JP2016136908A - Weight gain inhibitor of organism - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a composition having an inhibitory effect of visceral fat increase and an inhibitory effect of blood adiponectin secretion decrease.SOLUTION: A weight gain inhibitor of an organism comprises a solid composition containing two kinds of specific components comprising low molecular proanthocyanidin and mangosteen extract at a prescribed solid component blending ratio, and the blending amount of low molecular proanthocyanidin is in the range of 2.0-4.5 times as much as the blending amount of mangosteen extract. Preferably, the solid component blending amount in low molecular proanthocyanidin is significantly larger than the solid component blending amount in mangosteen extract.SELECTED DRAWING: Figure 9

Description

  The present invention relates to a biological body weight gain inhibitor containing a mangosteen-derived polyphenol. The biological material includes humans and animals, and the weight gain inhibitor of the biological material includes health food, medical food, functional food, pharmaceuticals, cosmetics, and quasi drugs.

  Metabolic syndrome is a condition in which two or more of hypertension, high blood fat and hyperglycemia are combined in addition to obesity. Severe metabolic syndrome induces arteriosclerosis, leading to myocardial infarction and cerebral infarction, and early detection and prevention are regarded as important. Adiponectin has been reported as an indicator of this metabolic syndrome. Adiponectin is a protein secreted from adipocytes. Decreased blood adiponectin secretion contributes to insulin resistance, insulin responsiveness, and metabolic syndrome, leading to hyperinsulinemia (increased blood insulin secretion). Therefore, in order to prevent or improve metabolic syndrome, it is necessary to reduce visceral fat while avoiding a decrease in the secretion amount of adiponectin or increasing the secretion amount of adiponectin.

  Here, the present inventor selects, as an adiponectin production promoter, mulberry leaf extract, mangosteen peel extract, α-mangosteen, γ-mangosteen, cocoa seed extract, cocoa husk extract, ginseng extract or lychee polyphenol. An adiponectin production promoter composed of one kind or a mixture of two or more kinds has been proposed (see Patent Document 1).

  In addition, α-mangostin obtained by extraction from mangosteen pericarp using a polar solvent and / or γ-mangostin in which R is H are disclosed as having low toxicity and useful antiallergic activity (patent) Reference 2).

In addition, conventionally, as a lychee polyphenol-containing composition, its production method and use, lychee peel or dried lychee peel or a pulverized product thereof is extracted with water or a polar organic solvent or a mixture thereof. The soluble fraction and the fraction obtained by treating the water-insoluble fraction with lower alcohol or a mixture of lower alcohol and water are applied to a reverse phase column and eluted with hydrous alcohol having a concentration of 30 to 50%. The thing containing polyphenol derived from a lychee skin characterized by performing by the density | concentration of 70% or more is disclosed (refer patent document 3).

  However, all of the above are compositions of mangosteen extract or lychee polyphenol alone. When a low molecular weight proanthocyanidin and mangosteen extract are combined, there is no adiponectin-promoting effect depending on the blending amount or blending ratio of mangosteen extract, or conversely, administration of a high volume / high blending ratio of mangosteen extract causes adiponectin secretion. May decrease. This is expected to be due to the cytotoxicity of mangosteen extract, which occurs when low molecular weight proanthocyanidins are combined with mangosteen extract. If such a tendency of cell damage appears, the inhibitory effect on the increase in visceral fat and the inhibitory effect on the decrease in blood adiponectin secretion cannot be obtained, and it may not function as a visceral fat inhibitor.

JP 2014-034562 A Japanese Patent Laid-Open No. 10-72357 JP 2007-215492 A

  Therefore, the present invention comprises a composition having an inhibitory effect on the increase in visceral fat and an inhibitory effect on the decrease in blood adiponectin secretion by containing two specific components comprising a low molecular weight proanthocyanidin and a mangosteen extract at a predetermined blending ratio. Furthermore, it is an object of the present invention to provide a composition having a visceral fat reducing effect and a blood adiponectin secretion promoting effect.

Said problem can be solved by the present invention described below:
[1] A solid composition containing at least two low molecular weight proanthocyanidins and a mangosteen extract in a predetermined significant blending amount, and the blending amount of the low molecular weight proanthocyanidins is significant relative to the mangosteen extract. An agent for suppressing weight gain of a living body, wherein j is blended more than mangosteen extract with a blending ratio (that is, a blending ratio that has a significance of blending exceeding 0).
[2] The amount of the solid component of the low molecular weight proanthocyanidins is in the range of 1.2 times to 5.0 times, preferably in the range of 2.0 times to 4.5 times the solid component content of the mangosteen extract. The biological body weight gain inhibitor according to [1].
[3] The biological body weight gain inhibitor according to [1] to [2], wherein the low molecular weight proanthocyanidins are polyphenols extracted from lychee.
[4] The biological body weight gain inhibitor according to [3], wherein the polyphenol extracted from lychee comprises Oligon (trademark) which is a low molecular oligomer.
[5] The biological body weight gain inhibitor according to [1], wherein the mangosteen extract is a dried extract derived from mangosteen peel that has been defatted with a nonpolar solvent, and contains a polyphenol containing both α mangosteen and γ mangosteen. .
[6] The biological body weight gain inhibitor according to [1], further comprising a calcium component.
[7] The low-molecular weight proanthocyanidin defatted powder and the mangosteen extract defatted powder were blended so that the solid component blending ratio was more than 1.1 and less than 5.0, and compression-molded into granules. Biological weight gain inhibitor.
[8] The biological body weight gain inhibitor according to [2], wherein the ratio of the solid component of the low molecular weight proanthocyanidins to the mangosteen extract is in the range of (4.0 to 4.5): 1.
[9] The biological body weight gain inhibitor of [1] to [8], wherein the total blending ratio of the solid component blended amount of mangosteen extract with respect to the total weight of the solid composition does not exceed 80%.
[10] The biological body weight gain inhibitor of [1] to [9], wherein the amount of oral intake per dose is 200 mg or more of low molecular weight proanthocyanidins and 100 mg or less of mangosteen extract.
[11] The functional food according to [1] to [10], which promotes secretion of adiponectin contained in blood by ingestion into a living body.

By the above technical means, the amount of low molecular weight proanthocyanidins in solid components is significantly greater than the amount of solid ingredients in mangosteen extract. However, adiponectin secretion was promoted as a whole without inhibiting the adiponectin secretion promoting action of both of them. That is, when the low molecular weight proanthocyanidins and mangosteen extract are blended in the same amount with a blending ratio of plus or minus 10% or less, promotion of adiponectin secretion as shown in FIGS. 1, 2, 3 and 5 is inhibited, In some cases, a tendency to lower adiponectin is seen, but by increasing the solid component content of low molecular weight proanthocyanidins as in the present invention with a compounding ratio of more than 10% than the solid component content of mangosteen extract, There was no tendency for inhibition of adiponectin secretion. On the contrary, as shown in the leftmost group of FIG. 9, both visceral fat reduction and promotion of adiponectin secretion were observed.
In addition, the significant blending amount of the mangosteen extract means a blending amount of a positive value that is more than 0 and has the significance of blending the mangosteen extract. For example, the blending amount of the mangosteen extract is the total weight of the granular composition It means that the ratio is 10% or more. The significant blending ratio of low molecular weight proanthocyanidins and mangosteen extract means a positive blending ratio that exceeds 1.0 (100%) and has the significance of blending mangosteen extract. It means that the blending amount of the product is 1.1 (110%) or more of the total weight ratio of the granular composition.
Specifically, the difference in the amount of both solid components blended was a value in which the solid component blending ratio of the low molecular weight proanthocyanidins and mangosteen extracts exceeded 1.1 times as shown in the rightmost group of the experiment shown in FIG. 9 described later. It is preferable that more low molecular weight proanthocyanidins are blended than the mangosteen extract. Furthermore, the solid component blending ratio of the low molecular weight proanthocyanidins to the mangosteen extract may be within the range of 1.2 times to 5.0 times the blending ratio excluding the rightmost group of the experiment shown in FIG. More preferably, it is preferably in the range of 2.0 times to 4.5 times including the two groups of the left end and the middle group of the experiment shown in FIG. By blending mangosteen extract to the extent that the adiponectin secretion promoting action is recognized by blending the solid components of mangosteen extract with a difference in blending amount that is clearly distinguished beyond the error due to the blending process. Thus, a reliable effect can be obtained as an agent for suppressing weight gain of a living body without causing an inhibition tendency due to the combination of both components.

  According to the present invention, a composition having an inhibitory effect on the increase in visceral fat and an inhibitory effect on the decrease in blood adiponectin secretion by containing two specific components consisting of a low molecular weight proanthocyanidin and a mangosteen extract at a predetermined blending ratio. More specifically, a composition having a visceral fat reducing effect and a blood adiponectin secretion promoting effect can be provided.

Changes in adiponectin levels during administration of mangosteen extract in human cell test Changes in adiponectin levels during administration of α-mangosteen in human cell tests Changes in adiponectin levels during administration of γ-mangostin in human cell tests Grouping table in mouse test Comparison of blood adiponectin levels in mouse studies Comparison of blood adiponectin levels in mouse studies Comparison of blood adiponectin levels in mouse studies Comparison of blood adiponectin levels in mouse studies Comparison of body fat percentage and blood adiponectin level by adjusting the mixing ratio

Embodiments of the present invention will be described below. The present invention is, for example, a granular preparation in which a low molecular weight proanthocyanidin and a mangosteen extract are each pulverized as a solid agent and blended so that the amount of the mangosteen extract is significantly less than the low molecular weight proanthocyanidins. Consists of.
As the mangosteen extract, for example, a solid agent of mangosteen extract obtained by crushing or pulverizing mangosteen extract extracted from raw or dried mangosteen fruit peel is preferably used. In addition, it is preferable to use a mangosteen peel that has been defatted with a nonpolar solvent before extraction from the peel because a stable pulverized or powdered mangosteen extract solid preparation can be obtained.

  The present invention is an invention relating to a biological body weight gain inhibitor and a functional food having a body weight suppression effect, and the functional food is regarded as one aspect of the biological body weight gain inhibitor with a limited form of administration. Can do. Hereinafter, the present invention will be mainly described as a biological body weight gain inhibitor that is an embodiment of the present invention and is not limited in dosage form.

  As used herein, “adiponectin secretion promoting property” means an activity of promoting the amount of adiponectin contained in blood. However, the degree of promotion is not limited. Adiponectin is a protein secreted from adipocytes. Decreased secretion of adiponectin contributes to insulin resistance, decreased insulin responsiveness, and metabolic syndrome, leading to hyperinsulinemia (increased blood secretion of insulin). In addition, it has been clarified that the contents of adiponectin and insulin have a correlation with the contents in blood. Therefore, metabolic syndrome can be prevented by promoting secretion of adiponectin contained in blood.

  The biological body weight gain inhibitor of the present invention excludes at least the same amount of two components of low molecular weight proanthocyanidins and mangosteen extract (hereinafter, may be referred to as specific components in the present invention) as active ingredients. It is characterized by containing mangosteen extract significantly less than low molecular weight proanthocyanidins with a significant blending amount difference. In addition, the biological body weight gain inhibitor of the present invention may further contain one or more components selected from medium chain fatty acids, medium chain fatty acid esters, and citral, if desired, in addition to the specific component. .

  The low molecular weight proanthocyanidins used in the present invention need only be composed mainly of low molecular weight monomers, dimers, and trimer proanthocyanidins, and are commercially available from Amino Up Chemical Co., Ltd. (Sapporo City, Hokkaido). Oligonol (registered trademark), which is obtained by chemically reducing the molecular weight of a polymer proanthocyanidin, which is a kind of polyphenol contained in a certain lychee, is preferable. In addition to these, low molecular weight proanthocyanidins include Pycnogenol (registered trademark, Hofer Research Limited), Flavangenol (registered trademark, Toyo Shinyaku Co., Ltd.), and the like.

  The biological body weight gain inhibitor of the present invention can contain, for example, low molecular weight proanthocyanidins and mangosteen extracts in amounts of 125 μg / mL or more and 100 μg / mL or less per administration, respectively.

  More specifically, the biological body weight gain inhibitor of the present invention provides mangosteen extract (for example, L-mangostin extract), for example, 0.2 mg or more per one dose (hereinafter referred to as a dosage unit). , Preferably 0.4 mg or more, more preferably 0.8 mg or more, still more preferably 1.6 mg or more, still more preferably 4.0 mg or more, particularly preferably 8.0 mg or more.

In the biological body weight gain inhibitor of the present invention, medium-chain fatty acid (for example, decanoic acid) or medium-chain fatty acid ester is, for example, 0.008 mg or more, preferably 0.016 mg or more, more preferably 0.06 mg per administration unit. 032 mg or more, more preferably 0.064 mg or more, still more preferably 0.16 mg or more, particularly preferably 0.32 mg or more.
In the biological body weight gain inhibitor of the present invention, citral per administration unit is, for example, 0.14 mg, preferably 0.28 mg or more, more preferably 0.56 mg or more, further preferably 1.12 mg or more, still more preferably. It can be contained in an amount of 2.8 mg or more, particularly preferably 5.6 mg or more.

  The upper limit of the content in each of these components is determined as appropriate depending on, for example, adverse effects such as flavor inhibition and excessive irritation, the content of other coexisting components, cost effectiveness, etc. The total weight is 99% or less as a certain aspect, 90% or less as another aspect, 80% or less as another aspect, and still as another aspect relative to the weight of the biological body weight gain inhibitor of the present invention. It can be 50% or less.

  The administration form of the biological body weight gain inhibitor of the present invention is usually absorbed into the body by ingestion from the oral cavity and exhibits visceral fat suppression effect and adiponectin secretion promoting effect. Specific examples of the dosage form include forms such as functional foods, cosmetics, oral hygiene products, etc. in addition to forms administered as ordinary pharmaceuticals (eg, mouthwash, liquid, ointment, detergent). The biological body weight gain inhibitor of the present invention is preferably used in the form of a functional food, and is particularly preferably formed as a tablet taken from the oral cavity.

(Method for producing biological body weight gain inhibitor)
An example of the manufacturing method of the biological body weight gain inhibitor of this invention is shown below. This production method is applied as it is as a production method of a tablet-type functional food that stays in the oral cavity and has oral solubility.
The manufacturing method of the biological body weight gain inhibitor of the present invention includes the following steps.
(1) One or more water-soluble solvents selected from glycerin or propylene glycol in an amount of 0.1 to 0.5% by weight, at least as a polyphenol soluble in a water-soluble solvent, low molecular weight proanthocyanidins 0.2 to 1.0 A process of dissolving a weight percent to produce a dissolved solution (polyphenol solution) (dissolving process)
(2) A step of preparing a kneaded dough by kneading at least 0.1 to 0.5% by weight of mangosteen extract into a base dough not containing sugar (preparation step)
(3) A step of mixing the dissolved solution into the kneaded dough and compression molding together with dehydration (mixing / molding step).

(Dissolution process)
First, 0.1 to 0.5% by weight of one or more water-soluble solvents selected from glycerin or propylene glycol, and at least 0.2 to 1.0% by weight of low molecular weight proanthocyanidins as polyphenols soluble in water-soluble solvents % Is dissolved to produce a dissolution solution (dissolution step).

(Water-soluble solvent)
Examples of the water-soluble solvent used in the present invention include glycerin, propylene glycol, and mixtures thereof for food administration. Glycerin and propylene glycol are water-soluble solvents that have similar physicochemical properties. The water-soluble solvent is used as a solvent for dissolving the polyphenol soluble in the water-soluble solvent in the production stage of non-sugar candy. In the present invention, the water-soluble solvent may contain up to 10% water. Usually, glycerin, propylene glycol, or a mixture thereof is used as it is, but water may be administered up to 10% in order to improve the solubility of the polyphenol soluble in the water-soluble solvent. However, if water exceeding 10% is administered, it leads to an increase in the moisture value in the final kneaded dough, which adversely affects the quality of the candy such as long-term storage. From the balance of flavor and workability, propylene glycol may be used in a certain ratio, or only propylene glycol may be used. In particular, since propylene glycol has a lower viscosity than glycerin, it is effective for increasing workability and dissolution rate. However, as a water-soluble solvent, glycerin is preferable because glycerin can be obtained at a relatively low cost and has a good flavor.

The polyphenol soluble in the water-soluble solvent used in the present invention refers to a polyphenol that is soluble in any one of the water-soluble solvents of glycerin, propylene glycol, or a mixture thereof.
For example, a polyphenol that is soluble in the water-soluble solvent may be completely dissolved when the solid product is mixed with the water-soluble solvent that is 20 times the weight of the polyphenol and visually judged after 37 hours at 37 ° C. Although the fine solid is scattered in the polyphenol or in a turbid state, both are included in the polyphenol soluble in the water-soluble solvent.
On the other hand, when the polyphenol hardly soluble in the water-soluble solvent is mixed with a water-soluble solvent having a weight 20 times that of the polyphenol when the solid is mixed with a water-soluble solvent, when it is visually determined after 48 hours at 37 ° C., It remains in a solid state with almost no change.

Examples of polyphenols that are soluble in any of glycerin, propylene glycol, and mixtures thereof include lychee-derived polyphenols.
Examples of the lychee-derived polyphenol include Oligonol (registered trademark). Oligonol is a low molecular weight polyphenol derived from lychee developed, produced and sold by Amino Up Chemical Co., Ltd.

In addition, the polyphenols soluble in the water-soluble solvent used in the present invention include polyphenols that are hardly soluble in glycerin but are soluble in propylene glycol, such as resveratrol. In particular, in the present invention, low molecular weight proanthocyanidins are used. When resveratrol is used as the polyphenol, it is necessary to use propylene glycol as the water-soluble solvent.
In the present invention, the polyphenol is not mixed in powder form by dissolving low molecular weight proanthocyanidins in the water-soluble solvent in advance as a polyphenol soluble in a water-soluble solvent as described above. It doesn't become lumpy, and it can also reduce the roughness when the resulting candy is put in the mouth. Moreover, content of polyphenol can be made high by using glycerin as a solvent, and also the bitterness and astringency of polyphenol can be suppressed.
When the low molecular weight proanthocyanidins as polyphenols soluble in the water soluble solvent are dissolved in the water soluble solvent, they may be dissolved in the water soluble solvent equal to or less than the weight of the low molecular weight proanthocyanidins. The solubility of the low molecular weight proanthocyanidins that are soluble in the water-soluble solvent may be such that it is finally dissolved, that is, such that 70% by weight or more of the polyphenol solid content is dissolved.

  The low molecular weight proanthocyanidins are mixed with the water-soluble solvent and dissolved by stirring or the like until the solubility is reached to obtain a solution (polyphenol solution). In this dissolution, in order to avoid thermal denaturation of the low molecular weight proanthocyanidins as much as possible, it may be heated at 60 ° C. or lower, or may be dissolved over several tens of hours or more. Even if it is allowed to stand without stirring, the low molecular weight proanthocyanidins may be dissolved in the water-soluble solvent. Further, from the viewpoint of promoting the dissolution by adjusting the pH, an acid or a base may be administered and mixed. However, in this case, it is desirable to confirm that the low molecular weight proanthocyanidins are not denatured or decomposed by an analyzer such as high performance liquid chromatography.

(About lychee-derived polyphenols)
As a low molecular weight polyphenol derived from lychee fruit, a trade name “Oligonol” (trademark) can be mentioned. This is a polymer extracted from the seed coat of lychee fruit to make a low molecular weight polymer. Bioavailability is improved by lowering the molecular weight, and it has an anti-inflammatory / antioxidant action, a fat metabolism promotion / accumulation preventive action, and an action that assists the anti-obesity effect in combination with exercise.

(About mangosteen extract)
Examples of the mangosteen extract include extracts extracted from mangosteen raw skin or dried fruit. It is known that alpha mangosteen or gamma mangosteen is contained in the extract and generally has an anti-inflammatory action, an antioxidant action / anticancer action, an insulin resistance improvement / fat metabolism promoting action. In the present invention, it is considered that polyphenols, particularly xanthone derivatives, contained as the main component of the mangosteen extract are active ingredients having an anti-obesity action or adiponectin secretion promoting action.

(Anti-obesity effect by combined use of lychee-derived polyphenol and mangosteen extract)
Since lychee-derived polyphenol and mangosteen extract are each a material having an anti-obesity effect, it is assumed that even a composition having both of them has an anti-obesity effect. However, in reality, depending on the blending amount of mangosteen extract, or the blending ratio of the two, it is possible that the secretion of blood adiponectin is not promoted or conversely reduced, the following human cell test (FIGS. 1 to 3). ) And mouse test (FIGS. 4-8c). This is considered to be due to the manifestation of cytotoxicity based on the excessive intake or excessive mixing balance of the mangosteen extract when the lychee-derived polyphenol and the mangosteen extract are blended.

<Human cell test> (FIGS. 1 to 3)
Mangosteen peel extract and various components (α mangosteen and γ mangosteen) were tested for adiponectin secretion promoting effect on human adipocytes. Transition of secretion amounts of adiponectin extract, α mangosteen and γ mangosteen are shown in FIG. 1: Mangosteen peel extract, FIG.
Alpha mangosteen, FIG. 3: shown as gamma mangosteen. In each of FIGS. 1 to 3, the upper row shows the adiponectin secretion ratio when compared with the control after 48 hours and the lower row with the control after 96 hours. In any of FIGS. 1 to 3, although adiponectin was significantly promoted at a low volume, a decrease in secretion was recognized at a high volume.

(Used cells)
The cells used are human adipose tissue-derived stem cells (Adipose Derived Stem Cell; ADSC). We attempted to evaluate the adiponectin secretion-promoting effect using adipocytes collected during bariatric surgery in three obese patients. This research was conducted with informed consent with the approval of the Osaka University Medical School Ethics Committee.

(Cell culture)
Surplus subcutaneous adipose tissue collected by laparoscopic gastric sleeve resection (Lap Sleeve Gastrectomy: LSG) was converted to phosphate buffered saline (nacalai).
Wash with tesque several times, shred with scissors while removing the blood vessels, and add to 0.1% collagenase type II solution (Sigma-Aldric). Incubate for 1 hour with agitation at 37 ° C. Then cell
Filtered with a strainer and centrifuged. ADSCs obtained by centrifugation were cultured in a 37 ° C., 5% CO ₂ incubator using Predipocyte Medium (PM-1, Zen-bio Inc).

(Protocol)
After seeding in a 96-well plate, ADSCs grown to confluence were treated with Adipocyte Differentiation Medium: DM-2 (Zen-bio Inc) to differentiate into adipocytes. 10% fetal bovine from 8 days after DM-2 treatment (day 8)
Culturing was performed using D-MEM / Ham ′ F-12 (nacalai tesque) containing serum (Equitech-Bio). Various samples were administered at day 8 and 48 hours later (day 10), and cell supernatants were collected 96 hours after day 10 and day 8 (day 12), and the adiponectin concentration in the supernatant was determined by AlphaLISA human adiponectin assay (manufactured by Perkinelmer). And measured.

(Adjusting reagents such as mangosteen)
Preparation of reagents such as mangosteen was performed by an existing method.
(Adjustment of mangosteen peel extract)
The mangosteen peel was extracted twice with 50% ethanol at 80 ° C. and then concentrated under reduced pressure at 60 ° C., and the resulting extract was centrifuged to obtain a precipitate. This precipitate was dissolved again in 50% ethanol and then concentrated under reduced pressure at 60 ° C., and the resulting precipitate was vacuum-dried to obtain a mangosteen extract.
(Preparation of α-mangosteen and γ-mangosteen)
1 kg of undried mangosteen peel was immersed in 10 L of methanol and extracted at room temperature for 24 hours. After filtration, the filtrate was dried under reduced pressure with an evaporator to obtain 80 g of an extract. 80 g of the obtained extract was dissolved in 350 ml of ethyl acetate and then washed twice with 200 ml of water. The ethyl acetate fraction was evaporated using an evaporator to obtain 20 g of a dried product. This dried product was purified by silica gel column chromatography. Elution was performed in a hexane-ethyl acetate system, and gradient elution was carried out gradually to obtain three fractions. The fraction (5 g) obtained first was again subjected to silica gel column chromatography (hexane-ethyl acetate, 10: 90 → 30: 70 → 50: 50).
To obtain 2 g of α-mangostin as a yellow crystalline sample. The second fraction (2 g) was again subjected to silica gel column chromatography (hexane-ethyl acetate,
30: 70 → 50: 50, followed by ethyl acetate alone and finally ethyl acetate-methanol, 50:50) to obtain 500 mg of γ-mangostin as a yellow amorphous sample.

<High fat diet load obesity test to mice> (FIGS. 4 to 8)
Moreover, about the five groups of mice | mouths shown in FIG. 4, the blood parameter evaluation, the mRNA expression level evaluation, and the body weight and food intake evaluation by the high fat diet load for 12 weeks were performed. As a result, as shown in FIG. 5, it was confirmed that if the mangosteen blending ratio (overall blending amount or oligonol blending ratio) in the mouse is too high, there is an effect of reducing adiponectin.
(1) Test period From May 9, 2012 to 2012
September 14, 2012 (2) Animals used C57BL / 6J mice (male, 5 weeks old)
(3) Evaluation sample 1) Oligonol: Oligonol (OLG, Lot)
No. OLF1108S)
2) Mangosteen extract (MGS, provided by Lotte Health Industry Co., Ltd., Lot No. GME40-11121)
(4) Grouping It divided into the following 5 groups.
Group 1) Normal: Normal diet (Lab MR)
Stock) (n = 9 Note: Because one animal died during breeding.)
Group 2) Control: High fat diet (D12492) (n = 10)
Group 3) Oligonol OLG (100 mg / kg): high fat diet (D12492) (n = 10)
Group 4) Mangosteen extract MGS (100 mg / kg): high fat diet (D12492) (n = 10)
Group 5) Oligonol OLG + Mangosteen extract MGS
(100 mg / kg + 100 mg / kg): high fat diet (D12492) (n = 10)
(5) Breeding and dissection Mice are fed with lab MR stock powder feed (Nippon Agricultural Industrial Co., Ltd., 2.3 kcal / g) as a normal diet, and D12492 powder feed (Research Diet Corp., 5.2 kcal / g) as a high fat diet. ) For 3 months (12 weeks). Each sample was mixed and administered at a set dose, and only the food was administered for the Normal group and the Control group. During the breeding period, body weight and food consumption were measured every 2-3 days, and the changes were recorded. After rearing for 12 weeks, the animals were fasted for 24 hours prior to dissection. At that time, water was freely consumed. After the fasting, heart blood was collected under ether anesthesia, and each tissue (liver, white around testis, brown fat around scapula) was removed. From the collected blood, only serum was collected by centrifugation and subjected to the measurement of the following evaluation items. Each tissue is weighed and then RNAlater
Temporarily frozen and preserved.
(6) Results The amount of blood adiponectin shown in FIG. 5 was significantly increased due to the high fat diet load (Group 2). There was no significant change in the OLG group (Group 3), but there was a significant decrease in the MGS group (Group 4) and the equivalence combination group (Group 5) compared to the Control group (Group 2). confirmed.
Further, in the body weight change and the total calorie intake shown in the upper diagram of FIG. There is no big difference in calorie intake. In each fat weight shown in FIG. 7, it was observed that the amount of white fat cells around the testis was remarkably suppressed by the combined use of the oligonol of group 5) and the mangosteen extract. Further, in the blood parameters of total cholesterol, blood glucose level, and triglyceride shown in order from the left in FIG. 8, each parameter increased due to HDF load, and improvement was observed particularly in group 5).

<Adjustment test of blending ratio>
Therefore, the present inventor divided 9 women with an average BMI of around 30 into the following 3 groups and conducted an intervention for 8 weeks. In group A, which is a quarter of mangosteen, as shown in FIG. 9, an increase in the amount of adiponectin secreted by 50% or more was observed compared to group C in which the same amount was administered.
Group A) OLG 200 mg + MNG 46.8 mg (blending ratio (4.0-4.5): 1)
Group B) OLG 200 mg + MNG 93.8 mg (blending ratio (2.0 to 2.5): 1)
Group C) OLG 200 mg + MNG 187.5 mg (blending ratio (1.0 to 1.1): 1)

From the above, the mangosteen extract solid powder is blended so as to be smaller than the oligonol solid powder with a significant blending ratio value (exceeding 1.1 and less than 5.0): 1 that excludes at least group C. Thus, it was confirmed that the effect of reducing visceral fat and the effect of promoting the secretion amount of adiponectin can be obtained simultaneously. Moreover, if it says in more detail about the form except group C, it can be said that it is preferable that the solid component mixture ratio with respect to a mangosteen extract of low molecular weight proanthocyanidins is 1.06 or less.
More preferably, the amount of the solid component of the low molecular weight proanthocyanidins is significantly greater than the amount of the solid component of the mangosteen extract, and the amount is 2.0 times or more, thereby including the groups A and B. The effect of suppressing weight gain can be obtained.
More preferably, based on the blending ratio of Group A, the blending ratio of the low molecular weight proanthocyanidin powder to the mangosteen extract powder is preferably in the range of (4.0 to 4.5): 1. More preferably, the total blending ratio of the solid component blending amount of mangosteen extract to the total weight of the solid composition does not exceed 80%.
(Description of body composition meter)
The body composition meter used measures body composition by the BIA method. In the BIA method, the body electrical resistance value (bioimpedance) is measured, and the body fat percentage is estimated as the ratio of fat to other tissues. In the body composition meter used, the visceral fat area is estimated from the body fat percentage, fat mass, age, sex, and the like. This estimation result shows a good correlation with the evaluation of visceral fat area by CT, and is known to be more accurate than the waist circumference. The estimation results are shown in 60 stages of visceral fat levels 1 to 59, and level 10 corresponds to 100 C square meters of visceral fat area. Levels 10 to 14 correspond to a slight excess and level 15 corresponds to a visceral fat area of 150 C square meters.
In addition, although each said Example has demonstrated as a body dependence inhibitor which makes a human the main object of a biological body, it is targeting the biological body (animal kept as a pet or livestock) which has a blood gland widely elsewhere. Preparations or functional foods can also be obtained.

(Function and effect)
According to the biological body weight gain inhibitor or functional food of each example of the present invention described above, the compounding amount or compounding ratio of the mangosteen extract with respect to the low molecular weight proanthocyanidins is adjusted, and the cytotoxicity is not exhibited. Since the adiponectin secretion effect can be further promoted within the range, the function of the living body as a weight gain inhibitor can be reliably obtained.

  In addition, the present invention exhibits the above-described effect even if it does not contain decanoic acid by containing three specific components of cinnamon, low molecular weight proanthocyanidins, and mangosteen extract. However, since a further effect can be expected by administering decanoic acid in addition to the specific component, an embodiment in which decanoic acid is administered is not excluded from the present invention.

  Conventionally, low molecular weight proanthocyanidins such as oligonol have a problem of being unfavorable as a body weight gain inhibitor and a functional food due to strong astringency and impaired flavor. In spite of containing proanthocyanidins, it is possible to obtain a biological body weight gain inhibitor or functional food having oral hygiene improving activity with improved astringency.

  Since the present invention has an inhibitory effect on visceral fat, it can be used in the field of foods and beverages as a functional food or a functional drink in addition to the field of pharmaceutical processing excluding medical practice. Further, by providing a secretion enhancer of blood adiponectin, further development is expected in various health care fields including lifestyle-related diseases such as metabolic syndrome.

Claims (7)

  It consists of a solid composition containing two specific components consisting of a low molecular weight proanthocyanidin and mangosteen extract at a predetermined solid component blending ratio, and the blending amount of the low molecular weight proanthocyanidins is 2.0 times the blending amount of the mangosteen extract The biological body weight gain inhibitor in the range of -4.5 times.   The biological body weight gain inhibitor according to claim 1, wherein the solid component content of the low molecular weight proanthocyanidins is significantly greater than the solid component content of the mangosteen extract.   The biological body weight gain inhibitor according to claim 1, wherein the low molecular weight proanthocyanidins are polyphenols extracted from lychee.   The biological body weight gain inhibitor according to claim 1, wherein the mangosteen extract is a dried extract of mangosteen peel and contains polyphenol containing both α mangosteen and γ mangosteen.   The biological material according to claim 1, wherein the low-molecular weight proanthocyanidin defatted powder and the mangosteen extract defatted powder were blended so that the solid component blending ratio was more than 1.1 and less than 5.0 and compression-molded into granules. Weight gain inhibitor.   The biological body weight gain inhibitor according to claim 1, wherein the low-molecular-weight proanthocyanidins have a solid component blending ratio with respect to the mangosteen extract in the range of (2-4): 1.   The body weight gain inhibitor for living organisms according to any one of claims 1 to 6, wherein the total blending ratio of the solid component blending amount of the mangosteen extract with respect to the total weight of the solid composition does not exceed 80%.