) | Composition of ginseng-astragalus polysaccharides and its preparing method | |
CN106008736A (en) | Wide-molecular-weight-distribution carboxymethyl pachymaran, and preparation method and application thereof | |
CN100417390C (en) | Effective part of sweet wormwood, its preparation method and application thereof in pharmacy | |
CN106084085B (en) | A kind of preparation method and application of low-molecular-weight algal polysaccharide sulfate | |
CN1049221C (en) | Ginseng oligosaccharide element and ginseng monomer oligosaccharide and its preparing technology and use | |
CN110894244B (en) | Structure of ground beetle polysaccharide and application thereof |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C06 | Publication | ||
PB01 | Publication | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20020501 Termination date: 20150129 |
|
EXPY | Termination of patent right or utility model |