UA19957U - Method to lower toxic effect of biocides on intracellular metabolism of symbiont microorganisms of gastrointestinal tract of animals - Google Patents

Abstract

A method to lower the toxic effect of feed biocides on processes of the intracellular metabolism of symbiont microorganisms of the gastrointestinal tract of animals includes using natural sorbents, mixing thereof with feed means, polluted with toxicants, and feeding the mixture obtained to animals. Klinoptilolytes or montimorillonites are used as natural sorbents in the form of flour of 0.05-1.00 mm grinding fineness, which is mixed with feeds possibly containing toxic substances in amount of 2-5% and is fed to animals in the course of the whole period of the use of the polluted feeds.

Description

Description of the invention

A useful model belongs to agriculture, in particular to agricultural biotechnology and 2 veterinary toxicology, namely to methods of reducing the toxic effect of feed biocides on the intracellular metabolism of symbiont microorganisms that inhabit the digestive tract and act as an additional and very important organ of the digestive system, which is the first takes a direct and active part in neutralizing the harmful effects of various toxicants and in the assimilation of feed nutrients by the macroorganism of the host animal. 70 The claimed method can be used to increase the production of high-quality livestock products in farms with different forms of ownership that use feed that may contain harmful substances and compounds of various biocides (toxicants) and, above all, such are the most common in the world and are very dangerous for components of pesticides, such as pentachlorophenol (PCF), as well as end products of decomposition of easily degradable nitrogen-containing compounds (ammonia, etc.), hydrogen sulfide, nitrites, nitrates, ions of 12 heavy metals, etc.

At present, there are various methods of reducing the toxic effect of biocides on the animal body, on its separate links of metabolism, health, growth and development, and quantitative and qualitative indicators of productivity | Khmelnytskyi

G.O., Khomenko V.S., Kanyuka O.I, Veterinary pharmacology. Kharkiv: "Paried" LTD, 1995 - 480 p.; Gubsky Yu.I,.,

Litvynova N.V., Zayka A.P., Effect of acute chlorophos intoxication on calcium transport in liver microsomes // Pharmacology and Toxicology. - 1992. - Vip. 27. - P.30-32; Gubsky Yu.I. Correction of chemical damage to the liver. - Kyiv: "Zdorovye", 1989. - 168 p.; Litvynova N.V., Kurska N.M., Gubskyi Y.I. Biochemical mechanisms of damage to the intracellular membranes of the liver and myocardium under conditions of chlorophos poisoning // MI

Ukraine biochem. Congress: Theses add. - Kyiv, 1992. - P.87.; I.V. Shugaley, S.N. Lviv, V.N. Baev, I.V. Tselinsky

Protective action of sodium bicarbonate in intoxication with nitrate ion // Ukr. biochem. journal 1994. T.6b, Mo1. - pp. 109-112; Burbello A.T. Production of barbituric acid! - a new class of compounds for the prevention and treatment of poisoning with nitro compounds: Autoref. thesis Dr. Med. of science - St. Petersburg, 1991. - 44 p.; Firsov

T.P... Sokol V.Y., Bakulyna V.M., Stasevych N.N. Interaction of sodium bicarbonate with hydrogen peroxide and some properties of the compound Ma 2СО3.1.5Н50 // Izv. Academy of Sciences of the USSR. Ser. chemical -1968. - Vp. 9. - S. 1941-1944;

I.V. Shugaley, I.V. Tselinsky, T.V. Malinina About the toxic action of sodium nitrite // Hygiene and sanitation. - 1941, - Vp, 4, - P.49-53, etc.). yu

Known methods include the results of studying the causes of metabolic disorders in the body under the action of many toxic substances and the search for such means and classes of compounds that would provide preventive and therapeutic functions. Gee)

They provide preventive and curative capacity in many cases of the production process

From the livestock industry. -

Their disadvantage is that the proposed methods can reduce the negative impact of toxicants in general on the animal body only after the detection of symptoms of acute poisoning with subsequent medical treatment and the use of high-cost and scarce medicinal substances - antitoxic action and with the "obligatory exclusion from the diet of those feed products , which contain dangerous biocides. 70 There are also known therapeutic methods of poisoning and means of alleviating toxicological processes in the body (Pavlov and P.A. Form! ovshuska, ways of administration and single treatment doses of medicinal substances 1" for agricultural animals and poultry. Leningrad, 1982; Chervyakov D.K., Evdokymova P.D., Vyshner A.S.

Medicinal products in veterinary medicine. - M: Colossus. 1977; V.I. Skorohid, K.P. Balatskyi The main antidotes used in veterinary practice (Methodological instructions). Lviv, 1989; Kanyuka O.1I., Skorohid -z 75 V.Y., Gufriy d.F. Veterinary formulation and pharmacology (Practicum) Kyiv: Ed. USGA, 1994. - 240 p.; Kanyuka 0.1., Skorohid V.Y.I., Gufriy D.F. Clinical veterinary pharmacology. Kyiv: Ed. USGA. 1993. - 344 p., etc.|. (se) They include an even wider set of therapeutic agents and provide a higher preventive and curative effect. and The disadvantages of these methods are that they require the direct intervention of doctors and 50 highly specialized specialists who are able to find out the final causes of toxicology in long-term economically unprofitable studies, establish the diagnosis of diseases, the degree of damage to the general organism, search for adequate antitoxicants, develop effective course of treatment, etc.

The closest in essence to the claimed method is (Method of feeding ruminants" Author's certificate SSSR Mo 1717073 - Grabovensky I.I., Kalachnyuk G.I., Brashchaiko A.A., Kryshtofory I.I., Savka 53 og) c The known method includes the use of natural sorbents (in particular, zeolites), mixing them with fodder containing components with a toxic effect and feeding the mixture to animals.

The disadvantage of the method is that it provides effectiveness only when the animals are loaded with sources of ammonium nitrogen, which is quickly formed and accumulates in the rumen of ruminants and does not ensure a reduction in the toxic effect of other even more powerful biocides from the environment, which negatively affect the intracellular metabolism of microbes. symbionts of the digestive tract of animals.

The method proposed by us eliminates the shortcomings of the prototype and provides an effective reduction of the toxic effect of many biocides on the intracellular metabolism of a complex of symbiont microorganisms, that is, on the metabolic processes in the cells of a mixed microbial population - an additional, peculiar and very important organ of the digestive system of animals when consuming feed containing harmful substances and toxic compounds of various exogenous origin.

The basis of a useful model is the task of developing an objective method of reducing the toxic effect of biocides on the intracellular metabolism of a mixed population of microorganisms-symbionts of the digestive tract of the host animal, which is simple and accessible to use, and economically beneficial for the farms in which it is used.

The technical result is achieved by using clinoptilolite or montmorillonite as a natural sorbent in the form of flour with a fineness of 0.05-1.0 mm, which is mixed with fodder, presumably containing toxic compounds, and fed to animals during the entire period of use of contaminated 7/0 nutrient sources.

With the help of sorption, ion exchange and other positive properties of natural sorbents, effective protection and restoration of the intracellular metabolism of symbiont microorganisms is carried out, which inhabit the digestive tract of animals and, acting as a separate important organ, play a decisive role in the digestion of feed and in the assimilation of nutrients by the animal's body - the owner

Protection and restoration of the intracellular metabolism of microorganisms-symbionts of the digestive tract with the help of natural sorbents allows to strengthen the course of digestive processes and the protective function of the microbial complex, thereby improving the health of animals and increasing the quality indicators of livestock products.

The constant inclusion of clinoptilolites, montmorillonites and other natural sorbents in the composition of diets for 2o all age groups of various species of animals, including herbivores, ruminants, poultry, fish, etc., in the digestive tract of which populations of symbiont microorganisms always function, ensures partial detoxification and completeness of physiological digestion of various feed components and their assimilation by the macroorganism of the host animal. At the same time, the degree of negative impact of biocides on the mentioned populations of microorganisms probably decreases due to the binding of a significant amount of toxicants by sorbents. This phenomenon makes it possible to more effectively implement the general work and activity of microorganisms in digestive processes, increase the assimilation of feed nutrients and transform them into higher-quality food products for humans. but

The high probability of reducing the toxic effect of biocides when using the above-mentioned natural sorbents can be confirmed by the results of determining many indicators that indicate an increase in the growth and development of mixed microbial populations, individual groups and varieties, and leading individual pure strains of M zo Microorganisms inhabiting the gastrointestinal tract ; activation of their key and other important enzymatic reactions, increase in formation of necessary intermediate and final products of fermentation of nutrient substrates, etc. at

During the patent information search, the authors and the applicant discovered a technical solution | The Ge method! feeding ruminants. AS USSR Mo1717073), which contains a number of essential features common to the claimed method - the use of natural sorbents, mixing them with fodder contaminated with toxicants, and feeding the resulting mixtures to animals. However, the presence of the specified features common to the prototype is insufficient to obtain the technical result provided by the claimed method. No technical solutions, which by the totality of features would completely coincide with the declared ones, were found.

This allows us to draw a conclusion about the conformity of the declared technical solution with the "novelty" criterion of the invention (utility model). "

No technical solutions have been found in the patent and scientific and technical literature, which would have described specific information about the features that distinguish the claimed method from the prototype and ensure the achievement of a technical result: as a natural sorbent, clinoptilolites or montmorillonites are used in the form of ground flour)" 0.05-1.00 mm, which in the amount of 2-596 is mixed with fodder, presumably containing toxic compounds, and fed to animals during the entire period of use of contaminated fodder.

Therefore, the declared technical solution does not clearly follow from the state of the art, which allows us to conclude - about its compliance with the criterion of the invention (utility model) - "inventive level".

A useful model belongs to agriculture, in particular to the field of agricultural biotechnology and veterinary toxicology, namely: to methods of reducing the toxic effect of biocides on intracellular

Ge) the metabolism of microorganisms-symbionts that inhabit the digestive tract and in the general complex act as an additional and very important organ of the digestive system, which is the first to take a direct and active part in the neutralization of the harmful effects of various toxicants and in the assimilation of feed nutrients by the body

And host animals. The claimed method can be used in farms with different forms of ownership, where they breed, grow, feed, care for, keep animals and produce livestock products, using feed, which may contain harmful substances and compounds of various biocides (toxicants) and, above all, such the most widespread in the world and very dangerous components of pesticides, such as pentachlorophenol, as well as the end products of the decomposition of easily degradable nitrogen-containing compounds (ammonia, etc.), with hydrogen sulfide, nitrites, nitrates, ions of heavy metals, etc., and therefore the claimed method meets the criteria of the invention ( utility model) "industrial suitability".

Therefore, the declared technical solution is new, has an inventive level, is industrially suitable, that is, it meets all the conditions for the patentability of an invention in accordance with (Article 7 of Chapter II of the "Law of Ukraine on the Protection of Rights to Inventions and Utility Models" Mo. 1771-P, 2000. .

In the economy, which has fodder allegedly contaminated with toxicants (compounds of biocides), they are treated with the natural sorbent clinoptilolite (or montmorillonite) in the form of flour with a grain size of 0.05-1.00 mm. Clinoptilolite (or montmorillonite) flour in the amount of 2-596 o is mixed with contaminated 65 Forage and the resulting mixture is fed to animals during the entire period of use of contaminated forage.

The effectiveness of the claimed method and its advantages over the prototype are confirmed by examples of specific execution.

Example 1

11-month-old analog bulls with an average live weight of 285-295 kg were selected at the Halychyna Private Agricultural Company of the Kamianka-Busky district of the Lviv region.

The research was conducted on 9 bulls - analogues of the final stage of fattening. They were divided into three equal groups (with 3 animals in each).

The bulls of the 1st (control) group were fed farm fodder according to the ration calculated to obtain heart daily gains in the range of 800-900g. The animals of the 2nd and 3rd experimental groups, which were kept under the same conditions and on the same diet as bulls of the 1st (control) group, were artificially exposed to toxicants by oral individual administration together with drinking water from a bucket 1mg of pentachlorophenol (PCF) per day per head during the experimental period of 105 days. The animals of the 3rd experimental group were additionally fed with natural sorbent clinoptilolite in the form of clinoptilolite flour ground tuna 0.05-1.00mm in a dose of 2-595 to the total amount of feed, which was 200-300g per head per day. The 7/5 level of productivity of the animals of the experimental groups was evaluated by weighing them at the beginning and at the end of the experiment, followed by the calculation of average daily gains for 105 days of separate consumption of PCF and in combination with clinoptilolite. The obtained results are shown in Table 1. th introduction of biocide (PCF) separately and in combination with a natural sorbent (Cl) (M.nt; n-3)

Experimental groups of animals Livestock Total growth, kg| Average daily increase with "p"e0.05 - compared to the 1st (control) group;

The data in Table 1 show clear intergroup differences in average daily gains in experimental animals. In the bulls of the 2nd (experimental) group, which for 105 days received orally 1Omg of PCF daily, the average daily gains were 10965 lower than in the animals of the 1st (control) group. In case of long-term penetration of even small doses of biocide into the rumen, a negative effect on the vital activity of the main part of the microbial population of the gastrointestinal tract (GI) of a ruminant, which is concentrated here, is noted. Obviously, ruminal Me.

Зз5 The complex of symbiont microorganisms alone is unable to completely neutralize the toxic effect of a strong xenobiotic. Therefore, as a result of inhibition of enzymatic reactions and metabolic activity of the main varieties of this microbial population, the body of the host animal does not receive a significant amount of energy and nutrients, which negatively affects the final productive effect of feeding animals, that is, on their average daily gains. "

Under the given conditions of feeding steers of the 3rd (experimental) group, a probable increase in average daily gains is noted. They increase by 5995 and almost approach the level of control animals of the 1st group. Based on specific data regarding the features of the simulated nutrition of the compared groups of steers, when the biocide enters the rumen, a positive biological and productive effect is created due to the sorbing, ion-exchange and other useful properties of the natural sorbent - clinoptilolite, the amount of which in the diet was 200-300g/g/ day during the 105 days of the experiment. - So, the negative impact of even small doses of PCF on the microbial population of the digestive tract and, above all, on that part of it that is concentrated in the rumen - the first and largest organ of the gastrointestinal tract, which is distinguished by the most powerful volumes of vital activity of microorganisms-symbionts, is accompanied by a decrease in 1095

Ge) of average daily growth in fattening steers, and the addition of powder of natural sorbents, and in particular 5r Clinoptilolite in quantities of 200-300g/gal/day, make it possible to significantly reduce the harmful effect of the biocide on the microbial ecosystem, its metabolic activity, protective functions, etc., and on the processes of assimilation of nutrients "with the body of the host animal and thereby increase live weight gains by almost 5995, i.e. bring them closer to the level of control animals.

In order to confirm the above conclusion, special studies were also carried out in the conditions of ip mimo and ip dv Mo using samples of a mixed microbial population of a viable rumen to study the direct effect of biocides and natural sorbents on the vital activity of symbiont microbes. with Example 2

In order to determine the growth and development of symbiont microorganisms (the total complex and its bacterial fraction) and the state of their intracellular metabolic processes from donor bulls 2-3 hours after the morning feeding, the containing rumen was taken using a nasoesophageal probe and filtered through nylon material. The filtrate was mixed (1:2) with the Mesrotsdai buffer! and incubated at 3993 in a CO atmosphere for 12-24 hours.

In order to assess the toxic effect of the biocide (PCF) and identify the level of protective ability of natural sorbents, the following three variants of incubation studies were carried out in the conditions of ip miigo: bB 1st - control (K), where the growth medium with a mixed microbial population was without additives of PCF and natural sorbents;

27. the same growth medium as in K, but with the addition of a low dose of PCF (40 μM); 3 - the same growth medium with a microbial population as in the 19MU and 29MU variants, but with the addition

PCF (40μM) in combination with powder of natural sorbents (10Og/l).

After every 1-2 hours, samples were taken from the above variants of incubation media to determine the number of microbial cells (with the help of a spectrophotometer at a wavelength of bOOnm) and an increase in protein mass (at a wavelength of 28O0nm), as well as - the pH level and the formation of such final fermentation products as a total amount volatile fatty acids (VFA); ammonia nitrogen, lactate and the activity of cellulases and amylases according to generally accepted methods.

The obtained results are shown in Fig. 1-7 and in Table 2. 70 List of figures:

Fig.1. Growth dynamics of rumen symbiont microorganisms (A 600) (1 - control, K; 2 - K - 40μM PCF; 3-K to 40μM PCF - 10g/l natural sorbent - clinoptilolite).

Fig. 2. Dynamics of the total production of volatile fatty acids (VFA; mM) in cultures of a mixed scar population of symbiont microorganisms (1 - control, K; 2 - K - 40 μM PCF; Z - K - 40 µM PCF - 10 g/l natural sorbent 75 -clinoptilolite) . IN

Fig. 3. Dynamics of ammonia formation (M .MHz, mg/l) in cultures of a mixed scar population of symbiont microorganisms (1 - control, K; 2 - K - 40μM PCF; Z - K and - 40μM PCFya - 10g/l natural sorbent - clinoptilolite) .

Fig. 4. Dynamics of lactate production (mM) in cultures of a mixed scar population of symbiont microorganisms (1 - control, K; 2 - K - 40μM PCF; 3 -K - 40μM PCF-- 10g/l natural sorbent - clinoptilolite).

Fig. 5. Dynamics of the pH level in cultures of a mixed scar population of symbiont microorganisms (1 - control, K; 2 - K - 40μM PCF; Z - K - 40μM PCF-- 10-ng/l natural sorbent - clinoptilolite).

Fig. b6. Cellulase activity (in 95 cleaved cellulose for 24 hours of incubation) in cultures of a mixed scar population of symbiont microorganisms (1 - control, K; 2 - K - 40μM PCF; Z - K -i- 40μM PCFya - 10g/l natural sorbent - clinoptilolite) . what

Fig. 7. Amylase activity (μg of cleaved starch per 1 mg of protein) in cultures of a mixed scar population of symbiont microorganisms (1 - control, K; 2 - K - 40μM PCF; Z - K -i- 40μM PCFya - 10g/l natural sorbent - clinoptilolite ).

The given data show that in the process of microbial cultivation, curve 1, which reflects the metabolism of the 1st and - (control) variant, is at the highest level in terms of the growth dynamics of symbiont microorganisms (Fig. 1), the total production of volatile fatty acids (Fig. 2), ammonia formation (Fig. 3) and lactate production (Fig. 43. This is consistent with the lowest pH levels (Fig. 5), as well as with the highest activities of specific (22) cellulase enzymes (Fig. 6, column 1) and amylase (Fig. 7, column 1), compared to the 2nd and 3rd experimental variants.

The picture becomes completely different when adding 40 μM of PCF biocide to the incubation medium (2nd option). Curves 2 (Figs. 1-5) and columns 2 (Figs. b and 7) reflect this picture. They indicate a probable decrease in metabolic processes under the inhibitory effect of the biocide. Here, the lowest level is occupied by the dynamics of the growth of microorganisms-symbionts of the rumen (Fig. 1), the total production of volatile fatty acids (Fig. 2), the formation of ammonia (Fig. 3), and the production of lactate (Fig. 4), which is consistent with reaching the highest pH levels ( Fig. 5), as well as "confirmed by the lowest activities of specific cellulase enzymes (Fig. b6, column 2) and amylase (Fig. 7, column 2). The given indicators show that the toxicant even in low doses (up to 40 μM) significantly inhibits the vital activity of the mixed microbial population, especially in the initial stages of the Iad phase of their growth and development. y" This is clearly shown in all figures (1-7).

The introduction into the growth medium at the same time of PCF and powder of natural clinoptilolite sorbents probably increases the intensity of microbial metabolism, as indicated by the location of the curve line C in Fig. 1-5 and columns C in Fig. b and 7. They, in general, approach the levels of the control option and testify to the reliability of the neutralization of the toxic effect of the biocide by sorbents. This is confirmed by data on the growth kinetics of symbiotic microorganisms (Fig. 1), the total production of LFA | (Fig. 2), the formation of ammonia (Fig. 3) and the production of lactate (Fig. 4), which respectively correlate with the change in pH levels (Fig. .5), as well as with increased activity of se) cellulase (Fig. b) and amylase (Fig. 7). p. 50 The given results regarding the effect of the biocide and sorbent on the functional properties of the mixed microbial population of the rumen give grounds for drawing the following conclusions: "h 1. The introduction of even low doses of the biocide pentachlorophenol (40 μM) into the growth medium probably reduces its metabolic abilities; 2. The addition of natural sorbents ( 1Og/l) in a growth medium with a mixed population of symbiont microorganisms reliably reduces the toxic effect of the biocide.

Microbial cultures were grown until the middle of the exponential (Iad) phase. Cells were harvested by differential centrifugation. The bacterial fraction was obtained at 500O0rpm, ZOhv, 4 C. It was washed twice with 20 mM 60 K-Ma-phosphate buffer (pH 7.5), the concentration was adjusted to 1 mg/ml and frozen by adding sand to the suspension (one-third volume emu). Cells were destroyed in the cold (42C) using a planetary vibrator K-23 (FRN) at 1000rpm for 2h and an ultrasonic dispersant UZDN-1 (22kHz for 15min with an interval of 30sec at 02C). At the same temperature, they were centrifuged (18,000 rpm, ZOhv) and the cytosolic-microsomal fraction of bacterial cells was obtained, in which the activity of enzymes was determined according to generally accepted methods: for lactate dehydrogenase (LDH, KF 1.1.1.27), formate dehydrogenase (FDH; KF 1.2.1.2) , malate dehydrogenase (MDH; KF

1.1.1.37), isocitrate dehydrogenase (CDH, KF 1.1.1.42), malic enzyme (KF 1.1.1.40), aconitase (KF 4.2.1.3) and fumarase (KF 4.2.1.2). The research results presented in Table 2 confirm the conclusions made above that even small doses of PCF biocide (40 μM) likely reduce the activity of key enzymes of the intracellular metabolism of the bacterial complex of the scar microbial ecosystem, and the addition of natural sorbents (10 g/l) to the growth medium with bacteria and PCF probably reduces the inhibitory effect of the biocide on the activity of all the studied enzymes

Table 2 70 Inhibitory effect of low doses of the biocide pentachlorophenol (40 μm) on the activity of intracellular enzymes of a mixed population of scar bacteria and the protective capacity of natural sorbents (clinoptilolite 10 g/l) (Met; p-5)

Control (K)) Ki40 µm PCF/|K40 µm PCF 10 g/l clinoptilolite

LAH, NM NAD.N/min-mg 186-157 62 tv /5 MDG.NM NAD.N/min-mMg 106-141 715582" 92244 vya

ICDH, NM NADP.N/min.-mg 96.1-9.8 69.1-5.87 82.64 3

FDG, NM NAD.N/min.mg 84,А8,7 38,144,6" BOB

Malic enzyme, nM NADF.N/minV.MGh A1.6-3.9 22.2-2.67 29.02, 45

Aconitase nM cis-aconitate/min-mg 27.3--3.4 11.7-41.27 17.22.38 -

Fumarase, nM fumarate/min.-mg 218-177 109-427 137.7-7.05

Note: P«0.057 compared to the 1M variant, 7 compared to the 2M variant

Thus, analyzing the results obtained under the conditions of ip mio (Examples 2 and 3), it is possible to generalize that even small doses of biocide (40 μM pentachlorophenol) according to all the main indicators in the dynamics probably reduce the intensity of metabolism of a mixed scar population of symbiont microorganisms, and in particular - significantly reduce their growth and development, the formation of LFA, ammonia nitrogen and lactate, as well as cellulolytic and amylolytic activity at a probably higher pH level. These violations are significantly (by 30-5095; Р "0.05-0.001) leveled under the conditions of adding natural sorbents with the properties of clinoptilolite to the growth medium with microbes.

At the indicated dose of the biocide, the activity of many key enzymes of the intracellular metabolism of the scar bacterial complex probably decreases (P«e0.05-0.001) and is almost restored to normal when natural sorbents are introduced into the growth medium with bacteria.

Therefore, to reduce the toxic effect of biocides, and primarily pentachlorophenol, on intracellular metabolism b"

With 5 microorganisms-symbionts of the digestive tract of animals, it is advisable to use natural sorbents, and in particular, clinoptilolites and montmorillonites in the composition of rations for animals.

Claims (1)

The formula of the invention «| and | | | - c The method of reducing the toxic effect of feed biocides on the processes of intracellular metabolism of microorganisms-symbionts of the digestive tract of animals, which includes the use of natural sorbents, mixing them with feed products contaminated with toxicants, and feeding the resulting mixture to animals, which is distinguished by the fact that as natural sorbents use clinoptilolites or montmorillonites in the form of flour with a fineness of 0.05-1.00 mm, which is mixed in the amount of 2-5 96 with fodder, presumably containing toxic compounds, and fed to animals during the entire period of use of contaminated fodder. se) se) 1 what 60 b5