[Physiological and biochemical in vivo study of polyphenols and 20-hydroxyecdisone from quinoa grains effect on resistance to physical exercise in Wistar rats].

Increasing the ability of the human body to adapt to physical stress is relevant from the standpoint of using foods for special uses containing functional food ingredients (FFI) with effectiveness proven in vivo. The purpose of this study was to evaluate the effect of FFI from Chenopodium quinoa grains with a high content of polyphenols and phytoecdysteroids on the physical endurance of male Wistar rats. Material and methods. The experiment was carried out during 36 days using 50 weaned male Wistar rats. The animals were randomly divided into 3 groups (n=12): Control, Run and Run-FFI. Rats of the Control and Run groups received a standard semisynthetic diet during the experiment. Rats of the Run-FFI group received a semi-synthetic diet with the addition of FFI in an amount of 0.055±0.003%, containing phytoecdysteroids (50.4±0.6 mg/g) and polyphenols (212.0±2.0 mg/g). During the experiment, the rats were assessed for their neuromotor function (grip strength of front paws), memory, and behavioral reactions in the "Elevated Plus Maze" (EPM), "Conditioned Passive Avoidance Reflex" (CPAR) and "Open Field" (OF) tests. Once a week, animals from the Run and Run-FFI groups were subjected to moderate physical load on a "Treadmill". On the 36th day of the experiment, the animals of these groups were subjected to exhausting physical load. Immediately after running, the animals were placed in metabolic cages to collect daily urine. At the end of the experiment, the content of corticosterone, the activity of catalase, indicators of protein, lipid and mineral metabolism, indexes of the liver functional state and antioxidant defense system parameters were analyzed in the blood serum; the level of prostaglandin E2 and dopamine were determined in daily urine. Results. Physiological tests (CRAR, OF) showed that weekly exercise increased anxiety in laboratory animals. The FFI introduction into the diet led to normalization of the assessed parameters (EPM). As a result of 36-day consumption of FFI against the background of physical loads, a significant decrease by 22% in the main stress marker, corticosterone, was revealed in the blood of rats, as well as significant increase by 23% in the stress inhibitor - prostaglandin E2 urinary excretion, compared with animals of the Run group to the level not differed from the indicators of the control animals. There were no differences in endurance performance between the Run and Run-FFI groups on the results of the exhaustive exercise. Consumption of FFI prevented the formation of excess ammonia, significantly reducing the level of urea in the blood and normalizing its excretion to control levels in the urine, which was increased in the Run group by 19%. Conclusion. The results obtained demonstrated the adaptogenic properties of the developed FFI in response to stress caused by weekly moderate and acute exhaustive physical activity. The obtained data on the biological effect of the developed FPI on the adaptive potential of laboratory animals will serve as an experimental basis for its inclusion in the composition of specialized foods.

[Methods for the identification and quantification of microplastics in foods (a review)].

The adverse effects of microplastics (MP) found in food on the health have recently been recognized as a new source of human health risks. In order to evaluate and minimize them, it is necessary to evaluate the exposure using sensitive and specific methods. The aim of the research was the substantiation of methodological approaches to the identification and quantification of microplastics in food based on the analysis of literature data. Material and methods. Literature selection was carried out using the PubMed international reference database for the period from 2014 to 2023 using keywords corresponding to the context of the research theme. A total of 159 sources were selected, of which 94 original and review papers were included in the review according to the criteria of their relevance to the problem under consideration, scientific reliability and completeness. Results. At present, various approaches have been developed that make it possible to isolate MPs from complex bioorganic matrices (such as, for example, seafood), classify them by chemical composition, and quantify their content through the mass or number of particles. Among the most developed physic-chemical methods for the analysis of MPs are Fourier transform IR spectrometry and Raman microspectrometry, pyrolysis gas chromatography - mass spectrometry, thermogravimetric analysis, as well as approaches based on liquid chromatography, microfluorimetry, analytical scanning and transmission electron microscopy and others. Unsolved problems in the field of MP research in food include the high laboriousness and low performance of the identification technologies used, the lack of reference and standard samples of MP, the complexity of the equipment used, which makes it difficult to use it for routine hygienic control. The issue of the influence of MP aging degree on the results of its qualitative and quantitative determination has not been sufficiently studied. Some hopes in the field of development of rapid analysis of MTs are pinned on the use of aptamers. Conclusion. Existing analytical methods make it possible to determine the content of MPs in environmental objects, but further improvement and validation of these methods is required in relation to the assessment of the content of MPs in various types of food.

[Effect of L-carnitine and resveratrol complex on the profile of cytokines and regulatory proteins in normal and obese rats].

Chronic inflammation in adipose tissue, peripheral organs and some compartments of the brain are among pathogenetic factors in obesity. The use of bioactive compounds with anti-inflammatory and hypolipidemic activity in the composition of specialized products and dietary supplements is considered as an approach in the diet therapy of obesity and related conditions. The aim of the research was to study the effect of a complex supplement containing resveratrol and L-carnitine (RC supplement) on the immunological parameters of inflammation (the profile of cytokines and regulatory proteins) in rats fed a balanced or hypercaloric diet. Material and methods. Male Wistar rats received for 63 days a standard balanced diet (SD) or a high-carbohydrate-high-fat diet (HFCD) with an excess of total fat and fructose, as well as RC supplement at a low (25 mg/kg body weight as Res and 300 mg/kg body weight as L-Car) or high (50 and 600 mg/kg body weight, respectively) dose. The content of leptin, ghrelin, cytokines and chemokines in blood serum (BS), lysates of white adipose tissue (WAT) and spleen, amygdala and hippocampus of the brain, the content of regulatory proteins Akt, IRS-1, GCK-3a/b, p70/S6, BAD, m-TOR, PTEN and S6 ribosomal protein in the amygdala and hippocampus have been studied the by multiplex immunoassay. Results. In rats that consumed RC as part of SD, there was a decrease in the levels of leptin and its ratio with ghrelin, the levels of proinflammatory cytokines (TNF-α, IL-1α, IL-12p40 and IL-12p70, IFN-γ) in BS and WAT, chemokines (MCP-1, M-CSF, MIP-2) in WAT. Some of these effects were more pronounced at a low dose of RC than at a large dose, and some of them were also canceled or changed in direction in animals treated with HFCD. In the amygdala, RC consumption increased the content of both pro- and antiinflammatory cytokines; the most significant was the increase in IL-7 levels in animals fed SD, and RANTES in animals fed HFCD. In the hippocampus of rats, the RC intake had an insignificant effect on the levels of cytokines and chemokines. Akt-1 kinase and the substrate of the insulin receptor IRS-1 were the main targets of RC action in the regions of the brain. Conclusion. The complex dietary supplement RC exerted a hypoleptinemic effect, revealed certain anti-inflammatory effects and modulated a number of the brain factors influencing behavioral responses in obesity. However, the synergistic effect of resveratrol and L-carnitine in the composition of the supplement wasn't not observed, and the effectiveness of its action decreased in conditions of a hypercaloric diet consumption.

[Assessment of the influence of an enzymal preparation - a complex of glucoamylase and xylanase from Aspergillus awamori Xyl T-15 on the intestinal microbiom and immunological indicators of rats].

The requirements for the safety of food products obtained by microbial synthesis are including as obligation for to conduct toxicological studies - the study of various biochemical and immunological markers of toxic effects. The necessity of these studies is explained by a possible change in the structure of food ingredients produced by a microbial cell and, consequently, a change in their biological properties, as well as the possible presence of living forms and/or DNA of producer strains or of their toxic metabolites in these ingredients. At the same time, it is well known that the nutrient composition of foods has a significant impact on the composition and properties of microorganisms that make up the gut microbiome, which, in turn, determines the immune status. The purpose of the research was to justify the analyses of gut microbiocenosis composition for inclusion in the protocol of safety investigation of foods obtained by microbial synthesis [on the example of an enzyme preparation (EP) - a complex of glucoamylase and xylanase from a genetically modified strain of Aspergillus awamori Xyl T-15]. Material and methods. In experimental studies carried out for 80 days, Wistar rats (males and females) were used. The study of the effect of EP (a complex of glucoamylase and xylanase from a genetically modified Aspergillus awamori Xyl T-15 strain) in dozes 10, 100 and 1000 mg/kg body mass on the cecum microbiome and the immune status (content of cytokines and chemokines: IL-1a, IL-4, IL-6, IL-10, IL-17A, INF-γ, TNF-α, MCP-1, MIP-1a and Regulated on Activation Normal T-cell Expressed and Secreted - RANTES) was carried out. Results. It has been shown that EP - a complex of glucoamylase and xylanase from A. awamori Xyl T-15 at doses of 100 mg/kg or more causes mild disturbances in the composition of gut microbiocenosis. At the same time, these disorders have a significant immunomodulat ory and immunotoxic effect on the body, which manifests itself in a dose-dependent change in the profile of pro-inflammatory cytokines and chemokines in blood and spleen. The adverse effect of EP on the body is probably due to the formation of metabolites that are not formed during usual digestive processes in the gastrointestinal tract. The minimum effective dose (LOAEL) of EP was 100 mg/kg body weight In accordance with established requirements, the activity of the EP should not appear in ready-to-use food. Subject to this requirement, amount of EP entering the body cannot exceed the established LOAEL level. Therefore, a complex of glucoamylase and xylanase can be used in food industry, subject to the establishment of regulations «for technological purposes¼ for A. awamori Xyl T-15 strain. Conclusion. The data obtained on the relationship between the state of the microbiome and the immune status upon the introduction of EP indicate the need to include indicators of the state of gut microbiocenosis in the test protocol of safety.

[Nanocellulose in the food industry and medicine: structure, production and application].

Cellulose is the most abundant polymer in the biosphere and has many technical applications, including food production. The development of cellulose technology in the 21st century has led to the emergence of nanocellulose (NC), which has widely varying chemical and physical properties and, therefore, has fundamentally new areas of application in biomedicine and the food industry. The aim of this work is to review the literature on the structure, sources, methods for obtaining nanocelluloses, including methods for their chemical modification, current and prospective applications in the food industry, packaging materials, biomedicine, etc. Material and methods. For the analysis, sources were selected mainly for the period from 2014 to 2022, contained in the international databases PubMed, WoS and Scopus and meeting the requirements of scientific reliability and completeness. Results. Among the main types of NC there can be identified nanofibrous cellulose (NFC), consisting of fibers longer than 500 nm and about 10-20 nm thick, and nanocrystalline cellulose (NCC) with particles 100-500 nm long and less than 100 nm in diameter. A special group of materials includes bacterial NC (BNC) produced by microorganisms and representing entangled coils or layers of cellulose fibers with a thickness of less than 100 nm. Significant changes in the physical, chemical and functional properties of NC can be achieved by its physical and chemical modification, which leads to a change in swelling, an increase in the mechanical strength and stability of hydrogels, and compatibility with synthetic polymers. NFC, NCC and BNC are offered as food ingredients for inclusion both in mass consumption products and in specialized foods for dietary and therapeutic uses, as well as in the so-called «functional products¼, for which manufacturers declare the ability to influence actively on the state of intestinal microflora and digestive function. In biomedical applications, of great interest is the biocompatibility of BNC with various cell types in combination with biodegradability, which makes it possible to create new types of materials for reconstructive surgery, effective and safe dressings. When used as packaging materials, NC products successfully compete with synthetic polymers without causing long-term environmental pollution. Factors hindering the introduction of NC products into practice are the gaps of knowledge of NC biological action, combined with the risks caused by possible residual amounts of chemicals and biochemical reagents, bacterial toxins, enzyme preparations and microorganisms-producers in the composition of NC. Conclusion. There is an important task to develop a system for regulating NCs and products with its content, in accordance with the technical regulations of the Customs Union of the EAEU.

[Liver gene expression in normal and obese rats received resveratrol and L-carnitine].

The use of nutraceuticals with anti-inflammatory and hypolipidemic activity in the composition of foods for special dietary uses and dietary supplements is one of the effective methods of dietary therapy of alimentary obesity and related diseases. The aim was to study the effect of the combined intake of resveratrol and L-carnitine (RC) on the expression of genes responsible for the metabolism of carbohydrates, fats and inflammatory reactions in the liver and kidneys of rats in normal conditions and with diet-induced obesity. Material and methods. Male Wistar rats received for 63 days a standard balanced diet or a high-fat-high-carbohydrate diet (HFCD) with an excess of total fat (30%) and fructose (20% solution instead of drinking water), or the same diets supplemented with RC in a low (25 mg/kg body weight as resveratrol and 300 mg/kg as L-carnitine) or high (50 and 600 mg/kg body weight, respectively) doses. The expression of genes (Khk, Gck, Pklr, Acaca, Acacb, Fasn, Scd, Srebf1, Mlxipl, Ppara, Pparg, Actb, Gapdh) in liver cells was studied by the method of real-time reverse transcription polymerase chain reaction (RT-PCR). The distribution of tyrosine aminotransferase (TAT), nuclear factor erythroid 2-related factor 2 (NRF-2) and intercellular adhesion molecule type 2 (ICAM-2) in the liver and kidneys was assessed by confocal laser microscopy and immunohistochemistry. Results. Increased expression of Fasn (fatty acid synthase) in rats treated with high-fat high-carbohydrate diet (HFCD) decreased under RC intake. RC consumption caused a decrease in the number of TAT-, NRF-2- and ICAM-2-positive cells in the liver of rats treated with HFCD, but had the opposite effect in the kidneys. The consumption of RC at the low dose by rats fed HFCD caused changes in the expression profiles of the studied marker genes, indicating a possible hypolipidemic effect. However, observed increased expression of lipogenic genes in the liver and elevated level of NRF-2 and ICAM-2 in kidney against the background of consumption of RC with the standard balanced diet cannot be assessed as unambiguously positive. Conclusion. Thus, possible negative effects caused, most likely, by the interaction of nutraceuticals with various mechanisms of action should be taken into account when developing formulations of dietary supplements and foods for special dietary uses for dietary therapy of obesity.

[Risk assessment of glucoamylase and xylanase complex from Aspergillus awamori Xyl T-15].

The introduction of methods for food production using microbial synthesis, including those obtained with the help of genetically modified (GM) microorganisms, at the present stage, allows to increase production volumes and reduce the cost of food. At the same time, such products in accordance with TR CU 021/2011 "On food safety" are classified as a "novel food"¼ and can be placed on the market only after its risk estimation for health. The emergence of new data and research methods in the last years has made it necessary to improve the risk assessment system for this category of food. The aim of the research is to develope risk assessment approaches of food obtained by microbial synthesis on the example of the GM strain Aspergillus awamori Xyl T-15 and the enzyme preparation (EP) (a complex of glucoamylase and xylanase) produced by it. Material and methods. Outbred ICR mice (CD-1) and Wistar rats (males and females) were used in the experimental studies. Investigations of GM strain A. awamori Xyl T-15 virulence and its ability to disseminate internal organs have been carried out. Acute and subacute (during 80 days) toxicity of EP (a complex of glucoamylase and xylanase) have been studied. Results. The presented experimental data allow us to make a conclusion about the avirulence of the A. awamori Xyl T-15 strain, the lack of ability to disseminate internal organs (invasiveness). At the same time, the strain is characterized by the ability to produce mycotoxins (ochratoxin, fumonisin B2, T-2 and HT-2 toxins). The EP, a complex of glucoamylase and xylanase from A. awamori Xyl T-15, has a low oral acute toxicity for rats (LD50>5000 mg/kg). I ntragastric EP administration at doses of 10, 100 and 1000 mg/kg of body weight during 80 days had not revealed adversely affect on the rate of weight gain in animals, indicators of anxiety and cognitive function, and some studied biochemical indicators. At a dose of 100 mg/kg b.w. or more, there were changes in the relative mass of organs (lungs, kidneys, adrenal glands), small shifts in the parameters of erythropoiesis and leukocyte formula, at a dose of 1000 mg/kg b.w. - an increase in oxidative DNA destruction. T he most pronounced and dose-dependent was the effect of the EP on hepatocyte apoptosis. According to this indicator, the not observed adverse effect level (NOAEL) for EP is not more than 100 mg/kg b.w. in terms of protein. The main target organ for the toxic effect of EP is the liver. Conclusion. The data obtained demonstrate the necessity to conduct an additional analysis of the risks of possible negative effects of EP, namely, to study its impact on the gut microbiocenosis and the immune status of experimental animals, to analyze the presence of determinants of pathogenicity and antibiotic resistance, DNA of selective marker genes of A. awamori Xyl T-15 strain by PCR analysis and DNA sequencing methods.

[Effect of resveratrol, carnitin, quercetin and aromatic amino acids on the xenobiotic metabolising and antioxidant enzymes in the liver during obesity in rats with different genotypes].

The use of minor biologically active substances (BAS) in specialized products is one of the promising areas in the diet therapy for obesity and other alimentary-dependent diseases (metabolic syndrome, type 2 diabetes mellitus, etc.). The effects of the BAS in patients are often ambiguous, depending on a number of factors, one of which is the state of the organism enzyme systems (enzymes of xenobiotic metabolism and antioxidant defense), the patient's genotype, and many others. The aim was to study the effect of BAS [quercetin (Q), L-carnitine (L-Car), resveratrol (Res), aromatic amino acids tyrosine (Tyr) and tryptophan (Trp)] on the activities of phase I and II of xenobiotic-metabolising enzymes and antioxidant enzymes in rats using various in vivo models of obesity and with impaired dopamine transport. Material and methods. The activities of cytochrome P450 enzymes (CYP1A1 and CYP3A), glutathione transferase (GT), UDPglucuronosyltransferase (UDP-GT), hemoxygenase-1 (HO-1), and quinone reductase (QR) were determined by fluorimetric, spectrophotometric methods and HPLC in microsomes and cytosolic fraction of rat's liver. We used rats of outbred Wistar line, Zucker ZF line with hereditarily determined obesity and DAT-KO line with a knockout of the DAT dopamine transporter gene, which for 62 days were fed a standard balanced control or high-carbohydrate high-fat diet (30% fat by weight and 20% fructose solution instead of water) supplemented with BAS, such as Q, Res, L-Car, Tyr and Trp in doses 50, 25, 300, 1250 and 250 mg/kg of body weight respectively. Results and discussion. The presence of a DAT knockout led to a small but statistically significant decrease in the activity of GT in the liver in both homozygous and heterozygous animals. The CYP1A1 activity was significantly decreased in all carriers of the DAT knockout gene, while HO-1 activity, on the contrary, was increased, independently of the composition of the diet used. In Zucker ZF rats of all groups, in comparison with Wistar rats fed the corresponding diets, the activities of GT, UDP-GT, CYP1A1, CYP3A and QR were significantly reduced in terms of the total protein content. HO-1 activity was reduced in Zucker ZF rats in comparison with Wistar rats to a lesser extent, however, the addition of Q significantly influenced the difference between the two lines. Trp consumption led to a significant increase in GT activity in Wistar rats. In DAT-KO homozygotes this effect was insignificant, while in heterozygotes it was absent. Similarly, consumption of Trp resulted in a significant increase in CYP1A1 activity only in Wistar rats, but not in DAT-KO rats. The activity of UDP-GT under Trp intake increased only in DAT heterozygotes. The genotype significantly influenced the response of QR activity to Trp consumption, but in an ambiguous way - there was an increase in activity in heterozygotes and a decrease in homozygotes for DAT knockout. CYP1A1 activity was significantly increased in rats treated with Tyr. Conclusion. The data obtained indicate that the effect of various dietary supplements used in the treatment of obesity and metabolic syndrome on the xenobiotic-metabolising enzymes and antioxidant enzymes can have a different nature and direction depending on the genotype and the level of spontaneous physical activity and energy expenditure determined by it, which should be taken into account when approaches to personalized diet therapy of alimentary-dependent diseases are developing.

[Influence of the L-carnitine and resveratrol complex on physiological, biochemical and morphological indicators of normal and obese rats].

Specialized products and dietary supplements, enriched with complexes of minor biologically active substances (BAS), are often offered as components of therapeutic diets in the treatment of obesity and metabolic syndrome. At the same time, the possible effects of the interactions of BAS when consuming a multicomponent product have not been studied enough. The aim - to study the action on rats' organism of a complex supplement (RС), containing resveratrol (Res) and L-carnitine (L-Car), when consumed with a standard balanced or hypercaloric diet. Material and methods. Male Wistar rats received for 63 days a standard balanced diet (SD) or a high-fat-high-carbohydrate diet (HFCD) with an excess of total fat (30%) and fructose (20% solution instead of drinking water), or the same diets supplemented with RС in a low (25 mg/kg body weight as Res and 300 mg/kg body weight as L-Car) or high (50 and 600 mg/kg body weight, respectively) doses. The muscle grip strength, behavioral reactions in tests of the conditioned passive avoidance reflex (CPAR) and elevated plus maze (EPM) were studied. At the end of the experiment, the mass of adipose tissue and internal organs was determined together with the activity of microsomal and cytosolic liver enzymes for specific substrates, plasma biochemical parameters, liver morphology by lightoptical microscopy, accumulation of lipofuscin-like granules (LLG) in the liver and kidneys by laser confocal microscopy. Results. In the rats fed HFCD, compared with SD, there was an increase in the mass index of liver, total inguinal and retroperitoneal white adipose tissue, in the levels of glucose and triglycerides, in the activity of hepatic CYP1A1 and CYP3A monooxygenases, UDPglucuronosyltransferase, heme oxygenase, and simultaneous decrease of high and low density lipoprotein cholesterol, and quinone oxidoreductase activity. The RС intake stimulated the locomotor activity of rats in EPM, however, this effect was less pronounced against the background of HFCD consumption. In rats consuming SD (but not HFCD), the addition of RС caused an increase in search activity and anxiety according to the EPM and CPAR data. The effect on short- and long-term memory retention was statistically insignificant. RС intake did not have hypolipidemic and hypoglycemic properties but caused in low dose an increase in the ratio of the activity of transaminases AST/ALT in animals fed HFCD. The liver CYP3A activity increased in rats supplemented with RС in high dose fed HFCD. In the kidneys of animals, the consumption of RС resulted in increased accumulation of LLG. Conclusion. When studying the effect of the complex supplement RС on normal and obese rats according to the studied physiological, morphological and biochemical indexes, no positive effects were revealed, that would not have manifested themselves for Res and L-Car separate intake. No evidence of synergistic action of L-Car and Res were found, and some of the effects of the complex supplement can be considered as adverse. This requires careful assessment when combined using these substances in complex diet therapy of metabolic disorders in humans.

[Full transcriptome analysis of gene expression in liver of mice in a comparative study of quercetin efficiency on two obesity models].

BACKGROUND: Quercetin (Q; 3,3',4',5,7 - pentahydroxyflavone) can help alleviate the pathological effects of nutritional obesity and metabolic syndrome when taken as part of products for special dietary needs and food supplements. The mechanisms of action of Q at the genetic level are not well understood. AIMS: To study gene expression in liver tissue of mice with alimentary and genetically determined obesity upon intake of Q with diet. MATERIALS AND METHODS: During 46 days of the experiment on 32 male C57Bl/6J mice fed a diet with an excess of fat and fructose and 24 male genetically obese db/db mice the effect of Q in dose of 25 or 100 mg/kg of body weight was studied on differential expression of 39430 genes in mice livers by full transcriptome profiling on microchip according to the Agilent One-Color Microarray-Based Gene Expression Analysis Low Input Quick Amp Labeling protocol (version 6.8). To identify metabolic pathways (KEGGs) that were targets of Q exposure, transcriptomic data were analyzed using bioinformatics methods in an "R" environment. RESULTS: Differences were revealed in the nature of Q supplementation action in animals with dietary induced and genetically determined obesity on a number of key metabolic pathways, including the metabolism of lipids and steroids (Saa3, Cidec, Scd1, Apoa4, Acss2, Fabp5, Car3, Acacb, Insig2 genes), amino acids and nitrogen bases (Ngef, Gls2), carbohydrates (G6pdx, Pdk4), regulation of cell growth, apoptosis and proliferation (Btg3, Cgref1, Fst, Nrep Tuba8), neurotransmission (Grin2d, Camk2b), immune system reactions (CD14i, Jchain, Ifi27l2b). CONCLUSIONS: The data obtained help to explain the ambiguous effectiveness of Q, like other polyphenols, in the dietary treatment of various forms of obesity in humans, as well as to form a set of sensitive biomarkers that allow us to elucidate the effectiveness of minor biologically active food substances in preclinical trials of new means of metabolic correction of obesity and metabolic syndrome.

[Influence of the DAT gene knockout on exchange of essential and toxic trace elements in rats].

The maintenance of energy homeostasis of the body according to modern data is carried out with the active participation of dopaminergic neurons of the central nervous system. The synthesis and metabolism of dopamine (DA) occurs both in the brain and in peripheral tissues. Violation of the synthesis and metabolism of DA is considered as a link in the vicious cycle which it formed during the development of diet-induced obesity. According to modern data, a number of essential and toxic trace elements, such as Cd, Al, As, Mn, Fe, Cu, Zn, are actively involved in the exchange of DA in the brain and peripheral organs and tissues. One way to assess this relationship is to compare changes in the microelement status of the organism when consuming hypercaloric diets in animals with normal and impaired DA transport. The latter can be animals with a knockout of the DAT transporter gene, which performs DA reabsorption with subsequent storage in the composition of secretory granules. The aim is a comparative study of the content of a number of essential and toxic elements in the brain, liver, and kidneys of rats that differ in the allelic variants of the DAT gene fed balanced diet and the diet with an excess of energy value. Material and methods. The study was carried out on 30 male rats of the DAT-KO knockout line (homozygotes DAT-/- and heterozygotes DAT+/-), 8-10 weeks old, and 13 males rats of the outbred Wistar line (DAT+/+) of the same age. For 62 days the animals (6 groups) received a semi-synthetic diet containing essential elements in the salt mixture or a similar high-fat-highcarbohydrate diet (HFCD) with 30% fat and 20% fructose solution instead of drinking water. The content of 16 trace elements (Fe, Mg, Cu, Mn, Co, Se, Zn, Cr, V, Cs, Ag, Al, Cd, As, Pb, Ni) were determined by inductively coupled plasma mass spectrometry in the liver, kidneys, and brain of rats with a knockout of the dopamine DAT transporter gene: homozygotes (DAT -/-) and heterozygotes (DAT+/-), as well as wild-type rats (DAT+/+) of the Wistar strain. Results and discussion. In the liver, DAT knockout led to an increase in the content of As, Cd, Co, and Cs and a decrease in Fe; in the kidneys - to an increase in the levels of Pb, As, Cd and Se, in the brain - an increase in the content of most of the studied trace elements, including Pb, As, Cs, Al and Cu. Conclusion. Against the background of consumption of HFCD, the effect of DAT knockout on the content of a number of elements was more pronounced compared with the consumption of the control diet. The revealed changes in the trace element content in DAT knockout rats are considered in terms of the effect of DA metabolism in the central nervous system and in peripheral tissues on the status of trace elements.

[Peroral toxicological assessment of bentonite nanoclay used in the food industry].

Bentonite nanoclay (NC) manufactured from the natural sedimentary mineral bentonite contains more than 90% montmorillonite. Currently, it is widely used in food industry as processed aids - adsorbents for the purification of vegetable oils and beverages. Clay minerals have also applications as food additives and components in composite package materials. In vitro studies have shown that various forms of NC exerted cytotoxicity in many cell lines, whereas in vivo evidence of NC oral toxicity is contradictory. Therefore, this study aimed to assess the acute oral toxicity of NC and to evaluate its toxicological characteristics in a subacute 92-day experiment on Wistar rats with a daily oral administration in doses of 1, 10, and 100 mg/kg body weight (bw). Material and methods. The NC acute toxicity was evaluated in 8 male and 8 female rats with the initial bw 236±10 and 203± 10 g, respectively. NC was administered as an aqueous dispersion intragastrically at a dose of 5 g/kg bw. On the 14th day (end of the experiment), an autopsy of the chest and abdominal organs was performed. The subacute experiment was carried out on 64 male rats with an average initial bw of 117±7 g. During the experiment the levels of anxiety and memory function were evaluated using the test "Conditional reflex of passive avoidance". On the 90th day of the experiment, diurnal urinary excretion of creatinine and selenium was evaluated. At the end of the experiment, the integral parameters, the state of the intestinal wall permeability were assessed. Hematological and biochemical parameters were examined in blood, the content of non-protein thiols and the number of cells in apoptosis were determined in liver, and the state of cultivated microbiome populations was studied in cecum. Results. The results of the determination of NC acute toxicity showed the absence of rat's mortality and specific pathological changes in the internal organs at a dose as large as 5000 mg/kg bw, which allowed attributing NC to the V hazard class. Nevertheless, under the conditions of the 92-day experiment, NC caused some adverse biological effects on rat's organism. So, even at an NC dose of 1 mg/kg bw, there was a sharp inhibition of the symbiotic bifidobacterium growth, an increase in platelet count, in LDL and the LDL/HDL ratio, together with the presence of hypertriglyceridemia. At a dose of 10 mg/kg bw, an increase in spleen mass and a decrease in the de Ritis coefficient (AsAT/AlAT) were established. At a dose of 100 mg/kg bw there were shifts in the leukocyte blood count, an excessive enterococci growth in the cecum, significantly increased animal bw, along with the decrease of AsAT/AlAT and the level of serum nitrogen metabolites, indirectly indicating inhibition of catabolic processes. However, at the highest dose of NC, intestinal absorption of the protein antigen - ovalbumin, was apparently completely blocked. Conclusion. The data obtained have shown that NC has potentially adverse effects on the rats mainly at a dose of 100 mg/kg bw, nevertheless, its NOAEL in the 92-day daily oral exposure experiment is probably less than 1 mg/kg bw.

[The content of essential and toxic microelements in the organs of mice of various lines receiving a high-carb high-fat diet and supplemented with quercetin].

Quercetin (Q) is known to be a powerful chelating agent for metal ions. Due to this property, Q, when ingested, is able to intervene actively in microelement homeostasis. The assessment of the possible significance of these effects for the dietary use of Q in obesity is complicated by the fact that in obese patients there are numerous changes in mineral metabolism and microelement homeostasis due to the pathogenesis of the disease. Thus, it is of considerable interest to identify the systemic effects of biologically active substances, including Q, on mineral metabolism in biological in vivo models (due to the limited choice of biosubstrates in clinical observations - blood plasma, urine, hair). The aim was to study the possible effects of Q on the levels of essential, non-essential and toxic elements in mice of three lines: db/db with knockout of the leptin receptor gene, prone to spontaneous development of obesity, inbred line C57Bl/6J, relatively resistant to the development of nutritional obesity, and complex hybrid of the 2nd generation DBCB, genetically more prone to developing obesity and fatty hepatosis when consuming diets with an excess quota of fat and simple carbohydrates. Material and methods. The content of 16 chemical elements (Fe, Mg, Cu, Mn, Co, Se, Zn, Cr, Al, Cd, As, Pb, Ni, Ag, V, Cs) was determined by mass spectrometry with inductively coupled plasma in the liver, kidneys, brain of genetically obese db/db mice (8-10 weeks old) receiving standard semisynthetic ration (SSD) and Q for 47 days at doses of 25 and 100 mg/kg body weight, C57Bl/6J mice treated with SPR or a high-fat high-carb diet (HFCD - 30% fats and 20% fructose solution instead of water) and Q supplementation at the same doses, DBCB tetrahybrid mice treated with SSD, HFCD and HFCD supplemented with Q for 63 days (25 mg/kg body weight). The compounds of Fe, Zn, Cu, Mn, Mg, Cr, Ni, Se, and V were included in the salt mixture in the form of inorganic salts or oxides in amounts close to physiological needs; Al, Cd, As, Pb, Ag, Cs, Co - were present in the diets in background amounts. Results and discussion. In db/db mice, in comparison with C57Bl/6J, a decreased content of Pb in the liver and increased in the kidneys and brain, decreased Co in the kidneys, increased Cs and As in the brain, which could not be explained by differences in the consumption of these elements with feed. The consumption of Q decreased the content of Mn, Cs, V, Ni, As in the liver in db/db mice and increased Cu and did not significantly affect the level of trace elements in the liver in animals C57Bl/6J. In kidneys of C57Bl/ 6J receiving Q, the content of As and Al increased. In brain of db/db mice, Q supplementation caused a decrease in the content of As, Pb, Cs and Se. In tetrahybrids DBCB, Q increased Pb levels in liver and brain and decreased in kidneys; increased the level of V in liver and brain; decreased As content in kidneys and increased in liver. Multiple correlations were noted between the organ content of elements in various valence forms, as well as between the content of trace elements and biochemical indicators of the intensity of catabolic and anabolic processes. Conclusion. Quercetin has an effect on the homeostasis of microelements, depending both on the animal genotype and on the diet, and not having unambiguous physiological significance. Indicators of the status of essential and toxic trace elements are recommended to be included in the protocols of preclinical trials of the efficacy and safety of minor biologically active food substances.

[Spinach and quinoa - prospective food sources of biologically active substances].

Formally, phytoadaptogens extracted mainly from medicinal plants are not food substances, and their use in preventive nutrition is significantly limited. However, screening studies can detect phytoadaptogens in food plants, however in much smaller quantities. For example, phytoecdysteroids are biologically active substances (BAS), used to relieve chronic fatigue syndrome, reduce nervous and muscle fatigue, improve memory and attention processes. Phytoecdysteroids can be isolated not only from various medicinal plants, but also from food plants like spinach (Spinacia oleracea) and quinoa (Chenopodium quinoa). Researchers show interest in possible synergies in the manifestation of a wide range of pharmacological effects, determined by a combination of phytoecdysteroids and other biologically active substances of these food plants. The aim of this research is a brief analytical review of publications characterizing the spectrum of minor biologically active substances of spinach and quinoa, as well as those devoted to the experimental assessment of their pharmacological activity in experiments on laboratory animals. Results. An analysis of the publications presented in the review indicates that spinach and its extracts are promising food sources of phytoadaptogens, carotenoids, phenolic compounds, in particular quercetin, kempferol, phenolic acids (p-coumaric, ferulic), as well as lignans metabolized into biologically active phytoestrogens (enterolactone and enterodiol). The possible prophylactic effect of spinach is being actively studied in vivo in laboratory animals when modeling diseases such as diabetes mellitus, cardiovascular and cancer diseases. Numerous adaptogenic effects and the neuroprotective effect of spinach and its extracts are shown, expressed in improving the memory and learning of animals. Publications of the last decade indicate an increased interest in such a promising food source of high-grade protein and a wide spectrum of biologically active substances, including phytoecdysteroids, as quinoa grains. More than 20 phenolic compounds in free or conjugated forms were found in quinoa grains; tannins, saponins, sterols, phytic acid, and ecdysteroids are present in small quantities. The consumptionof quinoa can have a beneficial effect on the organism, normalizing carbohydrate and lipid metabolism, reducing body weight and preventing excessive lipid peroxidation. The anti-inflammatory effects and antioxidant effects of quinoa are widely discussed. Conclusion. Spinach, quinoa and their extracts are promising food sources of biologically active substances, their pharmacological action is confirmed from the standpoint of evidence-based medicine by in vivo experimental studies. Accordingly, it is advisable to expand the use of these food plants for inclusion in biologically active dietary supplements, functional food ingredients and specialized food products for various purposes.

[Oxylipins - biologically active substances of food].

Oxylipins are biologically active molecules that are formed in all aerobic organisms enzymatically or as a result of the action of free radicals and reactive oxygen species. The value of oxylipins for plants is comparable to the value of eicosanoids for animals and humans. In the human organism, the oxylipins' formation occurs through enzymatic or non-enzymatic oxygenation of various ω-6 and ω-3 polyunsaturated fatty acids (PUFAs) obtained from food. Being "local hormones", oxylipins are involved in the regulation of inflammation, pain response, cell adhesion, migration and proliferation, apoptosis, angiogenesis, regulation of blood pressure, blood coagulation, and blood vessel permeability. There is a hypothesis that the molecular structure of oxylipins allows them to be positioned as adaptogens and justifies the use of plants as potential sources of oxylipins in traditional medicine. The aim of this research is a brief analytical review of publications characterizing the adaptogenic potential and promising sources of oxylipins (plant, cyanobacteria, and algae). Results. The publications of the last decade indicate an increased interest in the oxylipins of plants, cyanobacteria, and algae. In total, about 150 oxylipins and their derivatives are known in plants and fungi. Of the plant sources of oxylipins, Peruvian poppy root (Lepidium meyenii), white bryony (Bryonia alba L.), blackcurrant seed oil (Ribes nigrum), and licorice (Glycyrrhiza glabra) are of particular interest. Some macroalgae are capable of non-enzymatically or enzymatically synthesizing a variety of oxylipins, including antiinflammatory prostaglandins, resolvins, an d leukotrienes. In addition, to common oxidized derivatives of fatty acids, macroalgae also contain a number of complex and unique oxylipins. Other sour ces of oxylipin producers include macroscopic gelatin colonies of freshwater cyanobacteria Aphanothece sacrum. As the analysis of the presented in the review publications showed, most anti-inflammatory and pro-resolvent oxylipins have antiproliferative properties, have adaptogenic potential, and can protect the body at the system level, contribu ting to the formation of favorable bacterial clearance. Conclusion. The results of numerous studies indicate that plants, algae, and even bacteria can be a promising source of oxylipins, both for their use in their native form and for the targeted isolation of oxylipins from them in order to conduct further studies of their adaptogenic potential, cardio- and geroprotective properties. In the future , establishing the adequate daily intake of these substances and the development on their basis of dietary preventive and specialized products for various purposes will be relevant.

[Immunological markers of alimentary-induced hyperlipidemia in Wistar rats].

Changes in plasma levels of the main groups of cytokines and adipokines may correlate with the severity of metabolic disorders in hyperlipidemia and obesity. The aim of the study was to assess the significance of ghrelin, leptin, their ratio (L/Gh), and the cytokine profile as biomarkers at dietary-induced hyperlipidemia. Material and methods. We used 48 female Wistar rats with an initial body weight of 123±1 g, which were divided into 6 groups. Group 1 (control) received a balanced semi-synthetic diet according to AIN93; group 2 - diet with excess fat (30% by weight); group 3 - a diet with the addition of 20% fructose solution instead of drinking water, group 4 - a diet with excess fat and fructose, group 5 - a diet with added cholesterol (0.5%), group 6 - a diet with cholesterol and fructose. On the 64th day of the experiment, the mass of internal organs was determined; the levels of cytokines and adipokines in blood plasma were measured by multiplex immunoassay. Results and discussion. A decrease in the level of leptin was found in group 5 compared with the control and with groups 2, 4 and 6 groups (p<0.05). The lowest level of ghrelin was found in group 2 (p<0.05) against the background of high concentrations of leptin. Significant correlations were found between L/Gh and the total mass of animals (r=0.321; р=0.034), the relative mass of adipose tissue (r=0.439; р=0.003) and with the relative mass of the spleen (r=-0.460; р=0.003). In group 2, at the maximum L/Gh ratio, a significantly higher weight of adipose tissue was found, whereas in groups 3 and 5, at the lowest L/Gh ratio, the relative amount of total fat was the lowest. L/Gh ratio correlated with the level of monocyte chemotactic protein-1 (MCP-1), RANTES, IL-18 and macrophage colony-stimulating factor (M-CSF). The concentrations of IL-17, IL-18, IL-4, IL-5, MIP-3a, IFN-γ, M-CSF and RANTES in the experimental groups were reduced compared with the control, with the most pronounced effect in group 5 together with the lowest L/Gh ratio. Conclusion. The presence of a significant correlation between L/Gh ratio and changes in the weight of rats' body, spleen, adipose tissue, as well as levels of cytokines involved in inflammation regulation, confirms the importance of L/Gh ratio as a biomarker in an in vivo model of dyslipidemia.

[The impact of bilberry leaves' polyphenols on the anxiety level, spatial learning and memory of db/db mice].

Numerous experimental and clinical studies have shown high efficiency of plant polyphenolic compounds in restoring age-related memory and learning disorders. In the present study a functional food ingredient (FFI) was obtained by sorption of an aqueous solution of bilberry leaves extract on buckwheat flour, which allowed to concentrate polyphenols and increase their storage stability. The aim of this study was to evaluate the impact of a developed FFI, enriched with bilberry leaves` polyphenols, on the anxiety level, locomotor activity, memory and spatial learning of db/db mice with genetical type 2 diabetes. Material and methods. The experiment was conducted using 10 heterozygote male db/db mice and 10 homozygote male db/+ mice as the comparison control group (7 weeks of age). According to body weight, blood glucose level, the results of insulin resistance test and elevated plus-maze (EPM) test, animals were randomized into three groups: control group C1 - db/+ animals, control group C2 and experimental group G3 - obese db/db mice. Buckwheat flour was included into the diet of C2 group in a dose 22.5 g/100 g; FFI was included into the diet of G3 group in a dose 2.5 g/100 g (that was equal to 59.2± 1.4 mg-eq gallic acid per 100 g of the diet). The anxiety level and general locomotor activity were evaluated in the EPM test. The evaluation of behavior, memory and spatial learning was performed using passive avoidance test (PAT). Glycated hemoglobin level was determined in blood, insulin and leptin levels were determined in blood plasma, general antioxidant activity was determined in liver cytosolic fraction. Results and discussion. The obtained data on biochemical parameters and insulin resistance tests showed the absence of normalizing effects of developed FFI. However, the inclusion of polyphenol-containing FFI into the diet led to beneficial changes in physiological parameters. Animals of G3 group, provided with FFI, were significantly less anxious compared to both control groups. During PAT testing of short-term memory, no animals in G3 group entered to the dark compartment (0%), what demonstrated increased learning ability and well-established memory of these animals in comparison with C1 (50%) and C2 groups (80%). Conclusion. The results prove the effectiveness of bilberry leaves` polyphenols, sorbed on the brown buckwheat flour, in the correction of central nervous system disorders in db/ db mice with genetically altered type 2 diabetes, what points at possible prospect of FFI inclusion in therapeutic products for patients with type 2 diabetes mellitus.

[The experimental evaluation in vivo of hypoglycemic properties of functional food ingredient - polyphenolic food matrix].

The aim of this study was the evaluation of hypoglycemic action of functional food ingredient (FFI) - a polyphenol food matrix in 3-month in vivo experiment with the use of fat male mice C57BL/6. The food matrix was produced by means of incubation of bilberry leaves extract (2% solution, pH 3.6) with buckwheat flour in ratio 1:50 during 45 min at 25 °C. The polyphenol content in experimental batch of matrix was 26.6±0.5 mg-equivalent of gallic acid per 1 g of flour. The experiment was conducted with the use of 46 male mice C57Bl/6c. Blood glucose level was estimated before starting the feeding experiment. An oral fasting glucose tolerance test (GTT) was also conducted, the area under the curve (AUC) was calculated. The animals were randomly divided into 4 groups (according to the body weight, glucose level and AUC): control group K1, fed with standard semisynthetic diet, control group K2 (n=10) and experimental groups G3 and G4 (n=13). The symptoms of type 2 diabetes in groups K2, G3 and G4 were modeled with the use of high-fat high-carbohydrate diet (HFHC diet, 30% fat, 20% sucrose). FFI was included into the diet of animals of experimental groups G3 and G4 in doses 2.5 and 5 g per 100 g of ration, respectively. The GTT test was repeated on the 40th and 82nd days of experiment. On the 15th, 54th and 91st days the insulin resistance test (IRT) was conducted. The consumption of HFHC diet by K2 group animals resulted in development of obesity in these animals to the week 11, which was characterized by increase in the body weight gain (37.1±4.9%) in comparison with control group K1 animals (23.4±2.2%). The introduction of FFI into animal's diet decreased significantly body weight gain of these animals in comparison with K2 group. On the week 8, the significant increase in blood glucose level of animals fed with HFHC diet was found (K2 - 8.2±0.3, G3 - 8.1±0.3, G4 - 8.5±0.3 mmol/L), in comparison with control group K1 (7.1±0.3 mmol/L). On the 91st day of experiment this difference remained significant only for group K2 (9.3±0.6 against K1 group - 7.7±0.3 mmol/L), what shows the beneficial hypoglycemic action of the FFI in both doses (for G3 group - 8.5±0.2, for G4 - 8.4±0.3 mmol/L). On the week 8 the disorder in glucose tolerance was found in animals of group K2, what is one of type 2 diabetes symptoms. The introduction of FFI in a dose 2.5 g/100 g into group G3 diet inhibited the development of these disease symptoms. The introduction of FFI in a higher dose (5 g/100 g of a diet) to a certain extent inhibited the development of insulin resistance. There was no effect of FFI, introduced into animal's diet, on cognitive functions and short-term and long-term memory.

Effect of Silver Nanoparticles on Protein Composition of Rat Liver Microsomal Fraction.

We studied the effect of oral administration of metallic silver nanoparticles to rats on the proteome of the liver microsomal fraction. Nanoparticles (5-80 nm) were administered daily to growing Wistar male rats over 92 days. Controls received pure water. To control the effect of the carrier, the rats were administered aqueous solution of a stabilizer polyvinylpyrrolidone. The protein composition (proteome) of the liver microsomal fraction was analyzed by 2D-electrophoresis with identification of variable protein spots using the high-resolution nanoHPLC-MS/MS. Eight, 6, and 8 proteins absent in the control groups appeared in the microsomal fraction under the action of nanoparticles in doses of 0.1, 1, and 10 mg/kg body weight, among these, proteasome activator complex subunit 1 (Psme1 gene), and the heat shock protein HSP60 (Hspd1 gene) were reliably identified. The consumption of silver nanoparticles led to disappearance of protein of ß2a tubulin chain (Tuba1b gene) from the microsomal fraction. The expression of catalase, present in the proteome of the liver microsomal fraction in animals of all groups was significantly decreased after consumption of silver nanoparticles in doses of 0.1 and 10 mg/kg. The observed changes in the proteome are considered as manifestations of hepatotoxicity of silver nanoparticles and can be related to the antagonistic effect of silver on the status of the essential trace element selenium.

Interspecific Differences in Behavioral Responses and Neuromotorics between Laboratory Rodents Receiving Rations with Easily Digested Carbohydrates.

We assessed the effect of intake of easily digested carbohydrates for 133 days on quantitative parameters of neuromotorics and cognitive function in Wistar rats and C57Bl/6J mice. Neuromotorics (muscle tone) was assessed in rats and mice by the forelimb muscle force (grip strength) over 4 months. Anxiety was assessed in the elevated plus-maze test and cognitive function (short-term and long-term memory) was evaluated by conditioned passive avoidance response (CPAR) test over 3 months. The mice, in contrast to rats, receiving the diet with easily digested sugars demonstrated suppression of neuromotorics. Anxiety increased with age in female mice, but not in rats, irrespective of the diet. Cognitive function in rats receiving experimental rations did not change significantly in comparison with the control. In mice, consumption of equimolar mixture of fructose and glucose impared short-term, but not long-term memory, in comparison with the group receiving glucose alone. We revealed a small (by 14-17%), but statistically significant increase in the brain weight in mice receiving fructose and sucrose. The study demonstrates sufficient interspecies differences in the influence of carbohydrate rations on neuromotorics and behavioral responses in the in vivo metabolic syndrome model.