RU2651835C1 - Method for increasing productivity and resistance to bacterial and viral infections in agricultural animals, birds, fish, receiving a biologically active additive to food - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention relates to biotechnology, namely to a method of using a culture of Micrococcus Lysodecticus (Luteus), which aims to increase the productivity and resistance to bacterial and viral infections of agricultural animals, birds, fish. Method is characterized in that a drug based on bacterial culture lysate Micrococcus Lysodecticus (Luteus) is administered to the diet of animals.

EFFECT: increase in productivity and resistance to bacterial and viral infections of agricultural animals, birds, fish.

1 cl, 2 tbl, 2 ex

Description

The invention relates to biotechnology and can be used in veterinary medicine and agriculture to increase productivity and resistance to bacterial and viral infections in farm animals, birds, fish. To do this, against the background of standard nutrition and preventive measures, a micrococcus Lysodecticus (Luteus) culture lysate and its components are added to food.

FIELD OF THE INVENTION

This invention relates to biotechnology and relates to the use of bacterial lysates of the culture Micrococcus Lysodecticus (Luteus), as a food supplement for farm animals, birds, fish to increase their productivity and resistance to bacterial and viral infections, which can be used in veterinary medicine and agriculture.

By means of this invention, a new method for using bacterial lysates of the Micrococcus Lysodecticus (Luteus) culture in increasing the resistance of farm animals and birds to bacterial and viral infections, which leads to an increase in animal productivity and meat production quality, has been revealed.

State of the art

Providing the population with food remains one of the most pressing problems. The “State Program for the Development of Agriculture and the Regulation of Agricultural Products, Raw Materials and Food Markets for 2013-2020” is dedicated to solving this problem. Various approaches to improving the efficiency of the livestock complex are being discussed and developed, one of which is the use of biologically active substances based on biotechnological production from microbiological raw materials.

A known method of using bacteria Bacillus subtilis to obtain the probiotic preparation "Subtilis", as well as a component of a feed intended for the prevention and treatment of gastrointestinal diseases of animals, birds and fish [1, 2].

Known biological products based on lactic acid bacteria used in animal husbandry, for example, a preparation based on Lactobacillus acidophilus for the prevention of intestinal diseases of young animals of agricultural animals [3].

Known biological product based on lactic acid bacteria Streptococcus and Lactobacillus, inhibiting the development of conditionally pathogenic and putrefactive intestinal microflora of animals [4].

It is known to use a probiotic based on lactic streptococcus Strepococcus faecum for the prevention of elemental infection of birds with salmonella [5].

It is known to use a biopreparation-probiotic based on Streptococcus faecium with therapeutic and prophylactic properties for animals and birds [6].

The listed bacteria-based drugs provide prophylaxis and treatment of gastrointestinal diseases of animals, birds and fish. They normalize the activity of the gastrointestinal tract, increase the body's resistance.

However, bacteria-based preparations are not widely used. Firstly, the strains used have low productivity; secondly, they have a limited shelf life. In addition, the need to prepare feed immediately before use in unsuitable farm conditions reduces the spread of these methods.

Bacterial lysates obtained by mechanical, chemical, or biochemical destruction of microorganisms are deprived of all these shortcomings.

Bacterial lysates are widely used in medicine as medicines and dietary supplements, but their use in agriculture is not known.

The use of bacterial lysates for the prevention of diseases is similar in mechanism to the use of vaccines, the only difference is that in the case of a vaccine, weakened or killed strains of viruses or bacteria are used, and in the case of bacterial lysates, the results of lysis of certain bacterial strains are used. The goals of both vaccines and lysates are similar - to provoke a response of the immune system even before the moment when a massive attack begins with pathogenic microbes of the body.

When a bacterial lysate enters the human body, it is perceived by the immune system as foreign and provokes the production of antibodies, lysozyme, other humoral factors, as well as the activation of the cellular immunity component - macrophages and lymphocytes.

With weakened immunity, the response to the pathogen may be “delayed", which allows microorganisms to quickly colonize tissues and organs. And in this case, the immune system can no longer cope with the infection on its own, requiring drug support, which in turn causes collateral damage to other systems of the body. With the help of bacterial lysates, the immune system is already in good shape at the time of the attack of microorganisms and meets them “fully armed”.

Bacterial lysates are considered as immunostimulants of bacterial origin. By stimulating the immune cells of the gastrointestinal tract, they cause a specific and nonspecific response of the immune system and have an indirect effect on pathogens.

Non-pathogenic bacteria Micrococcus luteus - obligate aerobes, can be found on the skin, in the oral cavity, in the respiratory tract of humans and animals, sometimes on the conjunctiva and genitals. In nature, Micrococcus luteus are ubiquitous - in soil, air, fresh and salty water bodies, as well as in food products.

This type of bacteria is unique in its properties: the content of “animal starch” - glycogen, which acts as a reserve substance of the cell, in this type of bacteria reaches 48% of dry weight.

In addition, Micrococcus luteus can produce riboflavin (lactoflavin, vitamin B2) - one of the most important water-soluble vitamins, a coenzyme of many biochemical processes [7].

Riboflavin is a biologically active substance that plays an important role in maintaining health. The biological role of riboflavin is determined by the inclusion of its derivatives flavin mononucleotide (FMN) and flavin adenine dinucleotide (FAD) in a large number of the most important redox enzymes as coenzymes. Flavin enzymes are involved in the oxidation of fatty, succinic and other acids; inactivate and oxidize highly toxic aldehydes, break down in the body foreign D-isomers of amino acids formed as a result of bacterial activity; participate in the synthesis of coenzyme forms of vitamin B6 and folacin; glutathione and hemoglobin are maintained in a reduced state. Vitamin B2 is necessary for the formation of red blood cells, antibodies, for the regulation of growth and reproductive functions in the body. It is also necessary for the health of the skin, nails, hair growth and, in general, for the health of the whole body, including thyroid function. With a deficiency of riboflavin in animals, a decrease in body weight, inflammation of the oral mucosa and tongue, skin lesions, dermatitis, digestive disorders, a change in the cornea, increased sensitivity to light, conjunctivitis, blepharitis, growth retardation are observed.

The closest analogue of the claimed invention - the prototype - is a dietary supplement containing, as an immunobiological preparation, a peripheral blood leukocyte lysate and / or animal stem and / or progenitor cells [8]. This biologically active agent with an immunomodulating property is made on the basis of a cell lysate, as well as a culture medium enriched with cellular metabolites, cytokines, growth factors, and other cultured cells secreted by substances. However, the disadvantage of this tool is that it is based on the use of animal cells that do not have antigenic determinants characteristic of bacteria, which narrows the spectrum of biological activity of the drug. The absence of bacterial cell wall fragments interacting with the immune system of the animal organism and triggering innate immunity is the main disadvantage of the drug based on leukocyte lysate.

In addition to these shortcomings, a food biologically active supplement containing, as an immunobiological preparation, a peripheral blood leukocyte lysate and / or animal stem and / or progenitor cell lysate is expensive, and therefore its frequency of use is very low.

Thus, there is a need to develop more effective, affordable and economically feasible means and methods to increase the productivity and resistance of farm animals, birds, fish to bacterial and viral infections

The use of the bacterial culture lysate Micrococcus Lysodecticus (Luteus) was not previously proposed to increase the productivity and resistance of farm animals, birds, and fish to bacterial and viral pathogens.

The technical task of the proposed invention is the provision of a new biologically active food supplement to increase the productivity and resistance of farm animals, birds, fish to bacterial and viral pathogens.

Disclosure of invention

The claimed technical problem is solved by increasing the productivity and resistance of farm animals, birds, fish to bacterial and viral pathogens, involving the consumption of bacterial culture lactate Micrococcus Lysodecticus (Luteus) and its components as a biologically active food supplement by farm animals, birds, and fish.

The composition of the claimed invention includes a lysate of the bacterial culture of Micrococcus Lysodecticus (Luteus) and its components. The main objective of the invention is the creation of funds for veterinary medicine and agriculture, increasing the productivity and resistance of farm animals, birds, fish based on a complex of biologically active compounds from the lysate of the bacterial culture Micrococcus Lysodecticus (Luteus).

The technical result of the claimed invention is to obtain funds based on a complex of biologically active compounds from a lysate of the bacterial culture Micrococcus Lysodecticus (Luteus), which has effective induction of nonspecific resistance of the organism, improvement of the clinical condition, reduction of morbidity and increase in weight gain of farm animals, poultry and fish.

Lysates of the bacterial culture of Micrococcus Lysodecticus (Luteus) are obtained by mechanical, chemical or biochemical (enzymatic) destruction of microorganisms.

One of the possible ways of lysing the bacterial culture of Micrococcus Lysodecticus (Luteus) is using the enzyme lysozyme. In the event of destruction of the cell walls of Micrococcus Lysodecticus (Luteus) microorganisms by lysozyme, disaccharide-containing peptides are formed that are ligands of innate immunity receptors and activate the animal’s immune system. Normally, similar compounds are regularly formed in the gastrointestinal tract during the breakdown of commensal microflora and are natural regulators of immunity. In a weakened body, especially after taking antibiotics, dysbiotic conditions deprive the body of the opportunity to receive a stimulus that triggers innate immunity. As a result, either secondary infection joins, or the disease is chronic. All these phenomena adversely affect the efficiency of livestock farms.

The bacterial culture lysate of Micrococcus Lysodecticus (Luteus) contains protein, glycogen, biologically active substances (for example, vitamin B2) and immunomodulatory substances in the form of fragments of bacterial cell walls. The soluble fraction of the bacterial culture lysate obtained by centrifugation and sediment removal contains components that increase the resistance of animals to infections. All of these compounds added to animal / bird, fish food provide an increase in their resistance to bacterial and viral infections, which leads to an increase in the productivity and quality of meat products.

The implementation of the invention

In order to implement the invention, in vitro and in vivo studies were conducted aimed at studying the effectiveness of the drug.

The invention is illustrated by examples.

Example 1

The study was conducted in the conditions of a Moscow farm. The object of research was the broiler chickens cross "Hubbard". The experiment involved 20 newborn chickens. The content is cellular, 10 goals per cage. Broiler chickens were fed with full feed for broiler chickens of the appropriate age. A preparation based on the bacterial lysate of the Micrococcus Lysodecticus (Luteus) culture was introduced into the diet with water. The experimental design is shown in Table 1.

Control weighing of chickens was carried out at 30 days of age and at the end of the experiment at 45 days of age, the safety of chickens was taken into account. The safety of chickens in both groups was 100%. The dynamics of live weight of the bird are presented in table 2.

* - Р≤0.05 - significance level of the reliability criterion between the control and experimental groups.

From the data given in the table, it can be seen that at 30 days of age there is a significant difference in live weight in the chickens of the experimental and control groups. At 45 days of age, the difference between the groups was 21% in favor of the experimental group. The average daily gain in the experimental group by the end of the experiment was 11.1 grams higher than the control and amounted to 62.5 grams.

Example 2

To determine the effect of the claimed biologically active additives on factors of general nonspecific resistance, we assessed the level of cytokines IL-1β, IL-6, IFN-γ, and TNF-α in mononuclear blood cells of rabbits who consumed 4 ml of soluble water for 10 days with water Micrococcus Lysodecticus (Luteus) culture lysate fraction. Two rabbits were sampled from the ear vein before the experiment and after 10 days of lysate use. Immunostimulatory activity was judged by a change in the mRNA level of the studied cytokines by RT PCR. As a result of the experiment, it was established reliably (p <0.05) that after 10 days, the level of IL-1β increased 1.8 times, the level of IL-6 increased 2.2 times, the level of IFN-γ increased 2.4 times and the level of TNF -α increased 1.7 times.

Thus, the soluble fraction of the lysate of the Micrococcus Lysodecticus (Luteus) culture enhances the resistance of animals through activation of the nonspecific defense of innate immunity.

The examples given in the application only illustrate, but do not exhaust the entire scope of the claims.

Information sources

1. Patent RU 2184774. The bacterial strain Bacillus subtilis VKM B-2250D used to obtain the probiotic preparation Subtilis, intended for the prevention and treatment of gastrointestinal diseases of animals, birds and fish.

2. Patent RU 2284703. The method of feeding piglets.

3. L.F. Abyzova, M.S. Polonskaya, V.V. Leonovich. Proceedings of VNIIBaktpreparat, issue. 1. M., 1973, with. 97-105.

4. Manual on the use of galliferm in veterinary medicine. M., 1990

5. Patent RU 2086647. Nutrient medium for growing strain of Streptococcus faecium STF - 1/56.

6. Patent RU 2217493. The probiotic biological product, the method of its production and the Streptococcus faecium TE-17 strain for the production of a probiotic biological product for animals and birds.

7. Sims G.K., Sommers L.E., Konopka A. (1986). "Degradation of Pyridine by Micrococcus luteus Isolated from Soil." Appl Environ Microbiol. 51 (5): 963-968. PMC 238995 Freely accessible. PMID 16347070.

8. Patent RU 2495565. A method of stimulating growth and increasing the resistance of farm animals.

Claims (1)

A method of increasing productivity and resistance to bacterial and viral infections in farm animals, birds, fish, characterized in that a preparation based on the bacterial lysate of the Micrococcus Lysodecticus (Luteus) culture is introduced into the diet.