PL242139B1 - Application of Kamchatka berry Lonicera caerulea L. var. Kamtschatica or its tissue or the products thereof, preferably the fruit extract - Google Patents

Abstract

The application concerns the use of haskap berry Lonicera caerulea L var. Kamtschatica or its tissues or their products, in particular fruit extract, for the production of medicinal products in the treatment and prevention of atherosclerosis and with hepatoprotective effects, as well as for the production of a dietary supplement, nutritional agent or as a component of functional food used as an auxiliary in the treatment and prevention of atherosclerosis and liver diseases, and to maintain the physiological level of triglycerides.

Description

Description of the invention

The subject of the invention is an extract from the haskap berry Lonicera caerulea L. var. Kamtschatica for use as a triglyceride lowering drug. The subject of the invention is also the use of haskap berry extract Lonicera caerulea L. var. Kamtschatica for the production of a dietary supplement, nutritional agent or as a component of functional food, used as an auxiliary in the treatment and prevention of atherosclerosis and liver diseases, as well as to maintain the physiological level of triglycerides.

The state of the art is known from the publication of Szot I. et al. "Jagoda Kamczacka - Health-promoting properties of fruits and the possibilities of their use" (Food. Science. Technology. Quality 2014, 4 (95), 18-29), revealing the health-promoting properties of Kamchatka berries however, the publication does not disclose the use of haskap fruit extract for lowering the level of triglycerides, which, for example, makes it possible to treat lipid metabolism disorders.

Jurgoński A. et al. "An anthocyanin-rich extract from Kamchatka honeysuckle increases enzymatic activity within the gut and ameliorates abnormal lipid and glucose metabolism in rats" (Nutrition. 2013 Jun 29 (6): 898-902) reveals the effect of haskap on lipid metabolism crucial for the mechanisms occurring in patients with diabetes and broadly understood CVDs, i.e. cardiovascular diseases. A group of individuals on a high-fructose diet but not on a high-fat diet was studied. The publication does not reveal the direct effect of the extract on lowering triglyceride levels. Anthocyanins are responsible for the therapeutic effect, as suggested by Jurgoński.

The gardening blog "Kamchacka berry, In my garden" from 2017-08-09 and "Kamchacka berry (blue honeysuckle)" from 2015-07-02, reveal the protective properties of haskap berry on the liver, blood vessels, anti-infarction effect of the juice and extract, indications for use in inflammatory conditions, coronary artery disease, viral liver diseases, but do not disclose and do not contain suggestions and experimental data that a fruit extract with a specific composition lowers the level of triglycerides.

The properties of Cornus mas are known, which contain a fully described profile of active compounds (Kucharska 2012; Kucharska et al. 2015):

iridoids in the amount of about 80 to almost 500 mg/100 g dm; (depending on the variety), anthocyanins in the amount of 5 to 149 mg / 100 g dm, (depending on the variety) phenolic acids on average 11.5 mg / 100 g dm, Flavonols avg. 4.1mg/100g ww.

No procyanidins were found.

Studies on the composition of haskap fruits have shown differences in the content of iridoids in dogwood and haskap: in dogwood there are mainly two iridoids, i.e. logan acid, which is about 90% of the total iridoids, and cornuside (Kucharska et al. 2015), while Kamchatka berry contains more iridoid compounds (fifteen types), including logan acid, loganin and their derivatives. Loganic acid accounts for 22% and 73% of all iridoids (Kucharska et al. 2017).

So far, there are no reports on the effect of Kamchatka berry, its tissues or their products on lowering the level of triglycerides and preventing atherosclerosis, and on the hepatoprotective effect. There was also no presence of registered products containing haskap used for this purpose.

The aim of the invention is therefore to propose preparations for the treatment and prevention of atherosclerosis and related circulatory system diseases, simultaneously with hepatoprotective effect.

During scientific research on the properties of lyophilisate and haskap extract, it was surprisingly shown that oral administration of purified haskap berry extract maintains the physiological level of triglycerides in the blood of the tested rats.

The subject of the invention is an extract of haskap fruit from the species Lonicera caerulea L. var. Kamtschatica containing compounds with the content specified by the appropriate percentage share and presented in the table below

PL 242139 B1

A group of compounds Relationship Concentration [mg/100g] [%] Iridoids loganic acid 7934.75 7.93 Loganic acid 7-O-pentoside 3734.35 3.73 sweroside + loganin 11027.29 11.03 Loganin 7-O-pentoside 3061.62 3.06 Sum of iridoids 25758.01 25.75 Anthocyanins Cyanidin 3,5-O-diglucoside 511.87 0.51 Cyanidin 3-O-diglucoside 16351.25 16.35 Cyanidin 3-O-rutinoside 1020.12 1.02 Peonidine 3-O-glucoside 354.08 0.35 Peonidine 3-O-rutinoside 176.11 0.18 Total anthocyanins 18413.43 18.41 Phenolic acids neochlorogenic acid 634.75 0.63 chlorogenic acid 3362.07 3.36 sour coffee and dungeon and new 1057.09 1.06 dicaffeoylquinic acid 863.30 0.96 Sum of phenolic acids 5917.21 5.92 flavonols quercetin vianoside 395.28 0.40 quercetin rhamnoside-hexoside 1763.09 1.76 quercetin glucoside 439.29 0.44 Sum of flavonols 2597.66 2.60

for use as a triglyceride lowering drug.

The subject of the invention is also the use of haskap fruit extract of the species Lonicera caerulea L. var. Kamtschatica containing compounds with the content specified by the appropriate percentage share and presented in the table below

A group of compounds Relationship Concentration [mg/100g] [%] Iridoids loganic acid 7934.75 7.93 Loganic acid 7-O-pentoside 3734.35 3.73 sweroside + loganin 11027.29 11.03 Loganin 7-O-pentoside 3061.62 3.06 Sum of iridoids 25758.01 25.75 Anthocyanins Cyanidin 3,5-O-diglucoside 511.87 0.51 Cyanidin 3-O-diglucoside 16351.25 16.35 Cyanidin 3-O-rutinoside 1020.12 1.02 Peonidine 3-O-glucoside 354.08 0.35 Peonidine 3-O-rutinoside 176.11 0.18 Total anthocyanins 18413.43 18.41 Phenolic acids neochlorogenic acid 634.75 0.63 chlorogenic acid 3362.07 3.36 caffeoylquinic acid 1057.09 1.06 dicaffeoylquinic acid 863.30 0.96 Total phenolic acid 5917.21 5.92 flavonols quercetin vianoside 395.28 0.40 quercetin rhamnoside-hexoside 1763.09 1.76 quercetin glucoside 439.29 0.44 Sum of flavonols 2597.66 2.60

as a dietary supplement, nutritional agent or as a component of functional food that lowers the level of triglycerides.

The advantage of the invention is that the raw material to be used may be in the form of edible fruit, devoid of known adverse or toxic effects, which, in the light of the available knowledge, does not require safety tests, including toxicological ones. Significant availability of the raw material on the market, the possibility of obtaining the raw material on an industrial scale, the possibility of relatively easy transport and storage of fruit is an additional advantage of the raw material.

PL 242139 B1

An additional advantage is that the raw material can be used to produce extracts that are active substances for the production of both medicinal products and dietary supplements, as well as an additive to functional food.

In addition, the advantage is the technology developed by the research team for the production of a standardized extract with a known composition of biologically active substances, as well as the possibility of using it for the production of dietary supplements or functional food, also technologically much simpler to obtain dried or lyophilisate. Finished preparations can be liquid, thick and dry.

The preparations used according to the invention affect the maintenance of the physiological concentration and the normalization of abnormal concentrations of lipids in the plasma, especially triglycerides. They can prevent the development and treat atherosclerosis of blood vessels and the resulting cardiovascular diseases. They support the physiological functions of the liver and have a hepatoprotective effect.

In order to better illustrate the present invention based on the action of haskap extract, a detailed description of the results of the tests is attached hereinafter.

Example

Characteristics of the tested preparation

The composition of the basic biologically active substances contained in the originating fruits and the obtained extract from different varieties of haskap berries is shown in the chromatographic charts (fig. 1-4), where fig. : No. 4 - cyanidin 3,5-O-diglucoside, No. 5 - cyanidin 3-O-glucoside, No. 6 - cyanidin 3-O-rutinoside, No. 9 - peonidin 3-O-glucoside, No. 10 - peonidin 3-0 -rutinoside), fig. 2 HPLC chromatogram (360 nm) of flavonols of the haskap fruit preparation (main flavonols: no. 1 - quercetin O-vicianoside, no. 2 - quercetin O-rhamoniside-O-hexoside; no. glucoside); Fig. 4 is an HPLC (245 nm) chromatogram of the iridoids of a blueberry preparation Kamchatka dyke (main iridoids: No. 1 - loganic acid, No. 3 - loganic acid 7-O-pentoside; No. 4 - sweroside + loganin; No. 5 - loganin 7-O-pentoside).

Their quantitative and qualitative characteristics are presented in tables 1 and 2. The biological activity of the extract was demonstrated in a pre-clinical study on laboratory animals, when the extract was administered orally. Theoretical basis for further development work has been developed, including the production of pharmaceutical formulations and possible clinical trials, which are not the subject of the invention.

Table 1. Quantitative characteristics of the main compounds of the preparation obtained from the haskap fruit (Lonicera caerulea var. kamtschatica Sevast.)

A group of compounds Relationship Concentration [mg/100g] [%] Iridoids loganic acid 7934.75 7.93 Loganic acid 7-O-pentoside 3734.35 3.73 sweroside + loganin 11027.29 11.03 Loganin 7-O-pentoside 3061.62 3.06 Sum of iridoids 25758.01 25.75 Anthocyanins Cyanidin 3,5-O-diglucoside 511.87 0.51 Cyanidin 3-O-diglucoside 16351.25 16.35 Cyanidin 3-O-rutinoside 1020.12 1.02 Peonidine 3-O-glucoside 354.08 0.35 Peonidine 3-O-rutinoside 176.11 0.18 Total anthocyanins 18413.43 18.41 Phenolic acids neochlorogenic acid 634.75 0.63 chlorogenic acid 3362.07 3.36 caffeoylquinic acid 1057.09 1.06 dicaffeoylquinic acid 863.30 0.96 Sum of phenolic acids 5917.21 5.92 flavonols quercetin vianoside 395.28 0.40 quercetin rhamnoside-hexoside 1763.09 1.76 quercetin glucoside 439.29 0.44 Sum of flavonols 2597.66 2.60

PL 242139 B1

Table 2. Qualitative and quantitative characteristics of the main compounds from the group of iridoids, anthocyanins, phenolic acids and flavonols of the preparation obtained from haskap fruits (Lonicera caerulea var. kamtschatica Sevast.)

Relationship Ionization Ion mass before fragmentation (m/z) Ion mass after fragmentation (m/z) concentration [%] legal acid - 375 213 7.93 leganie acid 7O-pentoside - 507 375/213 3.73 sweroside - 357 195 11.03 logan - 389 227 loganin 7-0pentoside - 521 389/227 3.06 irtdoid sum 25.75 Anthocyanins cyanidin 3,5-0-diglucoside + 611 449/287 0.63 cyanidin 3-0 glucoside + 449 287 19.42 cyanidin 3-0 rutinside + 595 287 1.33 peonidin 3-0 glucoside + 463 301 0.41 peonidin 3-0rutinoside + 609 301 0.15 Total anthocyanins 21.95 Phenolic acids neochlorogenic acid - 353 191 0.63 chlorogenic acid - 353 191 3.36 caffeoylquinic acid - 353 191 1.06 dicaffeoylquinic acid - 515 353/191 0.96 Sum of phenolic cashes 5.92 flavonols quercetin Ovicianoside - 595 433/301 0.36 quercetin O-rhamoniside O-hexoside - 609 463/301 1.83 quercetin 3-0 glucoside - 463 301 0.36 Sum of flavonols 2.55

The blueberry fruits analyzed came from the Haskap company from Skierniewice.

An in vivo study confirming the effectiveness of the preparation - Kamchatka berry fruit extract in the described indications and patent claims was carried out on rats of the Wistar strain, fed:

• standard feed containing 4% fat - negative control group (GKN), • high-fat feed (with the addition of lard), containing a total of 15% fat - HF(GKH) positive control group or • high-fat feed with the addition of Kamchatka berry extract in a dose of 300 mg/100 g of feed - study group HF+HLC (GKHH).

After a standard pre-conditioning period, laboratory animals received a high-fat diet and a haskap preparation for 8 weeks. At the beginning of the study and after its completion, blood was collected from the test animals.

After 8 weeks of feeding rats with the described feeds and the administration of haskap extract, lower blood triglyceride concentrations were demonstrated in animals fed a high-fat diet with Kamchatka berry (GKHH) compared to animals fed a high-fat diet without the preparation (GKH) (2 .56 vs. 3.18 mmol/L).

The lower level of triglycerides in animals receiving the Kamchatka berry preparation proves its protective effect on the development of dyslipidemia and atherosclerosis induced by a high-fat diet. An elevated level of triglycerides is a marker of the risk of developing cardiovascular diseases (Reiner 2017, Sarwar et al. 2007), it is found in the course of atherogenic atherosclerosis, type II diabetes and metabolic syndrome. Elevated triglyceride levels are independently associated with increased mortality in patients with ischemic heart disease (Klempfner et al. 2016) and are independently associated with increased risk of heart attacks and increased mortality in the general population (Langsted et al. 2011). It is also an independent risk factor for transient ischemic attacks and strokes (Tanne et al. 2011).

In addition, in animals receiving feed with the addition of haskap berry extract (GKHH), a lower concentration of alanine aminotransferase - ALAT was found in the blood. This enzyme, which catalyzes reactions in the glucose-alanine cycle, is one of the basic markers of liver cell damage, used both in research and clinical practice. In the study, the level of ALAT in animals fed a high-fat diet supplemented with haskap extract (GKHH) was lower compared to animals fed a high-fat diet without the supplement (GKH) (39.21 vs 46.03 U/l).

Literature:

1. Kucharska, A.Z., (2012). Active Compounds of Cornelian Cherry Fruit (Cornus mas L.) Publishing House of the Wrocław University of Environmental and Life Sciences.

2. Kucharska, A. Z., Szumny, A., Sokol-Łętowska, A., Piórecki, N., & Klymenko, S. V. (2015). Iridoids and anthocyanins in cornelian cherry (Cornus mas L.) cultivars. Journal of Food Composition and Analysis, 40, 95-102.

3. Kucharska, A. Z., Sokół-Łętowska, A., Oszmiański, J., Piórecki, N., & Fecka, I. (2017). Iridoids, phenolic compounds and antioxidant activity of edible honeysuckle berries (Lonicera caerulea var. kamtschatica Sevast.). Molecules, 22, 405.

4. Reiner Z. Hypertriglyceridaemia and risk of coronary artery disease. Nat Rev Cardiol. 2017 Jul; 14(7): 401-411. doi: 10.1038/nrcardio.2017.31. Epub 2017 Mar 16.

5. Sarwar N, Danesh J, Eiriksdottir G, Sigurdsson G, Wareham N, Bingham S, et al. Triglycerides and the risk of coronary heart disease: 10,158 incident cases among 262,525 participants in 29 Western prospective studies. circulation. 2007; 115(4):450-8. doi: 10.1161/CIRCULATIONAHA. 106.637793.

6. Klempfner R, Erez A, Sagit BZ, Goldenberg I, Fisman E, Kopel E, Shlomo N, Israel A, Tenenbaum A. Elevated Triglyceride Level Is Independently Associated With Increased AllCause Mortality in Patients With Established Coronary Heart Disease: Twenty-Two -Year Follow-Up of the Bezafibrate Infarction Prevention Study and Registry. Circ Cardiovasc Qual Outcomes. 2016 Mar; 9(2): 100-8. doi: 10.1161/CIRCOUTCOMES.115.002104. Epub 2016 Mar 8. Erratum in: Circ Cardiovasc Qual Outcomes. 2016 Sep; 9(5): 613.

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7. Tanne D, Koren-Morag N, Graff E, Goldbourt U. Blood lipids and first-ever ischemic stroke/transient ischemic attack in the Bezafibrate Infarction Prevention (BIP) Registry: high triglycerides constitute an independent risk factor. circulation. 2001 Dec 11;104(24): 2892-7.

8. Langsted A, Freiberg JJ, Tybjaerg-Hansen A, Schnohr P, Jensen GB, Nordestgaard BG. Nonfasting cholesterol and triglycerides and association with risk of myocardial infarction and total mortality: the Copenhagen City Heart Study with 31 years of follow-up. J Intern Med. 2011 Jul; 270(1): 65-75. doi: 10.1111/j.1365-2796.2010.02333.x. Epub2010 Dec 27.

Claims (3)

Patent claims 1. Haschatka berry fruit extract of the species Lonicera caerulea L. var. Kamtschatica containing compounds with the content specified by the appropriate percentage share and presented in the table below A group of compounds Relationship Concentration [mg/100g] [%] Iridoids loganic acid 7934.75 7.93 Loganic acid 7-O-pentoside 3734.35 3.73 sweroside + loganin 11027.29 11.03 Loganin 7-O-pentoside 3061.62 3.06 Sum of iridoids 25758.01 25.75 Anthocyanins Cyanidin 3,5-O-diglucoside 511.87 0.51 Cyanidin 3-O-diglucoside 16351.25 16.35 Cyanidin 3-O-rutinoside 1020.12 1.02 Peonidine 3-O-glucoside 354.08 0.35 Peonidine 3-O-rutinoside 176.11 0.18 Total anthocyanins 18413.43 18.41 Phenolic acids neochlorogenic acid 634.75 0.63 chlorogenic acid 3362.07 3.36 caffeoylquinic acid 1057.09 1.06 dicaffeoylquinic acid 863.30 0.96 Sum of phenolic acids 5917.21 5.92 Flavonols quercetin vianoside 395.28 0.40 Quercetin rhamnoside-hexoside 1763.09 1.76 quercetin glucoside 439.29 0.44 Sum of flavonols 2597.66 2.60 for use as a triglyceride lowering drug. 2. The use of haskap fruit extract from the species Lonicera caerulea L. var. Kamtschatica containing compounds with the content specified by the appropriate percentage share and presented in the table below PL 242139 B1 A group of compounds Relationship Concentration [mg/100g] [%] Iridoids loganic acid 7934.75 7.93 Logan acid 7-O-pentoside 3734.35 3.73 sweroside + loganin 11027.29 11.03 Loganin 7-O-pentoside 3061.62 3.06 Sum of iridoids 25758.01 25.75 Anthocyanins Cyanidin 3,5-Odiglucoside 511.87 0.51 Cyanidin 3-O-diglucoside 16351.25 16.35 Cyanidin 3-O-rutinoside 1020.12 1.02 Peonidine 3-O-glucoside 354.08 0.35 Peonidine 3-O-rutinoside 176.11 0.18 Total anthocyanins 18413.43 18.41 Phenolic acids neochlorogenic acid 634.75 0.63 chlorogenic acid 3362.07 3.36 acid coffee and dungeon and new 1057.09 1.06 acid di coffee and dungeon and new 863.30 0.96 Total phenolic acid 5917.21 5.92 flavonols quercetin vianoside 395.28 0.40 Quercetin rhamnoside-hexoside 1763.09 1.76 quercetin glucoside 439.29 0.44 Sum of flavonols 2597.66 2.60 as a dietary supplement, nutritional agent or as a triglyceride-lowering functional food ingredient.