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Title:
USE IN RUMINANTS OF A FOOD ADDITIVE INCLUDING A SWEETENER
Document Type and Number:
WIPO Patent Application WO/2014/033217
Kind Code:
A1
Abstract:
The invention concerns the use of a food additive including a sweetener in the feed or the drink of a ruminant animal to reduce the impact of stressful conditions on intestinal mucosa quality.

Inventors:
BRAVO DAVID (CH)
SHIRAZI-BEECHEY SORAYA P (GB)
Application Number:
PCT/EP2013/067907
Publication Date:
March 06, 2014
Filing Date:
August 29, 2013
Export Citation:
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Assignee:
PANCOSMA SA (CH)
UNIV LIVERPOOL (GB)
International Classes:
A23K1/18; A23K1/16
Other References:
REUTER ET AL.: "Effect of an artificial sweetener and yeast product combination on immune function measurements, growth performance and carcass characteristics of beef heifers.", JOURNAL OF ANIMAL SCIENCE, vol. 85, no. supplement 1, 2007, USNEW YORK, NY, pages 370 - 371, XP002718543, ISSN: 0021-8812
MCMENIMEN, J. P., ET AL.: "Effects of an artificial sweetener on health, performance, and dietarypreference of feedlot cattle", JOURNAL OF ANIMAL SCIENCE, vol. 84, 2006, USNEW YORK, NY, pages 2491 - 2500, XP002718544, ISSN: 0021-8812
DATABASE WPI Week 198715, Derwent World Patents Index; AN 1987-104875, XP002718545
SOULET, C.: "GUT DEVELOPMENT IS ESSENTIAL FOR WEANING PIGLETS", 5 July 2012 (2012-07-05), pages 1 - 2, XP002718546, Retrieved from the Internet [retrieved on 20140109]
BORWN, R. J. AND ROTHER, K.I.: "nON-NUTRITIVE SWEETENERS AND THEIR ROLE IN THE GASTROINTESTINAL TRACT", JOURNAL OF CLINICAL ENDOCRINOLOGY AND METABOLISM, vol. 97, no. 8, 7 July 2012 (2012-07-07), The Endocrine Society, pages 2597 - 2606, XP002718547, ISSN: 0021-972X
Attorney, Agent or Firm:
STEPHANN, Valérie et al. (42 rue Plantamour, Geneve, CH)
Download PDF:
Claims:
Claims

1. Use of a food additive including a sweetener in the feed or the drink of a ruminant animal to reduce the impact of stressful conditions on intestinal mucosa quality.

2. Use according to claim 1, characterized by the fact that the food additive is used to improve growth and/or permeability and/or absorption and/or immune functions of the intestinal mucosa.

3. Use according to claim 1 or 2, characterized by the fact that the food additive is used in case of heat stress, oxidative stress and/or major feed changes, especially at weaning.

4. Use according to any of preceding claims, characterized by the fact that the food additive is used on a preventive way and/or on a curative way.

5. Use according to claim 4, characterized by the fact that, on a preventive way, the additive is used to improve intestinal mucosa quality.

6. Use according to claim 4, characterized by the fact that, on a curative way, the additive is used to limit degradation of intestinal mucosa quality.

7. Use according to any of preceding claims, characterized by the fact that the additive is administrated before stressful conditions.

8. Use according to any of preceding claims, characterized by the fact that the additive is administrated during stressful conditions.

9. Use according to any of claims 1-8, characterized by the fact that the additive is administered to an un-weaned animal at a dose lower or equal to 400 grams of sweetener per ton of dehydrated milk replacer.

10. Use according to any of claims 1-8, characterized by the fact that the additive is administered to the weaned animal at a dose lower or equal to 200 grams of sweetener per ton of feed as dry matter.

11. Use according to any of claims 1-8, characterized by the fact that the additive is administered to the weaned animal at a dose lower or equal to 100 grams of sweetener per ton of drinking water.

12. Use according to any of claims 1-8, characterized by the fact that the additive is administered to the weaned animal at a dose lower or equal to 150 grams of sweetener per ton of feed as dry matter.

13. Use according to any of claims 1-8, characterized by the fact that the additive is administered to the weaned animal at a dose lower or equal to 75 grams of sweetener per ton of drinking water.

14. Use according to any of claims 1-8, characterized by the fact that the additive is administered to the weaned animal at a dose lower or equal to 100 grams of sweetener per ton of feed as dry matter.

15. Use according to any of claims 1-8, characterized by the fact that the additive is administered to the weaned animal at a dose lower or equal to 50 grams of sweetener per ton of drinking water.

16. Use according to any of the preceding claims, characterized by the fact that the sweetener is an intense sweetener.

17. Use according to claim 16, characterized by the fact that the sweetener comprises saccharin.

18. Use according to claim 16, characterized by the fact that the sweetener comprises at least one of the compounds of the group comprising sodium saccharin, calcium saccharin, aspartame, acesulfame K, stevioside and cyclamate.

19. Use according to any preceding claims, characterized by the fact that the additive comprises a potentiator.

20. Use according to claim 19, characterized by the fact that the potentiator comprises at least one of the group comprising compounds, glycyrrhizin, ammonium glycyrrhizinate, potassium glycyrrhizinate, sodium glycyrrhizinate, thaumatin, kokumi, neohesperidin dihydrochalcone, the ribotides and sodium glutamate.

21. Use according to claim 19 or 20, characterized by the fact that the additive comprises from 20% to 0% by weight of potentiator(s).

22. Use according to any of preceding claims, characterized by the fact that the animal is a calf.

Description:
Title: USE IN RUMINANTS OF A FOOD ADDITIVE INCLUDING A SWEETENER

The invention relates to the use of a sweetener in food or drink of a ruminant animal, especially a calf.

Sweeteners are, as is known, used in animal food to give it a sweet taste and to make it more attractive. The sweet taste stimulates the appetite of the animal, which encourages him to eat more and thereby improves its weight gain. Sweeteners are especially used in the feeding of young animals such as calves, piglets and lambs in the growth phase. As an illustrative example of a sweetener used in animal feed, the product SUCRAM ® from the company Pancosma can be quoted.

When an animal is subject to stressful conditions (for example heat stress, dramatic feed composition changes, oxidative stress...), the animal reduces or stops momentarily his feed intake. However, deprivation of food in an animal, especially in young animals during growth, infringes dramatically and quickly the quality of the intestinal mucosa, especially growth, permeability, absorptive and immune functions of the mucosa. This degradation of the intestinal mucosa can consequently reduce animal resistance to enteropathogens and/or impairs animal overall production performance.

It is therefore necessary to find a simple and effective solution to reduce the damage to the intestinal mucosa due to stressful conditions in a ruminant animal.

To this end, the invention concerns the use of an additive comprising a sweetener in a ruminant animal food or drink to reduce the negative impacts of stressful conditions on animal intestinal mucosa quality, especially on growth, permeability, absorptive and immune functions of the mucosa, in order to maintain normal growth rate or production performance and/or improve animal resistance to enteropathogens.

The use of the additive can be performed through a preventive way or a curative way.

The term sweetener is meant as any substance or compound, chemical or natural, having a sweet taste. By "intense sweetener" is meant a sweetener with a sweetening power at least 20 times higher than sugar. The additive can be administered to unweaned animal, especially in a preventive way, at a dose lower or equal to 400 grams of sweetener per ton of milk replacer under dehydrated form.

In a first embodiment, the additive is administered to the weaned animal, especially in a curative way :

- at a dose lower or equal to 200 grams sweetener per ton of feed in form of dry matter and / or

- at a dose lower or equal to 100 grams of sweetener per ton of drinking water. In a second embodiment, the additive is administered to the weaned animal, especially in a curative way, at a dose lower or equal to 75 grams of sweetener /ton of drinking water and / or because a lower dose or equal to 150 grams of sweetener per ton of feed in form of dry matter.

In a third embodiment, the additive is administered to the weaned animal, especially in a curative way, at a dose lower or equal to 50 grams of sweetener / ton of drinking water and / or because a lower dose or equal to 100 grams of sweetener per ton of feed in form of dry matter.

The invention will be better understood from the following description of a particular embodiment of the use according to the invention with reference to the accompanying drawings in which:

- Figure 1 shows images of un-weaned pre-ruminant calf intestinal cells;

- Figure 2 shows images of weaned ruminant calf intestinal cells;

- Figure 3 shows images of weaned ruminant calf intestinal cells;

- Figure 4 shows images of a calf intestinal cell expressing GLP-2;

- Figure 5 shows images of intestinal BBMV (brush border membrane vesicles) from calves;

- Figure 6 shows a diagram of the consumption of D-glucose by calves of four test groups.

The invention concerns the use of a food additive including a sweetener in the feed or the drink of a ruminant animal to reduce the impact of stressful conditions on intestinal mucosa quality. The additive is used especially to improve growth, permeability and/or absorption and immune functions of the intestinal mucosa, for example in case of heat stress, oxidative stress and/or major feed changes, especially at weaning. The food additive may be used on a preventive way and/or on a curative way. On a preventive way, the additive is used to improve intestinal mucosa quality, whereas, on a curative way, the additive is used to limit degradation of intestinal mucosa quality. In order to prevent a degradation of the mucosa quality, the additive is administrated before stressful conditions. During stressful conditions, the additive can also be administrated to reduce the impact of these stressful conditions on the intestinal mucosa. To this end, the invention also concerns the additive used as a medicament to limit degradation of intestinal mucosa, particularly caused in and after a stressful condition, or used for a prophylactic effect, particularly on the intestinal mucosa.

To observe the effects of a food additive corresponding to a sweetener in the intestine of a ruminant animal, the following experiment was performed.

The experiment was conducted in calves initially aged of one week. Four groups denoted Gl, G2, G3 and G4, each comprising four calves are selected. The experiment consists of two phases:

- The first phase PhJ, from the 1st day of the experiment, noted Day 1, 55th day of the experiment, noted Day 55;

- A second phase Ph_ll, from 56th day of experimentation (Day 56) and ending when the calves are older than 4 months.

The first phase PhJ mimicks the use of the additive in a preventive way, whereas the second phase PhJI mimicks the use of the additive in a curative way.

Groups Gl and G3 are control groups.

During the first phase PhJ, calves of the four groups are fed a milk substitute or milk replacer. The milk replacer was given to calves from groups Gl, G3 and G4 without sweetener. The milk replacer given to calves of group G2 product contains a sweetener. Calves of groups Gl and G2 are slaughtered after the first phase.

During the second phase PhJI, calves groups G3 and G4 are fed a concentrate rich in starch. The concentrate given to calves group G3 is without sweetener. The concentrate given to calves G4 group contains the sweetener product. Table 1 below summarizes the different treatments for the different groups. Table 1:

The sweetener, or food additive, includes an intense sweetener. It may contain at least one of the compounds of the group consisting of saccharin, sodium saccharin, calcium saccharin, aspartame, acesulfame K, cyclamate and steviosides.

The sweetener (or additive) also contains a potentiator. The potentiator role is to extend the perception of sweetness and to hide the second taste or parasites of the sweetener (such as bitter or metallic tastes). It comprises at least one of the compounds from the group comprising glycyrrhizin, ammonium glycyrrhizinate, potassium glycyrrhizinate, sodium glycyrrhizinate, thaumatin, kokumi, neohesperidin dihydrochalcone, the ribotides and sodium glutamate.

The sweetener, or additive, comprises from 80% to 100% by weight of sweetener(s) and from 20% to 0% by weight of potentiator(s).

The sweetener (or food additive) used as an example of illustration in the experiment described here, is the product SUCRAM ® C-150 of the Pancosma company. This product contains 80% by weight of sodium saccharin 10 and 20% by weight of potentiator(s).

For the experiment, the doses of sweetener product provided to Calves are the following:

- Before withdrawal, the dose of 400 ppm Product SUCRAM ® C-150 in the CMR

(Calf Milk Replacer) or milk substitution, in dried form, ie before reconstitution, which corresponds to 40 ppm in milk substitute reconstituted (or rehydrated) (approximately 200 mg per animal per day or 0.4 to 5.7 mg per kg of live animal weight per day);

- After weaning, the dose is either 200 ppm of SUCRAM ® C-150 in the solid feed, or 100 ppm product SUCRAM ® C-150 in the drinking water, which corresponds to a dose 200 to 2000 mg per animal per day (one dose of 1 to 35 mg per kg of live animal weight per day), the dose given be in solid food or in drinking water.

Figures 1, 2 and 3, discussed below, include images of calf intestinal cells. These images are enlarged by a factor 400 and the scale bar shown at the bottom of each image corresponds to a length of 10 microns.

Figure 1 shows images of intestinal cells from un-weaned calf intestinal cells from Gl and G2 groups. Images marked "A" correspond to the calves of group Gl and images marked "B" correspond to the calves of group G2. Images 1A and IB show the presence of the T1R3 protein in intestinal cells of calves from Groups Gl and G2. Images 2A and 2B show the presence of the protein T1R2 in intestinal cells calves from groups Gl and G2. The Images 3A and 3B show the presence of the protein gustducin, noted G, in calf intestinal cells from groups Gl and G2. These images show that the intestinal cells of pre-ruminant calves (that is to say, un-weaned) given a diet with or without sweetener, express receptors T1R2 and T1R3 taste and protein gustducin at mRNA level.

Figure 2 shows images of intestinal cells of weaned calves from groups G3 and

G4. Images marked "C" correspond to the calves of G3 and images marked "D" correspond to the calves of group G4. Images 1C and ID show the presence of the T1R3 protein in intestinal cells of calves from groups G3 and G4. Images 2C and 2D show the presence of the protein T1R2 in intestinal cells calves groups from G3 and G4. The 3C and 3D pictures show the presence of the protein gustducin, noted G, in intestinal cells of weaned calves. The images show that the intestinal cells from ruminant calves (that is to say weaned), given a diet with or without sweetener express taste receptor T1R2 and T1R3, and protein gustducin, at mRNA level.

Figure 3 contains images of enteroendocrine cells of ruminant calves from groups G3 and G4. In this figure 3, each line includes three images 11-13, J1-J3 and K1-K3, from the same enteroendocrine cell. For each line, the third image (13, J3 or K3) is a superposition of the first two pictures of this line (11-12, J1-J2, K1-K2). The first two images II, 12 from the first line represent, respectively, in the same enteroendocrine cell, a gustducin protein and chromagranin A protein (ChA). The first two images of the second line, noted Jl, J2, respectively represent, in the same enteroendocrine cell, a T1R3 receptor and chromagranin A protein (ChA). The first two images Kl, K2 of the third line represent, respectively, in the same entero-endocrine cell, a T1R2 receptor and chromagranin A protein (ChA). The 13, J3 and K3 pictures show clearly, by superposition, that the T1R2 receptor, the T1R3 receptor and gustducin protein are co- located with a chromagranin A protein (ChA), which is a typical marker of enteroendocrine cells. This confirms the presence of T1R2 receptor T1R3 and Gustducin protein in enteroendocrine cells of weaned calves receiving a power supply with or without sweetener.

Results similar to those observed for calves ruminants the images in Figure 3 were observed for pre-ruminant calves Groups Gl and G2.

The images of Figures 1-3 clearly show the presence in the intestine, post-rumen, of calves enteroendocrine cells comprising receptor T1R3 and T1R2 and gustducin.

However, such enteroendocrine cells have a key role of specialized transducers of lumen intestinal content, as shown in Figure 4.

However, the enteroendocrine cells, receptors T1R2 and T1R3 and Gustducin protein, present in the lower intestine or post rumen from pre-ruminant or ruminant calf, constitute the elements which are needed to implement cellular mechanisms triggered by a sweetener product leading to the maintenance of intestinal mucosa quality, as previously described for the pig. In Figure 4 shows three pictures LI, L2, L3 of a calf enteroendocrine cell (ruminant or weaned) having ingested the sweetener product SUCRAM ® . It is therefore a calf from group G2 or group G4. The first two images LI, L2 represent a T1R2 receptor and GLP-2 hormone, collocated in the same enteroendocrine cell.

The image L3 corresponds to a superposition of LI and L2 images. In other words, the enteroendocrine cell shown on images L1-L3 is co-expressing the receptor T1R2 and GLP-2 hormone. This clearly shows that enteroendocrine cells of the calf are adapted to release the GLP-2 hormone.

Figure 5 shows two pictures Ml and M2 of vesicles isolated from the brush border membrane (BBMV - Brush Border-Membrane Vesicles). The images are enlarged by a factor of 200. The image M2 correspond to a ruminant calf or weaned not having ingested a sweetener product, ie. a calf group G3. The image Ml refers to a ruminant calf or weaned which have ingested the sweetener SUCRAM ® otherwise said a calf group G4. A visual comparison of the Ml and M2 pictures clearly shows the presence of the edges of the villi of the membrane "Brush-Border" a number of glucose transporters SGLT1 much higher for the calf that had ingested the sweetener SUCRAM ® than for the calf that had not ingested any sweetener.

The graph in Figure 6 shows the amount of D-glucose calves absorbed by the four groups G1-G4 in the form of a histogram. Columns gl, g2, g3 and g4 represent the amounts of D-glucose absorbed by the intestinal mucosa (simulated by the membrane "Brush-Border") calves of groups Gl, G2, G3 and G4 in picomoles (Pmol) per second per milligram (mg) of protein.

With reference to Figure 6, it is assumed that the absorption by the "Brush- Border" mucosa simulates the potential absorption of glucose by the intestinal mucosa.

It is observed in Figure 6 that:

- The amount of D-glucose absorbed by the un-weaned calves from group G2 (with SUCRAM ® ) is much higher than for un-weaned calves from group Gl (without SUCRAM ® ). The amount of D-glucose absorbed by calves in G2 group is almost twice greater than that of the calves from group Gl; - The amount of D-glucose absorbed by the weaned calves from group G4 (with SUCRAM ® ) is much higher than that absorbed by weaned calves from group G3 (without SUCRAM ® ), which is almost zero.

These results indicate that the ability of glucose uptake by intestinal mucosa of weaned calves is increased by the presence of SUCRAM ® product in the food. Provided that glucose is available for absorption after hydrolysis by pancreatic amylase starch un- degraded in the rumen, then this ability will be put to contribution and absorption will increase.

Images Ml and M2 and graph in Figure 6 show that ingestion of a sweetening product such as SUCRAM ® by calves before or after weaning has the effect of increasing the production of carriers SGLTl glucose level of the intestinal mucosa and therefore to increase the capacity of calves gut to absorb glucose. The invention thus relates to the use of a food additive including a sweetener in food or drink for a calf to improve its intestinal mucosa quality.

In the foregoing description, the sweetener SUCRAM ® C-150 is added to food or drink of the calf a dose 400 ppm SUCRAM ® C-150 in the drink for pre-ruminant calves and 200 ppm in feed for ruminant calves.

The same effects on intestinal mucosa quality are obtained with the following uses:

a) usage in which the additive is administered to an un-weaned pre-ruminant animal in an amount lower or equal to 400 sweetener grams per ton of milk substitute in the dried form (corresponding to a dose lower or equal to 40 g sweetener per ton of reconstituted milk replacer);

b) usage in which the additive is administered to a weaned ruminant animal in an amount lower or equal to 200 grams of sweetener per ton of feed material in the form of dry or in an amount lower or equal to 100 grams sweetener/ ton of drinking water (which corresponds to a dose from 200 to 2000 mg per animal per day or a dose from 1 to 34 mg per kg of animal live weight per day);

c) usage in which the additive is administered to the weaned animal in an amount lower or equal to 150 grams Sweetener per ton of feed as a dry material, and/or at a dose less than or equal to 75 grams of sweetener per ton of drinking water (which corresponds to a dose from 150 to 1500 mg per animal per day, and/or a dose from 1 to 25 mg per kg body weight animal per day);

d) usage in which the additive is administered to the weaned animal in an amount lower or equal to 100 grams sweetener per ton of feed as a dry material, and/or a dose lower or equal to 50 grams of sweetener per ton of drinking water (which corresponds to a dose from 100 to 1000 mg per pet, per day, a dose from 1-17 mg per kg body weight animal per day).

In addition, it was observed that the use of the additive a) to d) induced another effect such as the improvement of the growth of the animal. The invention disclosed also a use of an additive comprising a sweetener in food or drink of a ruminant animal to improve growth of the animal.

When the sweetener dose is lower or equal to 150 g per ton of food as dry matter (75 grams sweetener per ton of drinking water), it is not sufficient to give the food or drink a sweet taste. In this case, it does not make the food (or drink) more attractive in terms of taste for calves. However, this dose remains effective to trigger a physiological response inducing an improvement of intestinal mucosa quality. Thus the sweetener can be used at low dosages in food, not to give food a more attractive flavor, but to improve the architecture of the low intestine. This is beneficial at the intestinal level and induces some beneficial effects on animal overall performance, group homogeneity and resistance to diseases because of the major role of the intestine mucosa in the immune response.

It should be emphasized that the calf is a ruminant polygastric animal. His digestive system includes

- an upper part comprising a plurality of pockets as the rumen, reticulum, omasum and abomasum, and

- a lower part including the small intestine and the large intestine.

The rumen is the largest pocket. It acts as a fermenter. Food ingested by the calf undergo fermentation in the rumen. The majority of carbohydrates, also known as carbone hydrates, coming from ingested foods are fermented. This ruminal fermentation produces volatile fatty acids, which are absorbed by the blood at the level of the rumen wall essentially. These volatile fatty acids are the main energy source of the ruminant.

The ruminant gastric system differs considerably from the one of a monogastric animal which draws its energy mainly from carbohydrates and lipids absorbed from the intestine. We particularly emphasize that the vast majority, if not all, carbohydrates are fermented in the rumen. Very few carbohydrates are likely to be absorbed in the intestine. This result in a detection system to ensure the residual absorption of carbohydrates in the intestine in ruminants that appears to be neither useful nor cost- effective in terms of energy.

However, unexpectedly, it was found that the use of a sweetener product such as SUCRAM ® in food or drink of a ruminant produces a reinforcing effect on intestinal mucosa quality.

The present invention is applicable to ruminants other than cattle.