KR101017276B1 - Composition having respiratory disease from a mulberry tree - Google Patents

Abstract

PURPOSE: A pharmaceutical composition containing D-allose, D-mannitol, talose, and vanillin for treating respiratory disease is provided to enhance yield and to be used for a functional cosmetic product, drug, and feed. CONSTITUTION: A pharmaceutical composition for treating respiratory disease contains D-alose, D-mannitol, talose, vanilline, acetovanilline, 1,4:3,6-dianhydro-alpha-D-glucopyranose, 1H-indole-2-carb oxylic acid, levoglucosan, monoterpene, propiovanylone, and 4H-pyrido[1,2-a]primidine-3-carb oxylic acid. The pharmaceutical composition is isolated using a mulberry oil extractor. The mulberry oil extractor comprises a heating container, lid, mulberry oil storing cask, vapor and control box.

Description

Composition having respiratory disease from a mulberry tree

The present invention is a pharmaceutical composition for treating respiratory diseases containing di-Allose, D-mannitol, Talos and Vanillin derived from mulberry as an active ingredient. It is about.

In Korea, many mulberry trees have been scattered in Sanya since ancient times, and have been cultivating mulberry trees for stable supply of mulberry leaves to silkworms during sheep sleep business. Mulberry leaves of such mulberry trees have been used for sheep feed and food from ancient times (Ahn Hak-ju et al. 1982). Herbal medicine has been used as a herbal medicine because it has the effect of lowering blood sugar and lowering blood pressure. In particular, the extract derived from such mulberry tree is known to have effects such as anti-cancer, antioxidant, etc. It is not yet known which component by such efficacy.

On the other hand, for mass production of mulberry leaves yearly pruning, the amount of mulberry tree pruning is very much a situation that is difficult to process.

Generally, the method of extracting mulberry oil from the mulberry tree is to use two jars, one jar is filled with mulberry trees, and the other jar is buried in the ground, and the sieve function between the spout and the spout of the jar. Put the two jars with the spout through the burlap. The burlap blocks the inflow of carbonized pieces of mulberry to be baked. It is located on the ground, covered with chaff around the jar filled with mulberry, and then fired on the chaff to carbonize the mulberry in the jar. During this process, water vapor generated by evaporation of water is buried in the ground and introduced into the jar maintaining a low temperature, and condensation is caused by the temperature difference between the two jars to produce mulberry oil. The production method of such mulberry oil is very useful for extracting mulberry oil from the hard wood mulberry.

However, when the mulberry oil is cultivated for the purpose of producing mulberry leaves, and the mulberry oil is extracted from the mulberry tree branch, which is hard to grow because it is a year old, the evaporation rate of the water is so high that the mulberry branch itself is burned down and the mulberry oil cannot be extracted. There is this. In addition, the method takes too long time (7 to 10 days), there is a limit in improving the productivity, there is also a limit in increasing the temperature continuously, the components contained in the mulberry oil extracted from the mulberry tree does not form a variety The disadvantage is low yield.

In addition, tar generated from chaff is mixed into a jar, and smells of tar in mulberry oil, and there is a limit to clean use. There is a risk of breakage due to heat or external shock by using the jar.

One embodiment of the present invention is to provide a pharmaceutical composition containing an active ingredient derived from mulberry. In addition, to provide a pharmaceutical composition extracted using a mulberry oil extractor that can obtain a clean effective ingredient from the mulberry tree in high yield.

One embodiment of the present invention is di-allose (D-Allose), di-mannitol (D-mannitol), talos (Talose), vanillin (Vanillin), acetovanillone (Decea) derived from mulberry Despidinol, 1,4: 3,6-dianhydro-alpha-di-glucopyranose (1,4: 3,6-Dianhydro-alpha-d-glucopyranose), 1H-indole-2-car 1H-Indole-2-carb oxylic acid, Myo-Inositol, Levoglucosan, Monoterpene, Propiovanilone and 4H-pyrido [1 The present invention provides a pharmaceutical composition for treating respiratory diseases, containing as an active ingredient a 4,2-a] pyrimidine-3-carboxylic acid (4H-Pyrido [1,2-a] pyrimidine-3-carb oxylic acid). The pharmaceutical composition is 11 to 21% by weight of D-Allose, 1 to 4% by weight of D-mannitol, 1 to 5% by weight of Talos and Vanillin 2 to It may contain 6% by weight as an active ingredient.

In addition, the pharmaceutical composition having an anticancer and antioxidant effect is 3 to 8% by weight of acetonillone (Acetovanillone), 7 to 13% by weight of desaspidinol, 1,4: 3,6- dianhydro-alpha- 11-18% by weight of di-glucopyranose (1,4: 3,6-Dianhydro-alpha-d-glucopyranose), 1H-Indole-2-carb oxylic acid 18 to 40% by weight, 1 to 5% by weight of Myo-Inositol, 0.1 to 3% by weight of Levoglucosan, 4 to 14% by weight of monoterpene, Propiovanilone 1 To 8% by weight and 1 to 6% by weight of 4H-pyrido [1,2-a] pyrimidine-3-carboxylic acid (4H-Pyrido [1,2-a] pyrimidine-3-carb oxylic acid) It may contain.

 At this time, the monoterpene (Monoterpene) is used in the art, but the type is not particularly limited, for example, menthol, geraniol, thymol, myrsen, citral, limonene, karen, camphor, yuge Knoll, cineol (eucalyptol), rosefuran, etc. can be used, More preferably, rosefuran can be used.

The pharmaceutical composition having the anticancer and antioxidant effects may be extracted by a mulberry oil extractor, and the mulberry oil extractor is formed by overlapping two stainless steel sheets having different thicknesses in the storage unit 17 in which the mulberry is housed. A double body 11 structure constituting the 12, the far-infrared irradiation hole 14 so that far-infrared rays generated from the ocher wall 13 coated with the outer wall 12 can be split into the mulberry housed in the accommodating portion 11. A multitude is formed through the inner wall (12a) and the outer wall (12), and the bottom of the mulberry net 16 is installed so that only the mulberry oil extracted from the mulberry tree is passed through to recover the mulberry oil storage bin (30) Oil extraction passage 15 is formed, the heating vessel 10 is provided with a fixing pin 19 for fixing the lid 20 to the upper flange 18; A fixing groove 21a into which the fixing pin 19 is installed, which is installed on the upper flange 18 of the heating vessel 10 via a hinge shaft, is formed in the flange 21, and the inside of the heating vessel 10 is provided. A safety cock 22 which is opened when the temperature is above a predetermined temperature is installed, and a lid 20 having a temperature sensing rod 23 for sensing an internal temperature of the heating vessel 20; The water vapor in the heating vessel 10 generated by moisture extracted from the mulberry tree is screwed into the mulberry oil extraction path 15 formed under the body 11 of the heating vessel 20, and condensation occurs due to the temperature difference. The discharge valve 34 is a double structure having a coolant circulation space 32 through which the coolant pumped by the coolant pump 31 is circulated, and enables the collection of the extracted mulberry oil. Mulberry oil storage bin 30 is installed; Refractory insulating brick 42 is to be laminated to minimize heat loss on the plate 41, but to have a space 43 for seating the heating vessel 10 is A heating heater 44 is installed along the inner surface of the refractory insulating brick 42, and a high temperature temperature sensing rod 45 for detecting a heating temperature of the heating heater 44 is installed. 42 is a body 40 is wrapped around the stainless cover 46; It may be used to include a control box 50 for controlling the internal temperature sensing rod 23 and the high temperature temperature sensing rod 45 and the heating heater 44 of the heating vessel.

The mulberry oil extractor can be used that the thickness of the ocher wall 13 constituting the heating vessel 10 is 5 to 20 cm, to maintain the airtight in the body 11 of the heating vessel 10 Carbon packing 60 may be used that is additionally installed. In addition, the mulberry oil extractor may be used that the internal temperature of the heating vessel 10 is 400 to 450 ℃.

The pharmaceutical composition according to the embodiment of the present invention contains an active ingredient derived from mulberry, and is very excellent in anticancer and antioxidant effects, and is useful for treating respiratory diseases by reducing the production and secretion of mucin. Thus, it can be used very usefully included in functional cosmetics, drugs and feeds. In addition, the pharmaceutical composition can be provided in a very high yield by using a mulberry oil extractor to improve the productivity, obtain a clean effective ingredient.

1 is a cross-sectional view of the mulberry oil extractor according to the present invention.
Figure 2 is an illustration of the initial state of opening the lid to put the mulberry in the heating vessel body of the mulberry oil extractor according to the present invention.
Figure 3 is an illustration of a state in which the lid is opened so that the mulberry can be put into the heating vessel body of the mulberry oil extractor according to the present invention.
Figure 4 is an illustration of a state put the mulberry in the heating vessel body of the mulberry oil extractor according to the present invention.
Figure 5 is an illustration of the initial state of fixing the fixing pin position in the fixing groove by placing the lid on the heating vessel body of the mulberry oil extractor according to the present invention.
Figure 6 is an illustration of a state in which the lid is tightened by tightening the tightening nut of the heating vessel body fixing pin of the mulberry oil extractor according to the present invention.
Figure 7 is an illustration of a process of extracting mulberry oil from the mulberry by applying heat from the exothermic heater to the heating vessel of the mulberry oil extractor according to the present invention.
Figure 8 is an illustration of a state in which the heat is applied from the exothermic heater to the heating vessel of the mulberry oil extractor according to the present invention the mulberry oil extracted from the mulberry tree flows into the mulberry oil reservoir.
9 is a GC / MS component analysis results according to Test Example 1 of the pharmaceutical composition having anticancer and antioxidant effects.
10 is a pyrolysis GC / MS component analysis results according to Test Example 2 of the pharmaceutical composition having anticancer and antioxidant effects.
FIG. 11 shows ELISA measurement results for human respiratory epithelial cells NCI-H292 stimulated with PMA. FIG.
12 shows ELISA measurement results for human respiratory epithelial cells NCI-H292 stimulated with EGF.
FIG. 13 shows ELISA measurement results for human respiratory epithelial cells NCI-H292 stimulated with TNF. FIG.
14 shows the results of RT-PCR measurement on human respiratory epithelial cell NCI-H292 stimulated with PMA.
Figure 15 shows the results of RT-PCR measurement on human respiratory epithelial cell NCI-H292 stimulated with EGF.
FIG. 16 shows the results of RT-PCR measurement on human respiratory epithelial cell NCI-H292 stimulated with TNF. FIG.

Hereinafter, embodiments of the present invention will be described in detail. However, it should be understood that the present invention is not limited thereto, and the present invention is only defined by the scope of the following claims.

Mulberry grows mainly in temperate and subtropical regions, and there are about 30 species in the world. In Korea, three species of mountain, white, and road are grown, among which white is the most common. Mulberry (Morus) has been conventionally used to raise silkworms, and the fruit is called audi soaked or eaten raw, the root bark is used for antipyretic, antitussive, diuretic, wood has been used as furniture. The active ingredient derived from the mulberry tree included in the composition of the present invention can be extracted from not only leaves but also outposts, rhizomes and the like.

Hereinafter, embodiments of the present invention will be described in more detail.

One embodiment of the present invention is di-allose (D-Allose), di-mannitol (D-mannitol), talos (Talose), vanillin (Vanillin), acetovanillone (Decea) derived from mulberry Despidinol, 1,4: 3,6-dianhydro-alpha-di-glucopyranose (1,4: 3,6-Dianhydro-alpha-d-glucopyranose), 1H-indole-2-car 1H-Indole-2-carb oxylic acid, Myo-Inositol, Levoglucosan, Monoterpene, Propiovanilone and 4H-pyrido [1 , 2-a] pyrimidine-3-carboxylic acid (4H-Pyrido [1,2-a] pyrimidine-3-carb oxylic acid) having an anticancer and antioxidant effect containing as an active ingredient at least one selected from Provide a pharmaceutical composition.

The pharmaceutical composition is to improve the anti-cancer and antioxidant effects at the same time, di- allose (D-Allose) 11 to 21% by weight, di-mannitol (D-mannitol) 1 to 4% by weight, Talos By containing 1 to 5% by weight and 2 to 6% by weight of vanillin (Vanillin) as an active ingredient, the effect can be further improved.

In addition, the pharmaceutical composition may be 3 to 8% by weight of Acetovanillone, 7 to 13% by weight of desaspidinol, 1,4: 3,6-dianhydro-alpha-di-glucopyranose (1,4: 3,6-Dianhydro-alpha-d-glucopyranose) 11 to 18% by weight, 1H-Indole-2-carb oxylic acid 18 to 40% by weight, 1 to 5% by weight of Myo-Inositol, 0.1 to 3% by weight of Levoglucosan, 4 to 14% by weight of monoterpene, 1 to 8% by weight of Propiovanillone and 4H It may further contain 1 to 6% by weight of -pyrido [1,2-a] pyrimidine-3-carboxylic acid (4H-Pyrido [1,2-a] pyrimidine-3-carb oxylic acid).

In addition, the pharmaceutical composition can be extracted by various extraction methods of mulberry tree, but the method is not particularly limited, for example, may be extracted by a mulberry oil extractor.

More preferred mulberry oil extractor may be extracted by a mulberry oil extractor as shown in Figures 1 to 8. The mulberry oil extractor is a double body (11) structure of the inner wall (12a) and the outer wall 12 by overlapping two stainless steel sheets having a different thickness of the accommodating part (17) that stores the mulberry tree, it is applied to the outer wall (12) A plurality of far-infrared irradiation holes 14 are formed to penetrate the inner wall 12a and the outer wall 12 so that far-infrared rays generated from the formed ocher wall 13 can be split into mulberry trees housed in the accommodating part 11. There is a mulberry oil extraction path 15 is provided with a sieve net 16 is installed so that only the mulberry oil extracted from the mulberry tree is passed through to the mulberry oil storage bin (30), the upper flange (18) has a lid ( A heating vessel 10 in which a fixing pin 19 for fixing 20 is installed;

A fixing groove 21a into which the fixing pin 19 is installed, which is installed on the upper flange 18 of the heating vessel 10 via a hinge shaft, is formed in the flange 21, and the inside of the heating vessel 10 is provided. A safety cock 22 which is opened when the temperature is above a predetermined temperature is installed, and a lid 20 having a temperature sensing rod 23 for sensing an internal temperature of the heating vessel 20;

Screw-type fastening to the mulberry oil extraction furnace 15 formed in the lower body 11 of the heating vessel 10, the water vapor in the heating vessel 10 generated by moisture extracted from the mulberry condensation due to the temperature difference The discharge valve 34 is a double structure having a coolant circulation space 32 through which the coolant pumped by the coolant pump 31 is circulated, and enables the collection of the extracted mulberry oil. Mulberry oil storage bin 30 is installed;

Refractory insulating brick 42 is to be laminated to minimize heat loss on the plate 41, but to have a space 43 for seating the heating vessel 10 is A heating heater 44 is installed along the inner surface of the refractory insulating brick 42, and a high temperature temperature sensing rod 45 for detecting a heating temperature of the heating heater 44 is installed. 42 is a body 40 is wrapped around the stainless cover 46;

It may be used to include a control box 50 for controlling the internal temperature sensing rod 23 and the high temperature temperature sensing rod 45 and the heating heater 44 of the heating vessel.

Hereinafter, the mulberry oil extractor will be described in more detail.

The mulberry oil extractor is screwed in the heating vessel 10, the lid 20 is covered with an upper portion of the heating vessel 10, and the mulberry oil extraction passage 15 of the heating vessel 10 is stored mulberry trees It includes a mulberry oil storage container 30 and the gas 40 surrounding the heating container 10 to be fastened by a formula.

The heating vessel 10 has a double body 11 structure in which the two housings 17 having different thicknesses overlap with the stainless steel sheets having different thicknesses to form the inner wall 12a and the outer wall 12.

The ocher wall 13 is coated on the outer wall 12 of the body 11, and far-infrared rays generated from the ocher wall 13 coated on the outer wall 12 are split into mulberry trees housed in the receiving unit 17. A large number of far-infrared irradiation holes 14 are formed so as to penetrate the inner wall 12a and the outer wall 12.

In the lower part of the body 11, the mulberry oil extraction path 15 is provided with a sieve net 16 installed so that only the mulberry oil extracted from the mulberry tree is passed through to the mulberry oil storage container 30.

The flange 18 of the upper portion of the body is provided with a fixing pin 19 for fixing the lid 20.

The ocher wall 13 may have a thickness of 5 to 20 cm.

The lid 20 installed above the body 11 of the heating container 10 has a fixing groove 21a into which the fixing pin 19 installed in the flange 18 formed as the upper portion of the body 11 is fitted. 21).

In addition, the safety cock 22 is opened when the internal temperature of the heating vessel 10 is a predetermined temperature or more, and the temperature sensing rod 23 for detecting the internal temperature of the heating vessel 10 is provided.

The safety cock 22 is opened when the internal temperature of the heating vessel 10 is 400 to 450 ℃ or more to prevent the pressure inside the heating vessel from being excessively high.

The temperature in the housing 17 of the heating vessel 10 is preferably heated to have a heat of 400 to 450 ℃.

The mulberry oil reservoir 30 is screwed to the mulberry oil extraction passage 15 formed in the lower portion of the body 11 of the heating vessel 10, is screwed to the mulberry oil extraction passage 15.

The mulberry oil reservoir 30 is a cooling water circulation space circulated with the cooling water pumped by the cooling water pump 31 so that the water vapor in the heating vessel 10 generated by the moisture extracted from the mulberry tree condensed by the temperature difference ( 32) with a double structure.

A discharge port 33 is formed at a lower portion of the mulberry oil storage container 30 to enable the collection of the extracted mulberry oil, and a discharge valve 34 is provided at the discharge hole 33.

The gas 40 on which the heating container 10 is seated is provided with a fireproof insulating brick 42 on the plate 41, and a space 43 in which the heating container 10 can be seated. Heated heater 44 is installed along the inner surface of the refractory insulating brick 42, and a high temperature temperature sensing rod 45 is installed to sense the heat generated temperature of the heat heater 44. And, the refractory insulating brick 42 is formed by wrapping the stainless cover 46.

The heating heater 44 installed inside the refractory insulating brick 42 of the gas 40 has a heat generation temperature of up to 900 ° C., and maintains an internal temperature of the heating container 10 at about 400 ° C. by the heat generation temperature. Done.

The heating heater 44 of the gas 40 and the internal temperature sensing rod 23 and the high temperature sensing rod 45 of the lid 20 are controlled by the control means of the control box 50.

A carbon packing 60 may be interposed between the heating vessel 10 and the lid 20 to maintain airtightness.

When extracting the mulberry oil using the mulberry oil extractor of the present invention having the above-described configuration as shown in Figures 2 to 3 to remove the lid 20 mounted to the upper portion of the heating vessel (10).

When the lid 20 is separated from the heating vessel 10, the fastening pin 19 is installed on the upper flange 18 of the body 11 via a hinge shaft (not shown in the drawing). After loosening the nut 18a, the fixing pin 19 is loosened from the fixing groove 21a of the flange 21 of the lid 20, and then flipped off as shown in FIG. 2, so that the lid 20 is separated. 3)

In the state of removing the lid 20 from the heating vessel 10 as described above, the mulberry tree cut short as shown in FIG. 4 is filled in the housing 17 of the body 11.

When the lid 20 is placed on the body 11 of the heating vessel 10 in a state where the mulberry is filled in the accommodating part 17, the fixing groove formed in the flange 21 when the lid 20 is mounted. In a state in which 21a is positioned at the fixing pin 19, the fixing pin 19 is erected as shown in FIG.

Thereafter, the flange 21 of the lid 20 is pressed against the flange 18 of the upper body 11 of the lid 20 by heating the tightening nut 19a as shown in FIG. 6.

At this time, the airtightness may be excellent by the carbon packing 60.

As described above, the mulberry tree is filled in the body 11 accommodating part 17 of the heating container 10, and the operation button of the control box 50 is not indicated with a special code when the lid 20 is mounted. ).

The heat of the heating heater 44 that generates heat by operating the operation button of the control box 50 is conducted to the ocher wall 13, the outer wall 12, and the inner wall 12a constituting the body 11 to receive the storage unit 17. The heated mulberry tree is heated.

Heat generated from the heat heater 44 is conducted through the space 43, so that the mulberry trees by indirect heat is carbonized.

When the heat of the heat heater 44 is applied to the mulberry housed in the accommodating part 17 of the body 11, the moisture of the mulberry leaves and evaporates.

As described above, the water vapor evaporated from the mulberry tree is screwed into the mulberry oil extraction path 15 formed under the body 11 of the heating container 10 and at the same time, the cooling water pump 31 cools the cooling water to the cooling water circulation space 32. By the difference in temperature in the mulberry oil storage tank circulated by the condensed oil storage tank and neighboring water vapor condensed to turn into mulberry oil. (See Fig. 7)

Mulberry oil changed as described above is passed through the sieve net 16 installed on the mulberry oil extraction path 15, pure mulberry oil is introduced into the mulberry oil storage bin 30. (See Fig. 8)

As described above, the heat is heated by the heat of the exothermic heater 44 to evaporate moisture, and the mulberry carbonized is indirectly transferred through the space 43 rather than the heat of the exothermic heater 44 directly to the heating vessel 10. As a result, the mulberry is not carbonized rapidly and is gradually carbonized to obtain a good quality carbide (charcoal).

In addition, the body 11 formed by the outer wall 12 and the inner wall 12a constituting the body 11 of the heating vessel 10 is formed with a plurality of far-infrared radiation holes 14 are discharged from the ocher wall 13 The far-infrared rays are sprinkled on the mulberry tree to purify the smell of tar that appears in the mulberry oil and carbide (charcoal), and there is no mixing of smoke generated when burning charcoal, which is a heat source as in the prior art, and thus produced carbide (charcoal) and mulberry oil. Tar smell is significantly reduced.

When the mulberry oil flows into the mulberry oil storage container 30, the discharge valve 34 installed in the outlet 33 is opened and put in a container (bottle) to be packed.

On the other hand, the carbide (charcoal) of the receiving portion of the body 11 of the heating container 10 is collected by opening the lid 20 to be shipped as charcoal used when grilling meat through unit packaging.

After removing the carbide (charcoal), it is possible to produce the mulberry oil and carbide (charcoal) by the method described above by storing the mulberry again.

By using the mulberry oil extractor, the pharmaceutical composition having an anticancer and antioxidant effect according to one embodiment of the present invention is improved in productivity with a very high yield, it can be obtained cleanly.

The pharmaceutical composition according to one embodiment of the present invention contains an active ingredient derived from mulberry tree, and has an excellent anticancer and antioxidant effect. In particular, there is a very good effect on inflammatory respiratory diseases, it is expected that it can be used very usefully included in drugs, functional cosmetics and feed.

Hereinafter, preferred examples and comparative examples of the present invention are described. However, the following examples are only preferred embodiments of the present invention and the present invention is not limited by the following examples.

Example of manufacture : Extraction of Pharmaceutical Compositions with Anticancer and Antioxidant Effects

Using the mulberry oil extractor shown in Figure 1, the pharmaceutical composition having anticancer and antioxidant effects was extracted.

More specifically, by washing the mulberry and settled in the accommodating part 17 of the mulberry oil extractor and maintaining the internal temperature of the accommodating part 17 at about 420 ° C, after heating for 3 hours, by cooling with 5 ° C cooling water Pharmaceutical composition with anti-cancer and antioxidant effects was extracted.

Test Example 1 Analysis of Components of Pharmaceutical Composition Having Anticancer and Antioxidant Effects

The components of the pharmaceutical composition having anticancer and antioxidant effects extracted in the above preparation were performed by GC / MS analysis (Agilent 6890GC / 5973MS, Palo Alto, USA). Prior to the analysis, the polar portion of the substituents such as amine groups, -OH, -COOH, etc., which may indicate the polarity of each component, was prepared using N, O-bis (trimethylsilyl) trifluoroacetamide (BSTFA) + trimethyl-chlorosilane (TMCS). , -OSi (CH ₃ ) ₃ is easily volatilized and derivatized in the following order to facilitate analysis of GC / MS.

a) After freeze-drying the pharmaceutical composition having the anticancer and antioxidant effects extracted in the preparation example, 1.5 ml was taken and transferred to 15 ml conical tube.

b) 300 μl of 1N NaOH was added to the conical tube, and titrated to pH = 12.

c) 3 ml of hexane (Hexane) was added to the conical tube, stirred for 2 minutes, and centrifuged at 16000 rpm for 5 minutes.

d) The centrifuged aqueous layer was extracted and transferred to a new conical tube so that the hexane layer did not come.

e) The new conical tube was again titrated to pH = 1 using 2N HCl.

f) 1 g of NaCl was added to the new conical tube.

g) 3 ml of ethyl acetate was added to the new conical tube, stirred for 2 minutes, and centrifuged at 16000 rpm for 5 minutes.

h) The centrifuged ethyl acetate layer was extracted and transferred to a new conical tube.

i) After repeating g) and h) two more times, the ethyl acetate was evaporated by blowing nitrogen at 30 ° C.

k) 100 μl of BSTFA with 1% TMCS solution was added to dissolve the sample and derivatized by reacting at 80 ° C. for 30 min.

l) After cooling to room temperature and sufficiently cooled, 1 μl of the derivatized extract was injected into GC / MS to analyze the composition of the pharmaceutical composition having anticancer and antioxidant effects. At this time, the peaks separated by GC-MS were identified based on the NIST chemical library (Wiley 275 L). The operating conditions of the GC / MS were as follows. GC used an Agilent 6890N (USA) equipped with a DB-5 (0.25 mm x 60 m, film thickness 0.25 μm) column and the injector temperature was 280 ° C. The temperature of the oven was maintained at 70 ° C. for 3 minutes, and the temperature was raised at a rate of 10 ° C./min and maintained at 300 ° C. for 5 minutes. As a carrier gas, helium (He) was used at a flow rate of 1 ml / min, and 1 μl of the sample was injected and analyzed at a split ratio of 30: 1. GC / MS interface temperature was 250 ℃ and EI ionization voltage was used as 70eV. The analysis range of the molecular weight was analyzed in the SCAN mode of 50 to 550 m / z region, and all the materials were qualitatively through the fragmentation of each material.

9 shows the results of GC / MS component analysis of the pharmaceutical composition having anticancer and antioxidant effects according to Test Example 1.

As shown in Figure 9, the pharmaceutical composition having the anti-cancer and antioxidant effects include antioxidants 1H-indole-2-carb oxylic acid and 4H-pyrido [1, 2-a] pyrimidine-3-carboxylic acid (4H-Pyrido [1,2-a] pyrimidine-3-carb oxylic acid) was found to contain.

Test Example 2 Analysis of the Components of a Pharmaceutical Composition Having Anticancer and Antioxidant Effects

The components of the pharmaceutical composition having anticancer and antioxidant effects extracted in the above preparation were performed by pyrolysis GC / MS (Agilent 6890GC / 5973MS, Palo Alto, USA) analysis. More specifically, 5 μl of the extract derivatized in step l) of Test Example 1 was wrapped in pyrofoil ^TM (jaie, JAPAN) at 590 ° C. and injected into GC / MS under the same conditions as in Example 1 (direct injection). system).

The GC / MS component analysis results of the pharmaceutical composition having anticancer and antioxidant effects according to Test Example 2 are shown in FIG. 10.

As shown in FIG. 10, the pharmaceutical composition having anticancer and antioxidant effects was found to contain various anticancer substances and antioxidant substances.

This can increase the temperature and pressure continuously before the mulberry is completely carbonized in the mulberry oil extractor, it could contain more various components than the components contained in the extract extracted from the conventional mulberry oil extractor.

The pharmaceutical compositions having anticancer and antioxidative effects as identified in FIGS. 9 and 10 were identified by mass cross-search and data of the National Institute of Standards and Technology (NIST), and the results are shown in Table 1 below.

Material name Analysis method GC / MS R.T. Activity Acetovanillone Test Example 2 (Pyrolysis GC / MS) 15.57 min antioxidant d-Allose Test Example 2 (Pyrolysis GC / MS) 15.64 min antioxidant
anticancer desaspidinol Test Example 2 (Pyrolysis GC / MS) 18.82 min antioxidant 1,4: 3,6-Dianhydro-alpha-d-glucopyranose Test Example 2 (Pyrolysis GC / MS) 11.73 min antioxidant
1H-Indole-2-carb oxylic acid Test Example 1
(GC / MS of derivative using BSTFA) 17.93 min antioxidant Myo-inositol Test Example 2 (Pyrolysis GC / MS) 21.95 min anticancer Levoglucosan Test Example 2 (Pyrolysis GC / MS) 17.93 min antioxidant D-mannitol Test Example 2 (Pyrolysis GC / MS) 20.30 min antioxidant
anticancer Monoterpene
(Rosefuran) Test Example 2 (Pyrolysis GC / MS) 13.18 min antioxidant Propiovanillone Test Example 2 (Pyrolysis GC / MS) 16.78 min antioxidant 4H-Pyrido [1,2-a] pyrimidine-3-carb oxylic acid Test Example 1
(GC / MS of derivative using BSTFA) 16.18 min antioxidant Talose Test Example 2 (Pyrolysis GC / MS) 20.96 min antioxidant
anticancer Vanillin Test Example 2 (Pyrolysis GC / MS) 14.43 min antioxidant
anticancer

Test Example 3 : Effect of the pharmaceutical composition on the production of MUC5AC mucin

Human respiratory epithelial cells NCI-H292 cells (American Type Culture collection) stimulated the production of airway mucin MUC5AC with phorbol ester (PMA), epidermal growth factor (EGF) and tumor necrosis factor (TNF), respectively. The pharmaceutical composition having the anticancer and antioxidant effects according to the preparation was treated for 24 hours. At this time, the pharmaceutical composition having an anticancer and antioxidant effect according to the preparation example was diluted in distilled water and used at a concentration of 1%, the pharmaceutical composition was cultured (RPMI 1640, GIBCO-BRL, 55% humidity and 37 ℃ temperature) For 200 μl, 5 μl each; 10 μl; And 20 μl each were used.

On the other hand, NCI-H292 cells not treated with the pharmaceutical composition having the anticancer and antioxidant effects (indicated by Cont in Figs. 11 to 13); And NCI-H292 cells stimulated with PMA, EGF and TNF, respectively, were used as controls.

Thereafter, in order to examine the effect of the pharmaceutical composition on the production of MUC5AC mucin, mucin production was measured using the enzyme-linked immunosorbent assay (ELISA) method, and the results are shown in FIGS. 11 to 13.

As shown in Figures 11 to 13, the pharmaceutical composition having an anticancer and antioxidant effect according to the present invention is to increase the production of MUC5AC mucin stimulated with PMA (Figure 11), EGF (Figure 12) and TNF (Figure 13), respectively It was confirmed that the reduction.

Test Example 4 : Effect of the pharmaceutical composition on the expression of MUC5AC mRNA

Human respiratory epithelial cells NCI-H292 cells (American Type Culture collection) stimulated the production of airway mucin MUC5AC with phorbol ester (PMA), epidermal growth factor (EGF) and tumor necrosis factor (TNF), respectively. The pharmaceutical composition having the anticancer and antioxidant effects according to the preparation was treated for 24 hours.

At this time, the pharmaceutical composition having an anticancer and antioxidant effect according to the preparation example was diluted in distilled water and used at a concentration of 1%, the pharmaceutical composition was cultured (RPMI 1640, GIBCO-BRL, 55% humidity and 37 ℃ temperature) For 200 μl, 20 μl was added and used.

On the other hand, NCI-H292 cells not treated with the pharmaceutical composition having the anticancer and antioxidant effects (indicated by Control in Figures 14 to 16); And NCI-H292 cells stimulated with PMA, EGF and TNF, respectively, were used as controls.

Subsequently, in order to examine the effect of the pharmaceutical composition on MUC5AC mRNA expression, MUC5AC mRNA expression was examined using reverse transcriptase-polymerase chain reaction (RT-PCR) method, and the results are shown in FIGS. 14 to 16.

As shown in Figures 14 to 16, the pharmaceutical composition having an anticancer and antioxidant effect according to the present invention is to express the expression level of MUC5AC mRNA stimulated with PMA (Fig. 14), EGF (Fig. 15) and TNF (Fig. 16), respectively. It was confirmed that the reduction.

That is, through the test examples 3 and 4, the pharmaceutical composition having an anticancer and antioxidant effect according to the present invention acts on the respiratory sputum hypersecretion state observed in various respiratory diseases, showing that the mucin production and secretion reduction action Could. As such, it is expected to be very useful for various inflammatory respiratory diseases such as asthma, chronic bronchitis, pulmonary emphysema, and bronchiectasis. In addition, it is expected to be very useful to be included in not only the use as a medicament, but also included in functional cosmetics and feed.

10: heating container 11: body
12: outer wall 12a: inner wall
13: ocher wall 14: far-infrared irradiation hole
15: mulberry oil extract 16: sieve
17: accommodating part 18, 21: flange
19: fixing pin 19a: tightening nut
20: lid 21a: fixing groove
22: Anzer cock 23: Internal temperature sensing rod
30: mulberry oil reservoir 31: cooling water pump
32: cooling water circulation space 33: outlet
34: discharge valve 40: gas
41 plate 42 fireproof brick
43: space 44: heating heater
45: high temperature detection rod 46: stainless steel cover
50: control box 60: carbon packing

Claims (8)

Di-allose, di-mannitol, talos, vanillin, acetovanillone, desapidinol, 1,4: 3,6-dianhydro-alpha-di-glucopyranose, 1H-indole derived from mulberry trees Asthma, Chronic Bronchitis, containing 2-carboxylic acid, myo-inositol, levoglucolic acid, monoterpene, propiovanillolone and 4H-pyrido [1,2-a] pyrimidine-3-carboxylic acid Pharmaceutical composition for the treatment of a disease selected from the group consisting of emphysema and bronchiectasis.
According to claim 1, wherein the pharmaceutical composition is 11 to 21% by weight of di- allose, 1 to 4% by weight of di-mannitol, 1 to 5% by weight of talos, 2 to 6% by weight of vanillin, 3 to 8 of acetobanilone % By weight, 7 to 13% by weight of desapidinol, 11 to 18% by weight of 1,4: 3,6- dianhydro-alpha-di-glucopyranose, 18 to 1H-indole-2-carboxylic acid 40% by weight, 1 to 5% by weight of myo-inositol, 0.1 to 3% by weight of levoglucoic acid, 4 to 14% by weight of monoterpene, 1 to 8% by weight of propiovanilone and 4H-pyrido [1,2-a] A pharmaceutical composition for the treatment of a disease selected from the group consisting of asthma, chronic bronchitis, emphysema and bronchiectasis, characterized by containing 1 to 6% by weight of pyrimidine-3-carboxylic acid as an active ingredient.
delete delete The method of claim 1,
The pharmaceutical composition is extracted by the mulberry oil extractor,
The mulberry oil extractor is a double body (11) structure of the inner wall (12a) and the outer wall 12 by overlapping two stainless steel sheets having a different thickness of the accommodating part (17) that stores the mulberry tree, it is applied to the outer wall (12) A plurality of far-infrared irradiation holes 14 are formed to penetrate the inner wall 12a and the outer wall 12 so that far-infrared rays generated from the formed ocher wall 13 can be split into mulberry trees housed in the accommodating part 17. There is a mulberry oil extraction path 15 is provided with a sieve net 16 is installed so that only the mulberry oil extracted from the mulberry tree is passed through to the mulberry oil storage bin (30), the upper flange (18) has a lid ( A heating vessel 10 in which a fixing pin 19 for fixing 20 is installed;
A fixing groove 21a into which the fixing pin 19 is installed, which is installed on the upper flange 18 of the heating vessel 10 via a hinge shaft, is formed in the flange 21, and the inside of the heating vessel 10 is provided. A safety cock 22 that is opened when the temperature is above a predetermined temperature is installed, and a lid 20 on which a temperature sensing rod 23 for detecting an internal temperature of the heating vessel 10 is installed;
Screw-type fastening to the mulberry oil extraction furnace 15 formed in the lower body 11 of the heating vessel 10, the water vapor in the heating vessel 10 generated by moisture extracted from the mulberry condensation due to the temperature difference The discharge valve 34 is a double structure having a coolant circulation space 32 through which the coolant pumped by the coolant pump 31 is circulated, and enables the collection of the extracted mulberry oil. Mulberry oil storage bin 30 is installed;
Refractory insulating brick 42 is to be laminated to minimize heat loss on the plate 41, but to have a space 43 for seating the heating vessel 10 is A heating heater 44 is installed along the inner surface of the refractory insulating brick 42, and a high temperature temperature sensing rod 45 for detecting a heating temperature of the heating heater 44 is installed. 42 is a body 40 is wrapped around the stainless cover 46;
A group consisting of asthma, chronic bronchitis, emphysema and bronchodilatation, including a control box 50 for controlling the internal temperature sensing rod 23 and the high temperature sensing rod 45 and the heating heater 44 of the heating vessel. A pharmaceutical composition for the treatment of a disease selected from.
The method of claim 5, wherein
The mulberry oil extractor is a pharmaceutical composition for the treatment of diseases selected from the group consisting of asthma, chronic bronchitis, emphysema and bronchiectasis, the thickness of the ocher wall 13 constituting the heating container 10 is 5 to 20 cm. .
The method of claim 5, wherein
The mulberry oil extractor is a disease selected from the group consisting of asthma, chronic bronchitis, emphysema and bronchiectasis, in which the carbon packing 60 is additionally installed to maintain airtightness in the body 11 of the heating container 10. Pharmaceutical composition for treatment.
The method of claim 5, wherein
The mulberry oil extractor is a pharmaceutical composition for the treatment of a disease selected from the group consisting of asthma, chronic bronchitis, emphysema and bronchiectasis, the internal temperature of the heating vessel 10 is 400 to 450 ℃.

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