CN1935154A - Pharmaceutical use of fucoidan for treating cardio-cerebrovascular disease - Google Patents

Abstract

The present invention discloses an application of brown algae polysaccharide sulfate in the preparation of medicine for curing angiocardiopathy and cerebrovascular disease, specially for curing ischemic angicardiopathy and cerebrovascular disease. The invented brown algae polysaccharide sulfate can be extracted from sea-tangle, focus vesiculosus, kelp or sea lace, etc, and its molecular weight is 10KD-1000KD.

Description

The purposes of sulfated fucan in the medicine of preparation treatment cardiovascular and cerebrovascular disease

Technical field

The present invention relates to the pharmaceutical applications of sulfated fucan, particularly the purposes of sulfated fucan aspect preparation treatment cardiovascular and cerebrovascular diseases medicament.

Background technology

Sulfated fucan is a class sulfated polysaccharides, is present in the Brown algae, is at first extracted from the palmate Thallus Laminariae (Thallus Eckloniae) with diluted acid in 1913 by Kylin.Kylin isolates the L-fucose after with the extract hydrolysis, he is with this polysaccharide called after fucoidin, now generally name and be that fucoidan, Chinese are fucoidin, fucoidin, fucosan, fucoidan, fucoidan or sulfated fucan according to the nomenclature principle of polysaccharide.Now people have comparatively clearly the composition of sulfated fucan and understand, and it is a class chemical composition and the very complicated polysaccharide of structure, based on fucose and sulfate, along with the kind difference of algae also contains other compositions such as galactose, xylose, alduronic acid.Thallus Laminariae (Thallus Eckloniae) Fucoidan is made up of monosaccharide such as fucose, galactose, xylose, glucuronic acid, arabinose.Based on fucose and galactose, fucose and galactose are probably at 3: 1.

The sulfated fucan chemical constitution is very complicated, and its structure of the sulfated fucan that is separated in the different Brown algaes has very big-difference.Up to the present, structural research to the sulfated fucan that derives from Fucus Vesiculosus (Fucus vesiculosus) and yellow tang (Ascophyllum nodosum) is maximum, the Fucus Vesiculosus sulfated fucan mainly connects with α (1 → 3) glycosidic bond, and sulphation mainly occurs in C ₄The position.The multinomial research of yellow tang sulfated fucan all shown wherein have a large amount of α (1 → 3) and α (1 → 4) glycosidic bond.Also have the structure of several Brown algae sulfated fucan to be in the news in addition.Thallus Laminariae (Thallus Eckloniae) (Ecklonia kurome) sulfated fucan is mainly α (1 → 3) and connects, and sulphation is at C ₄The position.The sulfated fucan main chain that derives from tap algae (Cladosiphon okamuranus) and Chorda filum (L.) Stackh. (Chorda filum) is the fucose of α (1 → 3), and sulphation is at C ₄The position, and the two all has a spot of 2-O-acetylation.

Fucus Vesiculosus, yellow tang sulfated fucan structure

Thallus Laminariae (Thallus Eckloniae) sulfated fucan structure

Chorda filum (L.) Stackh. sulfated fucan structure

About the structure of Thallus Laminariae (Thallus Eckloniae) sulfated fucan, most research datas shows that the Thallus Laminariae (Thallus Eckloniae) sulfated fucan mainly is to form with the L-fucose that α-(1 → 3) connects, and sulphation occurs in C ₄Or C ₂The position, and part Study shows that the L-fucose that has part (1 → 2) connection is as side chain.With Chorda filum (L.) Stackh. sulfated fucan structure among the last figure similarity is arranged.But the part acetyl group is arranged in the Chorda filum (L.) Stackh..And the shared ratio of different substituents group is also different.Certainly also have monosaccharide such as galactose, xylose, rhamnose in the molecule, galactose may participate in the composition of main chain, and xylose, rhamnose etc. to be form with side chain exist.

Existing many pieces of documents disclose the preparation method and the pharmaceutical applications thereof of sulfated fucan.The clear 46-2248 of Japan Patent adopts hexadecane pyridinium chloride or hexadecane trimethyl ammonium bromide and sulfated fucan to be reacted into the quaternary amine complex, utilize the dissolubility difference of this complex again to salt, with ethanol, methanol and ion exchange resin treatment, purification is removed Algin, neutral polysaccharide and other impurity, and obtains the fucoidin sulphuric acid acid esters of comparison purification.CN1129109A then discloses the alkali condensation method by dried kelp soaking, filtration for several times, secondary ethanol extraction, washing with alcohol, fit adjustment PH scope etc.CN1344565A then discloses another kind of preparation method, comprises steps such as pretreatment of raw material, temperature control stirring and leaching, centrifugal, concentrated, ethanol precipitation, dehydrated alcohol dehydration.CN1560086A then discloses a kind of preparation method of high sulfate radical content fucoidan, with hot water or sour water lixiviate Brown algae, make the extracting solution that contains Brown algae polysaccharide sulfuric ester, the percetage by weight that this extracting solution is concentrated into polysaccharide is 2-10%, transfers PH5-8, adds chitosan solution and stirs, centrifugal or cross collecting precipitation, precipitation is used for 5-10 times of saline solution extracts 2-4 time, clear liquid is collected in centrifugal or filtration, with this clear liquid dialysis or ultrafiltration desalination.In addition, CN1670028A, CN1392160A, CN1197674A also disclose methods such as adopting flocculation respectively and have prepared Sargassum polysaccharides.In the present invention, above disclosure of invention all is incorporated herein by reference in full.

In addition, more than invention also disclose sulfated fucan and had anticoagulation, improved immunity, antitumor, antibiotics virus, blood sugar lowering, radioprotective, inhibition ascites tumor isoreactivity, CN1547478A then discloses its purposes in treatment adhesion, arthritis and psoriasis.But there is not document to show the purposes of sulfated fucan aspect the treatment ischemic cardio cerebrovascular diseases as yet.

Summary of the invention

The purpose of this invention is to provide the purposes of sulfated fucan aspect the treatment ischemic cardio cerebrovascular diseases.Ischemic cardio cerebrovascular diseases wherein includes but not limited to coronary heart disease and apoplexy, coronary heart disease wherein includes but not limited to common clinically latent coronary heart disease, angina pectoris coronary heart disease, myocardial infarction, arrhythmia, sudden death coronary heart disease five types, and apoplexy includes but not limited to common clinically cerebral hemorrhage, cerebral thrombosis, cerebral infarction etc.

Sulfated fucan of the present invention can derive from the Thallus Laminariae (Thallus Eckloniae) of artificial cultivation, also can be wild Brown algae Alga Sgrgassi Enerves, Thallus Laminariae, Sargassum fusiforme (Harv.) Setch, Mus tail algae, Thallus Sargassi Kjellmaniani, Thallus Laminariae (Thallus Eckloniae), yellow tang or Fucus Vesiculosus.Preferably derive from Thallus Laminariae (Thallus Eckloniae).Sulfated fucan molecular weight ranges among the present invention is 10KD～1000KD, and preferably 20KD～800KD is more preferably 50KD～700KD, and the best is 100KD～700KD.

On the other hand, the invention provides the pharmaceutical composition that contains sulfated fucan.Comprise the sulfated fucan and at least a acceptable accessories for the treatment of effective dose in the described compositions.The administering mode of said composition can be but be not limited to through mode administrations such as intravenous injection, oral, muscle, subcutaneous, skin surface, internal rectum, local injections, its dosage form can but to be not limited to be injection, lyophilized injectable powder, injectable microsphere, liposome, tablet, capsule, water preparation, powder, paste, spray, granule, soft capsule, drop pill, gel, paster, unguentum etc., wherein preferred injection, lyophilized injectable powder, tablet and capsule.Those skilled in the art can prepare required dosage form easily according to the common practise of prior art and formulation art.

In the compositions of the present invention, the weight percentage of sulfated fucan 〉=50% is preferably 〉=70%, and more preferably 〉=90%, the best is 〉=95%.The content of sulfated fucan can be 1mg～1000mg in the unit formulation, preferred 10mg～800mg, and more preferably 30mmg～500mg, 30mg～300mg most preferably, the best is 50mg～100mg.

Sulfated fucan of the present invention is extraction and purification, classification in the following manner:

1. extract

Sulfated fucan can water, diluted acid or calcium chloride solution extract, in extracting solution, add Lead oxide hydrate, aluminium hydroxide, ethanol or quaternary ammonium salts cationic surfactant then, sulfated fucan is precipitated out, in order to reduce the stripping of pigment, protein etc., can handle frond with high concentration alcohols or formalin earlier before extracting.

In recent years also successively the someone adopt methods such as microwave extraction, ultrasonic extraction and the extraction of flocculating polymer precipitation.

2 purification

The ethanol reprecipitation: the English one that exports to the west (the English first-class that exports to the west, this Shui of Ri Productivity Hui Chi, 1982,48 (12): 1771) to the thick sulfated fucan aqueous solution of hot water extraction at 0.05M MgCl ₂When existing, remove water solublity Algin as impurity with 20% ethanol precipitation.Wang Zuoyun, Zhao Xuewu (Wang Zuoyun. Zhao Xuewu. separating and purification of the fucoidan of Sargassum phyllocystum Tseng et Lu,Sargassum horneri (Turn.) C. Ag. (Fucus horneri (Turn.)C.Ag.,Spongocarpus horneri Kutz.), laminaran and Algin. aquatic product journal .1985; 9 (1): 71) in the research Sargassum phyllocystum Tseng et Lu,Sargassum horneri (Turn.) C. Ag. (Fucus horneri (Turn.)C.Ag.,Spongocarpus horneri Kutz.) during sulfated fucan, with the thick sulfated fucan that makes water-soluble after, successively with 4M CaCl ₂Remove Algin with 30% ethanol precipitation, then with the settle out sulfated fucan of purification of 80% ethanol.

The quaternary ammonium salts sedimentation method: utilize cationic surfactant such as hexadecylpyridinium chloride (CPC) or cetyl trimethyl ammonium bromide (CTAB) to produce sedimentary character sulfated fucan is precipitated with polyelectrolyte.

In extraction and purge process, for ion and the small-molecule substance of removing in the solution generally all adopts the method for dialysing.Also the someone adopts the ultra-filtration and separation method to get rid of the less material of molecular weight.Sometimes for to remove laminaran and the protein that is mingled in the extracting solution, can take enzyme digestion.(Fleury N andLahaye M.Studies on by-products from the industrlal extration of alglnate2.Chemieal structure analysis of fucans from the leach-water.J Appl Phycol such as Feury, 1993,5:605-610) when the side-product of the French Algin industry of research, just adopt glucanase and alcalase to remove wherein laminaran and protein.Separate laminaran and sulfated fucan and can also adopt ion-exchange-resin process, because the former is electroneutral, and the latter is the polyanion form.

3 classifications

Because the sulfated fucan chemical constituent is quite complicated, chromatograph and electrophoretic examinations to the thick sulfated fucan prepared generally all present inhomogeneity, therefore people progressively use stage division that miscellaneous polysaccharide is divided into different fractions has two kinds to further investigate stage division commonly used: a kind of is ethanol precipitation, promptly utilizes different concentration of alcohol to be settled out different fraction.Another kind is a chromatography, utilizes gel filtration chromatography and ion-exchange chromatography to carry out classification.Ion exchange chromatography can be divided into polysaccharide the different fraction of charge, and gel-filtration chromatography then carries out classification with polysaccharide according to the molecular weight size.

In addition, the disclosed extracting method of institute's referenced patents and also can at random be adopted herein by those skilled in the art by the product of these methods preparation.

The specific embodiment

Below by the specific embodiment the present invention is further specified.Here want to be pointed out that, below the specific embodiment only be used for illustrating the present invention, those skilled in the art are understanding under the prerequisite of spirit of the present invention, can carry out corresponding conversion to the present invention according to the prior art and the knowledge in present technique field, these technical schemes all fall within the scope of the present invention.

The preparation of EXAMPLE l sulfated fucan

Sargassum is pulverized the back with 3.7% formalin soaked overnight, add the distilled water boiling water extraction then, extracting solution helps with kieselguhr and filters filter, filtrate is earlier with tap water flowing water dialysis one day, then with distill water dialysis one day, dialysis solution is concentrated, and adding ethanol to concentration is 75% precipitation, precipitates the dry thick sulfated fucan that gets.Crude product is heavy water-soluble, at 0.05mol/L MgCl ₂20% ethanol precipitation is removed the water solublity Algin under existing, and back 75% ethanol precipitation is dialysed, concentrated to filtrate, promptly obtains the sulfated fucan of purification after the drying.Prepare four kinds of Sargassum sulfated fucan according to the method described above, its chemical constituent is analyzed as follows shown in the table:

Sargassum	Fucose (%)	Sulfate radical (%)	Molecular weight (kD)	Ash (%)	The monosaccharide molar ratio
									Fucose	Galactose	Xylose	Glucose
					Thallus Sargassi Kjellmaniani	26.5	14.8	980					20.8	1.00	0.24	0.05	0.04
Mus tail algae	25.4	17.0	650	22.6					1.00	0.24		0.03
					The Folium Ilicis Purpureae Alga Sgrgassi Enerves	13.3	12.5	588					20.8	1.00	0.35	0.16	0.08
Thallus Laminariae (Thallus Eckloniae)	28.8	30.2	350	31.2					1.00	0.36

The preparation of embodiment 2 sulfated fucan injections

Get sulfated fucan 50g, add water for injection 500ml, mannitol 50g transfers pH value to 7.0, packing, lyophilization.

The preparation of embodiment 3 sulfated fucan tablets

Get sulfated fucan 50g, add microcrystalline Cellulose, polyvinylpyrrolidone mixes, and adds suitable quantity of water, and the system soft material is granulated drying.Particle adds cross-linking sodium carboxymethyl cellulose, magnesium stearate, mixes, and tabletting, every contains sulfated fucan 100mg.

Embodiment 4 sulfated fucan are to the protective effect of myocardial ischemia

Influence to anesthetized open-chest dog hemodynamics and myocardial oxygen consumption

Some of healthy adult hybrid dogs, body weight 12-20kg, male and female dual-purpose, grouping, 6 every group.Matched group waits capacity 0.9%NS, and the positive drug group gives that SHUXUENING 4mg/kg, experimental group sulfated fucan (the about 700KD of molecular weight) are made as 4, two dosage groups of 16mg/kg, the employing intravenous administration.

With pentobarbital sodium 30mg/kg i.V. anesthesia, back of the body position is fixing, and skin of neck cuts, and tracheal intubation connects electric pulmotor, separates right carotid, connects the AP-601G amplifier, measures blood pressure.Separate femoral artery, connect the AP-601G amplifier, carry out the ventricle interpolation pipe, measure left indoor pressure, end diastolic pressure, and through the maximum rate of change (± dP/dt max) of differential processor EQ-601G mensuration left indoor pressure.The 4th intercostal is executed thoracotomy in the left side, exposes heart, cuts off pericardium, does the pericardium art.Separate LCA and aortic root, place the electromagnetic flowmeter probe, measure coronary flow and aorta flow.Extremity connect limb lead, and bioassay standard II leads electrocardiogram, calculate heart rate.Separate femoral vein, make venous cannulation, in order to administration.Above-mentioned each index synchronous recording is in polygraph.Art finishes, and stablize 15min, reaches behind the medicine 3,5,10,15,20,30,45,60,90,120,150,180 before the record administration, all indexs of 240min.Before administration and behind the medicine 45,60,90,120,180,240min gets tremulous pulse, coronary sinus vein blood, measures oxygen content with blood oxygen instrument (Kang Ni-158, produced in USA).And, calculate two-level index: mean arterial pressure, cardiac index, SI, stroke work index, total peripheral resistance, coronary resistance, myocardial oxygen consumption, myocardial oxygen consumption index, myocardium oxygen uptake rate, myocardial flow etc. according to formula.Experimental data measured value and variation fraction values and matched group are relatively organized a t inspection statistics analysis.

Influence to experimental myocardial infarction dog

Some of hybrid dogs, the same random packet, is anaesthetized with pentobarbital 30mg/kg iv by 6 every group.Back of the body position is fixing, and skin of neck cuts, tracheal intubation, connect SC-3 type artificial respirator, separate 1/3 place under the left anterior descending coronary artery, threading causes myocardial infarction in order to ligation, with the wet cloth formula absorption method mapping EECG of multiple spot, 32 of mapping points divide normal district (control point), infraction marginal zone and infraction center, art finishes, and stablizes 15min.Simultaneously get blood from femoral vein, thought-read flesh three enzyme AST, CPK and LDH value as being worth before the administration, behind the ligation coronary artery 15min, treat that the ST section obviously raises, and both set up for model.Through the femoral vein administration, matched group waits capacity 0.9%NS, positive drug group matched group gives SHUXUENING 4mg/kg, experimental group gives reagent two dosage groups respectively, record is normal, after ligation and the administration 3,5,10,15,20,30,45,60,90,120,150,180,240,300,360min EECG, showing Σ-ST with ST section total mV numerical table that raises, is N-ST with the number that leads of ST section rising＞2mV.Behind the record 360min, get blood thought-read flesh three enzymes for the second time.Experiment is taken off heart after finishing, and claims to weigh whole-heartedly, cuts off trunk root and atrium along coronary sulcus, claims left ventricle heavy.Be cut into 5～6 with left ventricle is cross-section equably, place nitro tetrazole orchid (N-BT) dye liquor, 15min dyes in 37 ℃ of constant water bath box.Infarcted region is not painted, and non-infarcted region is dyed by NBT and is blueness.Cut off each myocardium sheet and be colored non-infarcted region cardiac muscle, undyed infarcted myocardium is weighed, obtain infarction size heavily respectively divided by heavy and ventricle whole-heartedly and account for heavy whole-heartedly and the heavy % of ventricle.All experimental datas are with means standard deviation

The mean significance of difference between t check judgement group is used in expression.

Experimental result

For sulfated fucan, 16mg/kg dosage group to dog degree of ischemia measured value, with the blank group significant difference is arranged relatively, and rate of change has significant inhibitory effect from 10-240min behind the drug administration by injection.

For sulfated fucan, 16mg/kg dosage group to dog ischemia scope measured value, relatively has significant difference with the blank group from 10-240min behind the drug administration by injection, and corresponding rate of change has significant inhibitory effect from 10-45min.

Concrete outcome sees Table 1～3.

Table 1 sulfated fucan to the influence of myocardial infarction dogs degree of ischemia (Σ-ST, Mv) (X ± s, n=6)

Group	Dosage (mg/kg)	After the administration (min)
										Ligation	3	5	10	15	20	30	45
		The control group % peaceful % algal polysaccharide sulfate of the blood % algal polysaccharide sulfate % that relaxes	- 4.0 4.0 16.0	186.00±63.60 195.83±55.89 186.00±53.94 174.67±49.85	182.50±47.62 6.44±43.27 189.83±92.59 -6.98±20.97 167.50±56.01 -10.98±10.15 147.50±57.42 -16.63±21.55	167.33±40.71 -2.43±36.90 182.17±78.42 -8.66±30.77 157.33±79.98 -17.65±27.06 131.33±59.03 -25.65±26.24	186.50±45.72 5.03±25.18 146.33±48.13 -24.36±22.46 156.17±68.02 -17.19±21.39 108.83±47.60 * -37.76±21.69#	180.17±58.45 1.14±31.98 115.67±23.31 * -36.33±20.69# 152.33±56.38 -18.48±17.07 112.00±30.66 * -34.14±13.10#	173.67±51.72 -0.82±36.50 113.17±15.74 * -39.56±12.95# 147.17±40.33 -20.39±6.33 111.00±35.56 * -35.61±13.28									172.50±52.51 -1.02±34.45 97.50±23.17 ** -47.91±14.66# 141.33±46.11 -24.16±10.88 101.33±49.02 * -39.86±27.26	160.67±35.97 -7.21±29.09 85.00±15.88 *** -54.15±12.07## 135.00±44.34 -27.66±10.78 108.00±42.69 * -34.69±29.89
After the administration (min)
												60	90	120	150	180	240	300	360
175.00±55.68 2.40±48.24 89.67±29.06 ** -53.33±11.82# 122.33±34.43 -33.27±10.06 106.67±50.27 * -38.29±23.37	171.67±75.79 -0.90±46.91 90.67±23.24 * -50.98±15.48# 135.67±41.34 -26.81±9.75 92.83±40.71 * -48.20±16.73#	170.83±60.97 -1.75±41.95 78.50±17.06 ** -56.13±19.53# 133.83±32.90 -26.88±8.07 97.17±38.84 * -43.84±14.74#	163.50±49.94 -5.29±39.29 79.33±20.61 ** -54.67±23.30# 136.67±27.35 -24.38±10.91 92.17±30.97 * -45.84±13.83#	160.67±48.39 -5.46±42.57 94.00±34.05 * -45.77±32.33 130.67±36.36 -29.13±10.12 94.67±27.08 * -42.39±22.30	171.33±70.57 -0.37±47.76 97.17±36.90 * -43.64±36.39 139.17±39.75 -22.04±27.34 96.50±40.11 * -46.86±9.73#	166.17±64.44 -1.24±49.80 100.33±34.48 -44.08±31.33 126.50±39.92 -31.40±15.10 110.17±45.58 -37.53±19.14	164.83±57.85 -3.96±40.74 103.33±37.66 -41.78±35.48 144.50±49.33 -23.22±11.74 111.17±48.35 -37.49±21.21

Compare with the normal saline group, ^*P＜0.05 ^*P＜0.01 ^{* *}P＜0.001 changes percentage comparisons #P＜0.05, ##P＜0.01 with the normal saline group

Table 2 sulfated fucan to the influence (N-ST, point) of myocardial infarction dogs ischemia scope (X ± s, n=6)

Group	Dosage (mg/kg)	After the administration (min)
															Ligation	3		5		10		15		20	30		45
		The control group % peaceful % algal polysaccharide sulfate of the blood % algal polysaccharide sulfate % that relaxes	- 4.0 4.0 16.0	21.50±2.95 19.50±2.17 19.83±3.66 19.50±2.17	21.50±3.21 -0.13±3.27 19.50±2.07 0.55±11.97 19.50±3.83 -1.39±13.37 18.17±2.71 -6.92±9.56		20.83±3.25 -3.24±5.10 16.50±4.14 -15.77±17.84 18.50±3.56 -5.42±18.92 16.67±3.56 -14.94±14.27		20.17±3.13 -5.89±9.70 16.50±2.88 -14.44±18.47 18.00±4.90 -8.95±21.19 13.67±4.27 * -29.35±21.80#		20.17±2.86 -5.59±12.07 16.67±3.27 -13.39±22.25 19.83±3.76 1.29±17.80 14.00±1.55 *** -27.20±13.32#		19.83±2.64 -7.47±6.52 15.83±2.48 * -17.63±18.48 19.17±3.60 -2.44±16.48 13.33±2.07 *** -30.71±14.62##	20.83±2.64 -2.91±4.62 15.17±2.71 ** -21.21±16.75# 17.83±2.93 -8.36±18.26 14.00±2.61 ** -27.71±14.38##														19.83±3.97 -8.13±11.17 12.83±3.55 ** -34.13±17.12# 17.00±2.10 -13.76±9.85 14.17±2.04 * -27.33±7.29##
After the administration (min)
																	60		90		120		150		180	240		300	360
21.33±2.25 0.33±14.61 12.83±3.60 *** -33.53±19.03## 16.00±2.83 ** -18.14±13.25# 16.17±3.06 ** -16.45±16.29		20.83±1.94 -1.39±18.38 12.67±3.83 *** -35.08±18.85# 17.17±3.37 * -12.36±15.19 15.67±2.88 ** -19.85±11.58		20.00±2.90 -5.22±21.49 13.33±3.72 ** -32.12±15.12# 18.50±3.73 -6.41±10.32 15.00±2.10 ** -22.99±8.50		19.83±2.04 -6.71±13.25 13.00±2.90 *** -33.62±10.78## 19.00±4.00 -4.33±9.97 15.17±2.79 ** -21.89±14.01		19.83±2.79 -6.71±15.43 14.50±2.35 ** -25.79±6.94# 18.83±4.36 -5.42±12.71 13.67±3.39 ** -28.74±20.10	19.33±2.25 -8.83±14.59 15.00±3.10 * -22.89±15.13 18.33±4.03 -7.79±8.65 14.83±3.25 * -23.34±17.14		17.83±2.48 -15.51±17.04 14.33±3.08 -25.76±19.42 18.50±4.32 -7.24±10.67 15.33±1.86 -20.64±12.48	18.17±3.19 -14.35±16.87 14.00±4.52 -26.96±28.35 18.50±4.68 -7.21±13.90 15.17±2.64 -21.96±11.91

Table 3 sulfated fucan to the influence of myocardial infarction dogs myocardial infarction area (X ± s, n=6)

Group	Dosage	Infarction/(%) whole-heartedly	Infarction/left the heart (%)
				Normal saline group SHUXUENING sulfated fucan sulfated fucan	---- 4.0mg/kg 4.0mg/kg 16.0mg/kg	14.75＝1.73 11.74＝1.66 * 12.56＝1.46 * 11.84＝1.06 **	21.67＝2.42 17.43＝2.28 * 18.56＝1.81 * 17.46＝2.14 **

Embodiment 5 sulfated fucan are to the protective effect of experimental cerebral ischemia

Experimental technique

Influence to mice broken end mouth breathing time, frequency of respiration and brain water content

ICR mice 120, male and female half and half, be divided into 5 groups at random, be respectively blank group, positive controls, sulfated fucan sample 200,100,50 mgkg-1 dosage groups, administration group mice is respectively through tail vein 10mlkg-1 administration, positive controls tail vein injection nimodipine 2mgkg-1, model group is given normal saline, and 15min behind the medicine breaks end with shear, record mice the dehisce time of breathing, frequency of respiration and brain water content, between organizing relatively.

Brain water content is measured: get full brain, claim to dry 24h after its weight in wet base in 100 ℃ of baking boxs, get its mean value calculation brain water content: brain water content (%)=(weight in wet base-dry weight weight in wet base) * 100%, cerebral index: heavy (the g)/body weight (g) * 100% of cerebral index=cutaneous horn.

The common carotid artery ligation is poured into again the influence of the mouse brain ischemia that causes

Experiment grouping: experiment is divided into 6 groups: sham operated rats and model group (giving isopyknic normal saline respectively), and positive controls (nimodipine 2mgkg-1), sulfated fucan sample sets (200,100,50mgkg-1), the administration volume is 10ml/kg.

Animal model is set up: with the mice that is divided into group, after tail vein injection is tried thing, nimodipine or normal saline 15min respectively, 3.5% chloral hydrate anesthesia, mice is faced upward the position fixes, separate left and right sides common carotid artery, separate vagus nerve, penetrate surgical thread No. 4 under bilateral common carotid arteries, the tension silk thread is fixed, make the about 5min of bloodstream blocking, unclamp silk thread behind the 5min, make blood flow irritate 10min again, 3 times so repeatedly, make the mice ischemia-reperfusion injury model, after last multiple the filling, mice is put to death, get brain.Sham operated rats is only separated bilateral carotid, not the tractive silk thread.

Experimental result

Influence to mice broken end mouth breathing time, frequency of respiration, cerebral index and brain water content

Influence to mice broken end back breathing time and frequency of respiration: sulfated fucan when 200mg/kg dosage with the comparison of blank group, energy significant prolongation breathing time (P＜0.05), and can significantly increase the broken end frequency of respiration (P＜0.05) of mice afterwards, the results are shown in Table 4.

Influence to cerebral index and brain water content: in this test, sulfated fucan 200mg/kg cerebral index and brain water content all reduce, relatively produce significant difference (P＜0.05 or P＜0.01) with the blank group, sulfated fucan can significantly reduce brain water content (P＜0.01), illustrate that sulfated fucan can alleviate the cerebral edema after ischemia is irritated again, reduce intracranial pressure, improve the brain microcirculation, the results are shown in Table 5.

Positive drug nimodipine (2mg/kg) can prolong the broken end back mouse breathing time under equal experiment condition, increases the frequency of respiration of mice, can reduce cerebral index and brain water content (P＜0.01) again.

The common carotid artery ligation is poured into again the influence of the mouse brain ischemia that causes

In this experiment, the LDH level of model group has significance to raise than sham operated rats, SOD level significantly descend (P＜0.01), show the ischemia symptom that has occurred brain cell death after the modeling, nimodipine can make SOD generate to be increased, and the vigor of LDH is reduced, and sulfated fucan 200mg/kg can make the generation of SOD increase, and reducing the vigor (P＜0.05 or P＜0.01) of LDH simultaneously, sulfated fucan 100mg/kg can significantly reduce the vigor (P＜0.05) of LDH.The results are shown in Table 6.

Table 4 sulfated fucan is to the influence of decapitated mice breathing time and frequency of respiration

Group	Dosage (mg/kg)	Number of animals (only)	Breathing time (s)	Frequency of respiration (inferior)
					The blank nimodipine	- 2	10 10	15.9±2.6 23.8±3.2**	11.9±3.1 17.0±3.2**
Sulfated fucan	200 100 50	10 10 10	15.6±1.3 17.9±3.2 16.0±2.4	14.8±2.1* 14.2±3.0 12.9±3.1

Table 5 sulfated fucan is to the influence of decapitated mice brain water content

Group	Dosage (mg/kg)	Number of animals (only)	Cerebral index (%)	Brain water content (%)
					The blank nimodipine	- 2	10 10	1.59±0.12 1.40±0.14**	80.6±2.4 75.8±1.0**
Sulfated fucan	200 100 50	10 10 10	1.55±0.11 1.58±0.16 1.56±0.10	78.4±1.2* 78.1±0.8** 79.0±1.5

Table 6 sulfated fucan is to the influence of ischemia mouse brain LDH and SOD content

Group	Dosage (mg/kg)	Number of animals (only)	LDH (U/mg)	SOD (U/mg)
					The contrast of blank model	- -	10 10	10.3±1.7 32.1±8.7##	163.87±13.08 123.37±12.96##
Nimodipine	2	10	11.3±6.6**	144.77±21.61*
					Sulfated fucan	200 100 50	10 10 10	31.2±13.7 30.4±12.5 30.5±16.2	139.22±16.18* 130.48±18.38 134.05±16.56

Claims (10)

1. the purposes of sulfated fucan in the medicine of preparation treatment cardiovascular and cerebrovascular disease.

2. according to the purposes of claim 1, wherein said cardiovascular and cerebrovascular disease is an ischemic cardio cerebrovascular diseases.

3. according to the purposes of claim 2, wherein said disease is coronary heart disease, apoplexy.

4. according to the purposes of claim 3, wherein said coronary heart disease is one or more in latent coronary heart disease, angina pectoris coronary heart disease, myocardial infarction, arrhythmia, the sudden death coronary heart disease.

5. according to the purposes of claim 3, wherein said apoplexy is one or more in cerebral hemorrhage, cerebral thrombosis, the cerebral infarction.

6. according to the purposes of each claim in the claim 1～5, sulfated fucan molecular weight wherein is 10KD～1000KD.

7. according to the purposes of claim 6, sulfated fucan molecular weight wherein is 20KD～800KD.

8. according to the purposes of claim 6, sulfated fucan molecular weight wherein is 100KD～700KD.

9. according to the purposes of claim 6, sulfated fucan wherein derive from Thallus Laminariae (Thallus Eckloniae), wild Brown algae Alga Sgrgassi Enerves, Thallus Laminariae, Sargassum fusiforme (Harv.) Setch, Mus tail algae, Thallus Sargassi Kjellmaniani, Thallus Laminariae (Thallus Eckloniae), yellow tang or Fucus Vesiculosus one or more.

10. according to the purposes of claim 1, the dosage form of sulfated fucan wherein is injection, oral formulations, local administration preparation or nasal cavity administrated preparation.