JP2016108265A - Persistent antioxidant - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a persistent antioxidant for the persistence of the effect and gustatory improvement of polyphenol, and to provide an additive for oral composition having persistent anti-oxidant action.SOLUTION: The invention provides a persistent antioxidant which maintains for a long time polyphenol bioactivity, particularly anti-oxidant action, obtained by forming a complex of polyphenol derived from Black Soybean with divalent iron ion for edible use, and which further hardly shows the strong bitter taste and astringent taste specific to polyphenol; and an additive for oral compositions having persistent anti-oxidant action.SELECTED DRAWING: None

Description

The present invention relates to the improvement of the sustainability and the taste of the health effects of antioxidants taken in by mouth, particularly black soybean extract.

In recent years, the increase in metabolic syndrome due to westernization of eating habits and lack of exercise has become a problem, and it is particularly known that excessive active oxygen generated in the body induces various diseases.

In living organisms that breathe oxygen, it is said that 1-2% of absorbed oxygen becomes active oxygen. In addition, we are exposed to oxidative stress caused by active oxygen due to air pollution, ultraviolet rays, drugs and smoking. From the aging of the skin to severe illnesses such as Alzheimer's disease and cancer, the effect of active oxygen is extremely large, and one theory is said that active oxygen is involved in 85% of all diseases. Normally, the generated active oxygen is erased by the action of the antioxidant enzyme in the living body, but if the activity of the antioxidant enzyme is weakened or the generated active oxygen is excessive, the active oxygen that can not be completely erased. May harm various parts of the body as harmful substances. For example, when fat cells accumulate fat in the cells and enlarge, they generate active oxygen, which causes metabolic abnormalities, that is, metabolic syndrome. In addition, when oxidative stress occurs in vascular cells, it causes a decrease in vascular function, leading to cardiovascular disease and cerebral infarction. Therefore, it is desired to develop a substance that eliminates excessive active oxygen, and various antioxidants such as vitamin C have already been used.

In addition to vitamins C and E, oral antioxidants include polyphenols produced by plants, and it is known that active oxygen is captured by OH groups in the chemical structure. There are many health foods and pharmaceuticals that appeal to the antioxidant action of polyphenols and are widely used around the world.

However, polyphenols have a low bioabsorption rate and a short residence time. Therefore, in order to obtain an effective antioxidant effect, frequent and large-scale intake is required. As a method of improving the physiological activity of polyphenol, a method of maintaining a blood pressure lowering action for a long time by reacting green tea polyphenol or tea catechin with milk protein to form a complex (Patent Document 1), A method of using a complex formed by reacting albumin or gelatin as an antioxidant (Non-patent Document 1), combining a plant extract with a monovalent or divalent metal ion, and a polyphenol in an in vitro test It is known that the oxidation action increases (Patent Document 2).

JP2007-8920 JP 2001-139484 A

Riedl, K et al., J. Aglic. Food Chem., 49, 4917-4923 (2001)

Polyphenols are a group of substances with high antioxidant properties, and taking them plays a very important role in promoting health. However, in general, the bioabsorption rate of polyphenols is very low, and the effect is not persistent. Therefore, in order to obtain the effect, it is necessary to ingest it frequently and in large quantities. However, polyphenols react with proteins in saliva and agglutinate by agglutination, so in order to ingest them frequently or in large quantities, they may be made into hard capsules, soft capsules, tablets, etc. as food forms. Many. In the future society where aging and increase in medical costs are concerned, it is necessary to improve health through eating habits, and a method for utilizing the functionality of polyphenols in a more effective and convenient manner is required. The objective of this invention is aiming at the sustainability of the effect of polyphenol, and aiming at taste improvement.

As a result of studying the sustainability of the effects of polyphenols in order to solve the above-mentioned problems, the present inventors have determined the physiological activity of polyphenols by forming a complex of black soybean-derived polyphenols and iron ions. It has been found that it can be maintained for a long time, and that the complex hardly exhibits a strong astringent taste peculiar to polyphenol, and has completed the complex of polyphenol and iron ions according to the present invention. The present invention has the following embodiments.

(I) Persistent antioxidant I-1. A long-lasting antioxidant containing a complex of black soybean-derived polyphenol and iron ions as active ingredients.
I-2. A long-lasting antioxidant described in I-1 having an oral dosage form.
I-3. Either I-1 or I-2 having a pharmaceutical form selected from tablets, pills, capsules (hard capsules, soft capsules), powders, granules, troches, liquids, and jellys Persistent antioxidants to be described.
I-4. The long-lasting antioxidant described in any of I-1 to I-3 used in combination with food and drink, preferably water or fresh water.

(II) Additives for oral compositions with sustained antioxidant action
II-1. An additive for oral compositions having a continuous antioxidant effect, comprising a complex of black soybean-derived polyphenol and iron ions as active ingredients.
II-2. The additive for oral compositions described in II-1 which is an additive for food and drink.
II-3. Either II-1 or II-2 having a pharmaceutical form selected from tablets, pills, capsules (hard capsules, soft capsules), powders, granules, troches, liquids, and jellies Additives for oral compositions to be described.

The oral antioxidant of the present invention can extend the duration of physiological activity of black soybean polyphenol by forming a complex with iron ions. Moreover, the additive for oral compositions having a sustained antioxidant effect of the present invention can be used for imparting or enhancing a sustained antioxidant effect to the oral composition. That is, the additive of the present invention can be used for the preparation of an oral composition having a sustained antioxidant action, and thus suppresses oxidative stress caused by aging, stress, unbalanced diet, etc. An oral composition (oral medicine, oral quasi-drug, food or drink) having a continuous antioxidant action with an excellent improving effect can be prepared. Furthermore, the persistent antioxidant and additive of the present invention can greatly reduce the strong astringency and bitterness unique to polyphenols.

(I) Long-lasting antioxidant The long-term antioxidant of the present invention includes black soybean extract, preferably black soybean seed coat extract, iron ion, preferably iron (II) sulfate, iron citrate, etc. It is characterized by using as an active ingredient a complex of divalent iron ions used for food.

The black soybeans used in the present invention are black seeds (grains ) of short-day annual plants belonging to the leguminous soybean genus Glycine max (L.) Merrill . Examples of black soybean include varieties such as Meiko Koguro, Tokachikuro, Iwakuro, Tamadakuro, Tamba Black, Shinano Black, and Goku, but seeds of any variety may be used as long as they are black soybeans.

In the present invention, black soybean can be used as a raw material for processing as it is. Further, it may be powdered by pulverization, crushing or the like. Furthermore, black soybeans can be separated into seed coats and embryos (cotyledons and hypocotyls) by using, for example, a sorter. In the present invention, black soybean seed coat obtained by the fractionation can be used as a processing raw material. During processing, the seed coat of black soybeans may be in a state as it is separated (raw or dried product), or in a state in which it is crushed or crushed (crushed product, pulverized product, and powdered product) May be included).

As a method for extraction from black soybean or black soybean seed coat, a generally used method can be used. Although not limited, for example, a method of immersing raw or dried black soybean seed coat (as it is, or coarsely, chopped, crushed, ground) in a water-soluble solvent; a method of extracting with stirring as necessary Or a percolation method. The temperature conditions used for the extraction are not particularly limited, and may be any of low temperature, normal temperature, and heating conditions (including high temperature), but preferably heating conditions (including high temperature). More specifically, in the case of extraction with the below-mentioned hydrous lower alcohol, it is 30 ° C. or higher, preferably 40 ° C. to 60 ° C. Perform for about 120 minutes. Moreover, when extracting with water, it is 50 degreeC or more, Preferably it is the range of 50-100 degreeC, Although it does not restrict | limit, it extracts for 10 minutes or more, Preferably about 20 minutes-120 minutes are performed.

Although it does not restrict | limit especially as a water-soluble solvent used for extraction, Water, a lower alcohol, or a mixture thereof can be mentioned. Examples of lower alcohols include C1-C4 lower alcohols such as methanol, ethanol, propanol, isopropyl alcohol, and butanol. Preferred examples of the lower alcohol include ethanol. The water-soluble solvent is preferably water or water-containing lower alcohol (particularly water-containing ethanol), more preferably water. In addition, when using a hydrous lower alcohol as a solvent, it is preferable that the amount of lower alcohol contained in it is 80 volume% or less.

To the extent that the effects of the present invention can be achieved, the obtained extract is further subjected to purification treatment such as filtration, coprecipitation or centrifugation to remove solids, extraction treatment, adsorption treatment, etc., as necessary. Also good.

In order to form a complex between the polyphenol contained in the black soybean extract thus prepared and iron ions, the black soybean extract and iron ions (iron sulfate or iron citrate) are dissolved in water, The precipitate generated upon standing is recovered as a complex. At this time, the pH may be adjusted to 7 or more, more preferably 8 or more with sodium hydrogen carbonate. Moreover, you may heat in order to accelerate | stimulate reaction. As a mixing ratio, 0.1 to 50 parts of iron (II) sulfate heptahydrate is mixed with 100 parts of black soybean polyphenol, and more preferably 1 to 20 parts are mixed. What is necessary is just to use what can be stirred, such as a mixer and a stirrer, and may add an additive to this solution further.

As long as the effects of the present invention are exhibited, sterilization treatment by a known method such as UHT sterilization or retort sterilization treatment may be performed as necessary.

The long-acting antioxidant of the present invention is not particularly limited as long as it is an oral administration form. Moreover, as long as it has an oral administration (oral intake) form, it is classified according to its use (pharmaceuticals, quasi-drugs, foods and drinks [including health functional foods and supplements such as foods for specified health use and nutritional functional foods] ) Is not particularly limited.

As an oral dosage form, specifically, an extract prepared by the above extraction method is prepared in the form of a liquid (including extract form and syrup) or jelly; the extract is powdered or granulated by a conventional method A powder, fine granule, or granule formulated into a capsule; a capsule filled with a liquid, powder, or granule (hard capsule, soft capsule); or a powder or granule is further compressed into a tablet form (Solid preparation).

The long-lasting antioxidant of the present invention is prepared in various dosage forms (oral dosage forms) by combining the black soybean extract with pharmaceutically or food-acceptable edible carriers, excipients and the like. You can also

When the long-lasting antioxidant of the present invention is in the form of a liquid preparation, it can be stored frozen, or it may be stored after removing moisture by freeze-drying or the like. Freeze-dried preparations, dry syrups and the like are used by adding sterilized water and dissolving them again at the time of use.

When the long-lasting antioxidant of the present invention is in the form of a solid preparation, for example, in the case of a tablet, those conventionally known in the art can be widely used as a carrier. Examples of such carriers include excipients such as lactose, sucrose, sodium chloride, glucose, urea, starch, calcium carbonate, kaolin, silicic acid; water, ethanol, propanol, simple syrup, glucose solution, starch solution, gelatin Binders such as solution, carboxymethylcellulose, shellac, methylcellulose, potassium phosphate, polyvinylpyrrolidone, crystalline cellulose, hydroxypropylcellulose, hypromellose, sodium alginate; dry starch, agar powder, laminaran powder, sodium bicarbonate, polyoxyethylene sorbitan fatty acid Disintegrants such as esters, sodium lauryl sulfate, monoglyceride stearate, starch, crospovidone, povidone, low-substituted hydroxypropylcellulose; stearin, cocoa butter, water Disintegration inhibitors such as additive oils; Absorption accelerators such as quaternary ammonium salts and sodium lauryl sulfate; Moisturizers such as glycerin; Adsorbents such as starch, lactose, kaolin, bentonite and colloidal silicic acid; Purified talc and stearin Lubricants such as acid salts, boric acid powder and polyethylene glycol can be used. Further, the tablets can be made into tablets with ordinary coatings as necessary, for example, sugar-coated tablets, gelatin-encapsulated tablets, enteric-coated tablets, film-coated tablets, double tablets, and multilayer tablets. Moreover, the composition containing the said active ingredient can be filled into the conventionally well-known capsule which uses gelatin, a pullulan, starch, gum arabic, hydroxypropyl methylcellulose (HPMC), etc. as a raw material, and can be set as a capsule.

Moreover, when it is set as the form of a pill, a conventionally well-known thing can be widely used as a support | carrier in the said field | area. Examples include excipients such as glucose, lactose, starch, cacao butter, hydrogenated vegetable oil, kaolin and talc, binders such as gum arabic powder, tragacanth powder, gelatin, ethanol, and disintegrants such as laminaran and agar. Can be used.

In addition to the above, as an additive, for example, a surfactant, an absorption accelerator, an adsorbent, a filler, a preservative, a stabilizer, an emulsifier, a solubilizer, and the like may be appropriately selected and used depending on the form of the preparation. it can.

Any of these forms can be prepared by using ordinary methods in the field. For example, tablets are mixed with the above active ingredients and other excipients necessary for obtaining tablets as appropriate, and mixed and dispersed well. Can be obtained by tableting. The powder can be obtained by appropriately adding the above-mentioned active ingredients and other excipients necessary for obtaining the powder, and mixing and powdering by a suitable method.

The long-lasting antioxidant of the present invention contains the above-mentioned complex, and the dose varies depending on the subject's age, medical condition, etc. It is preferable to adjust so that it may become about 20-100 mg. The oral antioxidant of the present invention is usually used in the form of a preparation. As a carrier or auxiliary for the preparation, a substance that is commonly used in the pharmaceutical field and does not react with an oral antioxidant is used.

(II) Additive for oral composition having sustained antioxidant action The additive for oral composition having sustained antioxidant action of the present invention is a black soybean extract, preferably a polyphenol derived from black soybean seed coat, and iron. A complex with ions is used as an active ingredient.

The additive of the present invention imparts a sustained antioxidant effect to a target oral composition based on the sustained antioxidant action of a complex of black soybean-derived polyphenols and iron ions, which are the active ingredients. It is an additive used for The additive of the present invention can also be used to further enhance the action of an oral composition having an antioxidant action.

Here, the oral composition targeted by the present invention includes a composition that is orally administered to a person or a composition that is taken by a person, specifically an oral pharmaceutical composition, an oral quasi-drug composition. And food compositions (including beverages, hereinafter the same). A food composition is preferred.

The kind of black soybean used as a raw material of the additive of the present invention, the method for obtaining black soybean seed coat, the method for preparing black soybean extract or the particularly suitable black soybean seed coat extract are as described in (I) above. Can be incorporated in this column (II).

The additive of the present invention may be a complex of black soybean-derived polyphenol and iron ion, or a conventionally known edible carrier or excipient that is pharmaceutically and food-acceptable to the complex. It may be prepared by combining agents and the like. The additive of the present invention is used to prepare a composition (oral composition) having a sustained antioxidant action by adding to and blended with the above oral medicine, oral quasi-drug, and / or food and drink. Therefore, as long as the form is not particularly limited, even if it has the form of a liquid (including extract form and syrup) and jelly, the liquid is formulated into a powder or granule by a conventional method. Powders, fine granules, granules; capsules filled with liquids, powders or granules (hard capsules, soft capsules), or powders or granules further compressed into tablets It may be (solid preparation).

The amount of the additive of the present invention used by being added to an oral medicine, oral quasi-drug, and / or food and drink has a sustained antioxidant action prepared by adding the additive of the present invention. The ratio can be mentioned so that the daily administration (intake) of the oral composition is usually about 20 to 100 mg in terms of the amount of polyphenol derived from black soybean seed coat.

The additive of the present invention is used as one of raw materials together with other raw materials in the step of preparing the above oral composition (oral medicine, oral quasi-drug, and / or food or drink), or orally. When the composition is taken (administered or ingested), it can be used after being mixed with the oral composition.

Next, the present invention will be described more specifically with examples. In addition, although physiological activity was shown about blood antioxidant property, it is not limited only to this.

Experimental Example 1 Antioxidant Action of Black Soybean Seed Extract (Hydroethanol Extract) and Iron Ion Complex Using ICR Mouse as Test Animal, Black Soybean Derived Polyphenol and Iron Complex (Example 1), Black Soybean Seed Coat Each of the extract (aqueous ethanol extract) (Comparative Example 1), iron sulfate (Comparative Example 2), and physiological saline (Comparative Example 3) was evaluated for blood antioxidant activity.

(1) Preparation of test sample (a) Preparation of black soybean seed coat extract 50 g of black soybean seed coat was added to 1 L of 40% ethanol, and the mixture was extracted with stirring for 90 minutes while heating at 40 ° C. Impurities were removed by centrifugation, and concentrated and spray-dried to obtain a crude extract of black soybean seed coat.

(B) Preparation of complex of polyphenol derived from black soybean and iron ion 100 g of the above crude extract was dissolved in 10 L of water, and 10 g of iron (II) sulfate was added. After thoroughly stirring and mixing, the mixture was allowed to stand. The resulting precipitate was separated and recovered and dried to obtain a polyphenol-iron complex. This was dispersed in physiological saline to obtain a test sample (Example 1). Further, Comparative Example 1 was obtained by dissolving a crude extract of black soybean seed coat in physiological saline. Further, Comparative Example 2 was obtained by dissolving only iron (II) sulfate heptahydrate in physiological saline, and Comparative Example 3 was obtained by using only physiological saline.

(2) Experimental method ICR mice (male, 11 weeks old) bred for 12 hours from the day before the test were fasted. For Example 1 and Comparative Example 1, the dose dispersed in physiological saline was adjusted to 120 mg / kg as polyphenol, and for Comparative Example 2 to 10 mg / kg body weight. Used orally administered. Thereafter, blood was collected from the tail vein over time (up to 4 hours after administration). Plasma was prepared from the obtained blood, and the antioxidant properties of the blood were measured using the AAPH-TBARS method. AAPH is Azobis-amidopropane hydrochloride and TBARS is a thiobarbituric acid reactive substrate.
The AAPH-TBARS method was performed as follows. Moreover, it carried out similarly about Comparative Examples 1-3.
-10 μL of 250 mM AAPH aqueous solution was added to 20 μL of plasma and incubated at 37 ° C. for 60 minutes.
The following reagents were added in order, and after stirring, incubated at 5 ° C. for 60 minutes.
・ 8.1% SDS aqueous solution 20uL
・ Acetic acid buf 150uL (20% acetic acid adjusted to pH3.5 with 10N NaOH)
・ 0.8% BHT acetic acid solution 5uL
・ 0.8% TBA aqueous solution 150uL (TBA: thiobarbituric acid)
・ Distilled water 50uL
Incubated at 100 ° C. for 60 min.
After rejection, 100 μL of dH ₂ O and 300 μL of butanol-pyridine mixed solution were added and stirred.
Centrifugation was performed at 3000 rpm for 10 min, and 200 μL of the supernatant was dispensed into a 96-well plate.
Absorbance at 532 nm was measured.
* A ₀ was measured in the same manner for a control solution (water) containing no serum.
* A calibration curve was created using malondialdehyde (MDA) as a standard.
By this test, the amount of lipid peroxide (TBARS) in serum produced by oxidation by AAPH was measured, and the antioxidant properties of blood were evaluated.

(3) Experimental results FIG. 1 shows the amount of lipid peroxide in the blood when Example 1 and Comparative Examples 1 to 3 were administered.

In the black soybean-derived polyphenol and iron ion complex administration group of Example 1, the lipid peroxide in the plasma gradually decreased after administration, that is, the antioxidant property increased, and lipid peroxide was also present 4 hours after administration. The value was significantly low, and the long-lasting antioxidant effect was shown. On the other hand, in the single administration group of the black soybean seed coat extract of Comparative Example 1, a transient antioxidative peak was reached 1 hour after administration, and then quickly increased to the original value. In addition, in the iron (II) sulfate heptahydrate single administration group, which is Comparative Example 2, no significant change was observed. From this, it is considered that the sustained antioxidant action of the complex of black soybean-derived polyphenol and iron ion is not a simple additive action of the black soybean-derived polyphenol and iron ion but a synergistic action. The cause of such a specific action in the present invention has not yet been fully elucidated, but when administered as a complex of black soybean polyphenol and iron ions, a low pH in the body, particularly in the stomach. Is considered to be due to the gradual release of black soybean polyphenol.

Experimental Example 2 Antioxidant effect of a mixture of black soybean seed coat extract and other metal ions As in Experimental Example 1, black soybean seed coat extract (hydrous ethanol extract) (with ICR mice as test animals) Comparative Example 4), the portion of the supernatant that did not form a complex in the mixture of black soybean seed coat extract and iron ions (Comparative Example 5), and the mixture with calcium as a metal ion other than iron (Comparative Example 6) ) Or magnesium ion (Comparative Example 7) was evaluated for blood antioxidant effect.

(1) Sample Preparation The black soybean seed coat extract (Comparative Example 1) used in Experimental Example 1 was used again as Comparative Example 5. To 100 parts of black soybean seed coat extract, 10 parts of calcium sulfate or magnesium sulfate was mixed and dissolved in physiological saline (Comparative Examples 6 and 7 respectively). The supernatant of the mixed solution (part where the complex was not formed) produced in the process of preparing the complex of black soybean-derived polyphenol and iron ions was used as Comparative Example 8.

(2) Experimental Method According to the method described in Experimental Example 1 (2), blood antioxidant activity was evaluated for Comparative Examples 4-7. In any group, the dose was adjusted to 120 mg / kg body weight as polyphenol.

(3) Experimental Results FIG. 2 shows the amount of lipid peroxide in blood when Comparative Examples 5 to 8 are administered.

Calcium (Comparative Example 6) and magnesium (Comparative Example 7), which are metal ions other than iron, do not form a complex (precipitate) with polyphenol derived from black soybean, and polyphenol alone (comparative) as an antioxidant action in blood The same tendency as in the case of administration in Example 5) was exhibited, and no persistence was imparted. Therefore, it was shown that only iron ions give the antioxidant effect of black soybean polyphenols. Further, among the mixed solution of polyphenol derived from black soybean seed coat and iron ions, in the group administered with the portion of the supernatant that did not form a complex (precipitation) (Comparative Example 8), the antioxidant was compared with polyphenol alone. Although there was a slight change in how the action appeared, persistence was not observed. From these results, it can be said that it is necessary to form a complex of black soybean-derived polyphenol and iron ions in order to obtain the desired sustained antioxidant effect of the present invention.

Antioxidant action of black soybean seed coat extract (hydrous ethanol extract) and iron ion complex Antioxidant effect of black soybean seed coat extract and other metal ions

Claims (2)

Long-lasting antioxidant containing a complex of black soybean-derived polyphenol and iron ions as active ingredients An additive for oral compositions having a sustained antioxidant action, comprising a complex of black soybean-derived polyphenol and iron ions as active ingredients