C1473G Polymorphism in Tph2 Gene Affects Activation of Serotonin Metabolism in Mouse Brain 24 h after LPS Administration.

We studied the effect of the C1473G polymorphism in the Tph2 gene that reduces the activity of the tryptophan hydroxylase 2 in the brain on the severity of changes in motor activity (23 h after intraperitoneal administration of 0.8 mg/kg LPS or saline) and on the level of serotonin (5-HT) and its metabolite 5-hydroxyindoleacetic acid (5-HIAA) in the endings of 5-HT neurons in the cortex, hippocampus, and striatum (24 h after administration) of mature male mice of congenic lines B6-1473CC (high activity) and B6-1473GG (low activity). The state of the immune system in these structures was assessed by the expression of genes for proinflammatory cytokines IL-1ß and TNF. LPS caused a decrease in motor and exploratory activities and increased the expression of the Il1b and Tnf genes in the studied brain structures in mice of both genotypes. LPS did not affect the level of 5-HT in any of the studied brain structures, but dramatically increased the level of 5-HIAA in these structures. The influence of the C1473G polymorphism on the intensity of the LPS-dependent increase in the level of 5-HIAA in the cortex and striatum was shown: in B6-1473CC mice this increase was more pronounced than in B6-1473GG mice. Demonstration of the influence of this polymorphism on the response of the 5-HT system after stimulation of the innate immunity is important for understanding of the role of tryptophan hydroxylase 2 in the mechanism of adaptation of the nervous system during infections and for predicting and reducing the risks of mental disorders.

[Clinical efficacy of ct-guided transthoracic needle biopsy of peripheral lung lesions]. / Klinicheskaya effektivnost' transtorakal'noi biopsii perifericheskikh novoobrazovanii legkikh pod kontrolem MSKT.

OBJECTIVE: To evaluate the effectiveness of a step-by-step protocol for GT-guided transthoracic biopsy in verification of peripheral lung tumors. MATERIAL AND METHODS: A retrospective analysis of the results of GT-guided transthoracic biopsies of focal lung neoplasms was performed between October 2019 and December 2020. The analysis included the results of 176 biopsies in 158 patients. RESULTS: Primary biopsy was informative in 139 (87.97%) out of 158 patients. There were 155 (88.07%) informative and 21 (11.93%) non-informative biopsies. Lung adenocarcinoma was diagnosed in 41 (25.95%) patients, squamous cell carcinoma in 35 (22.15%) patients, and small cell carcinoma in 9 (5.7%) patients. There were 17 (10.76%) patients with uninformative biopsy results. Sensitivity, specificity and accuracy were 86%, 95.5%, and 87.8%, respectively. PPV was 98.9%, NPV - 58.3%. Various complications occurred after 65 (36.93%) out of 176 biopsies (95% CI 30.15-44.27). Pneumothorax followed by pleural drainage was detected after 8 (4.55%) biopsies. CONCLUSION: Accuracy of a step-by-step protocol for transthoracic biopsy was 88% that is not inferior to similar results in large-scale studies devoted to specialized navigation systems.

[Decrease in the Activity of Striatal-Enriched Protein-Tyrosine-Phosphatase (STEP) in the Brain of Danio rerio Treated with p-Chlorophenylalanine and Pargyline].

Fundamental neurophysiological processes are often studied using Danio rerio fish as a model. A selective inhibitor of striatal-enriched protein tyrosine phosphatase (STEP) reduces serotonin metabolism in the D. rerio brain. Both STEP and serotonin are involved in the development of neurodegenerative behavioral disorders. Reduction or elevation of the serotonin level in the brain of mice caused by the administration of p-chlorophenylalanine or pargyline, respectively, results in a decrease in the level of ptpn5 mRNA in the striatum, ptpn5 being the gene encoding STEP. However, it has not been established whether this occurs in other organisms. We studied the effect of inhibitors of synthesis (p-chlorophenylalanine) and degradation (pargyline) of serotonin on the expression of the ptpn5 gene and the activity of STEP in the brain of D. rerio. The fish were placed in water containing p-chlorophenylalanine (2 mg/L) or pargyline (0.5 mg/L) for 72 hours, and control subjects were kept in aquarium water. The p-chlorophenylalanine treatment decreased the serotonin level in the brain fourfold, whereas pargyline increased the level of this transmitter sixfold. Both p-chlorophenylalanine and pargyline decrease STEP activity in the D. rerio brain, without affecting the level of the ptpn5 mRNA gene. Thus, interaction between STEP and the serotonin system is observed in both mammals and fish, which indicates the similarity of the regulation processes in vertebrates.

Acute Administration of Imipramine and Citalopram Increases Activity of Striatal-Enriched Tyrosine Protein Phosphatase (STEP) in Brain of Zebrafish Danio rerio.

Effects of acute treatment with antidepressant drugs, imipramine and citalopram, on behavior and activity of striatal-enriched tyrosine protein phosphatase (STEP) in the whole brain of zebrafish Danio rerio were studied. Mature zebrafish were exposed for 3 h to water (control) or to solutions of 0.25, 0.5, or 1 mg/liter of imipramine or citalopram, and then their behavior was studied in novel tank test. STEP activity was assayed in the brain of animals by the difference between the rates of transformation of p-nitrophenyl phosphate to 4-nitrophenol in the absence or presence of a selective STEP inhibitor. In novel tank test, imipramine and citalopram reduced locomotor activity and increased freezing time; at this, imipramine increased the total time spent in top of the tank. Citalopram (all concentrations) and imipramine (0.5 and 1 mg/liter) increased STEP activity in zebrafish brain.

[Pargyline and р-Chlorophenylalanine Decrease Expression of Ptpn5 Encoding Striatal-Enriched Protein Tyrosine Phosphatase (STEP) in the Mouse Striatum].

Striatal-enriched protein tyrosine phosphatase (STEP), which was initially identified in the striatum, is encoded by the Ptpn5 gene and is expressed in neurons of various structures of the brain. STEP is involved in regulating neuroplasticity, and its expression abnormalities are associated with human neurodegenerative disorders. The STEP inhibitor 8-trifluoromethyl-1,2,3,4,5-benzopentathiepin-6-amine hydrochloride (TC-2153) has been shown to affect the serotoninergic system of the brain. However, the influence of the serotoninergic system on the STEP regulation has not been studied yet. The aim of the study was to investigate how pharmacologically induced changes in the brain serotonin (5-HT) level affect Ptpn5 expression and STEP activity in adult male C57BL/6J mice. To modulate the 5-HT level in the brain, the 5-HT synthesis inhibitor p-chlorophenylalanine or 5-HT degradation inhibitor pargyline was administered intraperitoneally for three successive days. Changes in 5-HT concentration in the brain were assayed using high-performance liquid chromatography. The STEP activity was determined spectrophotometrically in the supernatant by the rate of p-nitrophenyl phosphate dephosphorylation in the absence and presence of the selective STEP inhibitor TC-2153. The Ptpn5 mRNA level was determined using quantitative RT-PCR. The Ptpn5 expression level in the striatum was three times higher than in the cortex and hippocampus. Both increases and decreases in brain 5-HT were for the first time associated with a decrease in Ptpn5 mRNA in the striatum. STEP activity in the striatum and cortex was significantly higher than in the hippocampus. However, p-chlorophenylalanine and pargyline did not affect the STEP activity in the brain structures tested. Thus, a new method was proposed to study the STEP activity in the brain and p-chlorophenylalanine and pargyline were shown to decrease Ptpn5 expression in the striatum in mice.

[Effect of the C1473G Polymorphic Variant of the Tryptophan Hydroxylase 2 Gene and Photoperiod Length on the Dopamine System of the Mouse Brain].

A decrease in the light in autumn and winter causes depression like seasonal affective disorders (SAD) in sensitive patients, in which the serotonin (5-HT) and dopamine (DA) brain mediator systems are involved. We studied the interaction of the 5-HT and DA brain systems in an experimental SAD model in sexually mature male mice of the congenic B6-1473C and B6-1473G lines with high and low activity of tryptophan hydroxylase 2, a key enzyme of 5-HT synthesis in the brain. Mice of each line (divided into two groups of eight individuals) were kept for 30 days in standard (14 h light/10 h dark) and short (4 h light/20 h dark) daylight. The presence of the C1473G variant in the tryptophan hydroxylase 2 gene did not affect the expression of key genes of DA system: Drd1, Drd2, Scl6a3, Th, and Comt, that encode the D1 and D2 receptors, dopamine transporter, tyrosine hydroxylase, and catechol-o-methyltransferase, respectively. A decrease in the level of DA in the midbrain, as well as of its metabolite 3,4-dihydroxyphenylacetic acid (DOPAC) in the striatum, was detected in B6-1473G mice. Keeping mice in short daylight did not affect expression of the Drd1 gene in all brain structures nor the expression of the Slc6a3 and Th genes in the midbrain. Drd2 expression increased in the midbrain and decreased in the hippocampus, where Comt expression increased. An increase in DA level in the midbrain and DOPAC in the striatum was detected in mice kept in short daylight. This indicates the involvement of the brain's DA system in the reaction to a decrease in daylight duration. No statistically significant effect of the interaction between the presence of the C1473G variant and daylight length on indicators of the activity of DA system was detected. No reasons were found to assert that this polymorphism determines the observed reaction of the brain DA system in keeping of animals under short daylight conditions.

Effect of Photoperiod and Lethal Yellow Mutation on Depression-Like Behavior and Expression of Proinflammatory Cytokines in the Hypothalamus in Mice.

We studied the influence of obesity caused by lethal yellow (AY) mutation in the agouti gene, short photoperiod (4/20 h light/darkness), and combination of these factors on depressive-like behavior in the forced swimming test and expression of genes encoding proinflammatory cytokines in the hypothalamus of heterozygous male C57Bl/6-AY/a mice and their wild-type littermate controls (C57Bl/6-a/a). It was shown that AY mutation as well as short photoperiod increased depressive-like behavior in mice. No effect of the interaction of AY mutation and photoperiod on immobility in the forced swimming test was revealed. In wild-type mice, increased depressive-like behavior caused by short photoperiod was accompanied by enhanced expression of Tnf gene. Exposure to short daylight increased the expression of Nos2.

Effects of Fluoxetine and Potential Antidepressant 8-Trifluoromethyl 1,2,3,4,5-Benzopentathiepin-6-Amine Hydrochloride (TC-2153) on Behavior of Danio rerio Fish in the Novel Tank Test and Brain Content of Biogenic Amines and Their Metabolites.

We compared the effect of a new potential antidepressant 8-trifluoromethyl 1,2,3,4,5-benzopentathiepine-6-amine hydrochloride (TC-2153) and classical antidepressant fluoxetine in a dose of 0.25 mg/liter on the behavior of Danio rerio in the "novel tank" test and content of biogenic amines and their metabolites in the brain. Fluoxetine alone and TC-2153 alone significantly increased the time spent in the upper part of the tank and insignificantly reduced motor activity. Combined exposure of fishes in the solution containing potential and classical antidepressants potentiated their effects on both parameters. The compounds did not affect brain contents of serotonin, dopamine, and norepinephrine. At the same time, fluoxetine, but not TC-2153, reduced brain content of the main serotonin metabolite 5-hydroxyindole acetic acid.

[Limb-shaking transitory ischaemic attack in a patient with subocclusion of the internal carotid artery]. / Tranzitornaia ishemicheskaia ataka «limb shaking¼ u bol'nogo s subokkliuziei vnutrennei sonnoi arterii.

Described in the article is a clinical case report concerning symptomatic subocclusion of the internal carotid artery in a male patient with a rare variant of recurrent limb-shaking transitory ischaemic attacks (LS-TIA). The patient presented with a three-month history of episodes of involuntary jerky movements in his left hand. These episodes occurred invariably on assuming a vertical position. The findings of duplex scanning revealed subocclusion of the right internal carotid artery. The patient was subjected to stenting with the use of the system of proximal cerebral protection. The postoperative period was complicated by the development of cerebral hyperperfusion syndrome the risk of which in patients with LS-TIA is known to be elevated. Via telephone interviewing carried out at 1, 6 and 12 months after the intervention, the patient confirmed that the episodes of hand shaking did not recur. This case report highlights the importance of accurately assessing the clinical findings while selecting patients for carotid revascularization, since such ischaemic episodes are strongly suggestive of a severe lesion of the contralateral carotid artery. Once subocclusion is revealed, it is optimal to perform stenting with the use of a system of proximal protection, as a safer and more effective method of surgical revascularization in such conditions.

Effect of microgravity on glial cell line-derived neurotrophic factor and cerebral dopamine neurotrophic factor gene expression in the mouse brain.

UNLABELLED: Mice were exposed to 1 month of space flight on the Russian biosatellite BION-M1 to determine its effect on the expression of genes involved in the maintenance of the mouse brain dopamine system. The current article focuses on the genes encoding glial cell line-derived neurotrophic factor (GDNF) and cerebral dopamine neurotrophic factor (CDNF). Space flight reduced expression of the GDNF gene in the striatum and hypothalamus but increased it in the frontal cortex and raphe nuclei area. At the same time, actual space flight reduced expression of the gene encoding CDNF in the substantia nigra but increased it in the raphe nuclei area. To separate the effects of space flight from environmental stress contribution, we analyzed expression of the investigated genes in mice housed for 1 month on Earth in the same shuttle cabins that were used for space flight and in mice of the vivarium control group. Shuttle cabin housing failed to alter the expression of the GDNF and CDNF genes in the brain structures investigated. Thus, actual long-term space flight produced dysregulation in genetic control of GDNF and CDNF genes. These changes may be related to downregulation of the dopamine system after space flight, which we have shown earlier. © 2015 Wiley Periodicals, Inc. SIGNIFICANCE: Our results provide the first evidence of microgravity effects on expression of the GDNF and CDNF neurotrophic factor genes. A considerable decrease in mRNA level of GDNF and CDNF in the nigrostriatal dopamine system was found. Because both GDNF and CDNF play a significant role in maintenance and survival of brain dopaminergic neurons, we can assume that this dysregulation in genetic control of GDNF and CDNF genes in substantia nigra could be among the reasons for the deleterious effects of space flight on the dopamine system.

[Comparison of behavioral effects of fluoxetine, imipramine and new psychotropic drug TC-2153 on mice with hereditary predisposition to catalepsy].

Behavioral effects of classic antidepressants, fluoxetine and imipramine, and new psychotropic benzopentathiepin TC-2153 (20 mg/kg, per os) were studied on mice differing in the predisposition to catalepsy-noncataleptic AKR strain and cataleptic strains CBA and AKR.CBA-D13Mit76 (D13). Mice of D13 strain was created by transferring the CBA-allele of major locus of catalepsy to AKR genome. In the forced swim test (FST) fluoxetine showed antidepressant effect on mice of all three strains, imipramine was effective only in D13 mice, while TC-2153 produced antidepressant effect on AKR and D13 mice. Unlike to imipramine and fluoxetine, TC-2153 did not produce negative side effects in the open field and elevated plus-maze tests. Thus, TC-2153 produces antidepressant effects similar to imipramine and fluoxetine, without any visible negative side effect on locomotory activity and anxiety. The D13 mice in the FST showed high sensitivity to the studied drugs in comparison to the parent strains and can be used as new genetic model for investigation of the mechanism of antidepressant effects.

[Serotonin and dopamine brain metabolism in mice with different predisposition to catalepsy].

Catalepsy usually is caused by imbalance of dopamine (DA) and serotonin (5-HT) systems of brain. The aim of our work was to verify if this imbalance plays an important role in the mechanism of hereditary catalepsy in mice. Maintenance of DA, 5-HT and their main metabolites--5-hydroxyindoleacetic acid, 3,4-dihydroxyphenylacetic acid, homovanilic acid was determined in cortex, hypothalamus, hippocampus, striatum, substantia nigra and nuclei raphes in catalepsy-resistant AKR/J mice strain and catalepsy-prone CBA/LacJ mice strain and recombinant mice AKR/J.CBA-D13Mit76 (D13) strain. The latest strain was selected by transferring of a fragment of the chromosome 13 from CBA/LacJ carrying the main gene of hereditary catalepsy to AKR/J genome. There were no interstrain differences in concentration of biogenic amines and their metabolites in all brain regions. As a result of our work the hypothesis about the important role of 5-HT and/or DA systems of brain in the mechanism of hereditary catalepsy in mice was denied.

Dopamine receptors and key elements of the neurotrophins (BDNF, CDNF) expression patterns during critical periods of ontogenesis in the brain structures of mice with autism-like behavior (BTBR) or its absence (С57BL/6 J).

Analysis of the mechanisms underlying autism spectrum disorder (ASD) is an urgent task due to the ever-increasing prevalence of this condition. The study of critical periods of neuroontogenesis is of interest, since the manifestation of ASD is often associated with prenatal disorders of the brain development. One of the currently promising hypotheses postulates a connection between the pathogenesis of ASD and the dysfunction of neurotransmitters and neurotrophins. In this study, we investigated the expression of key dopamine receptors (Drd1, Drd2), brain-derived neurotrophic factor (Bdnf), its receptors (Ntrkb2, Ngfr) and the transcription factor Creb1 that mediates BDNF action, as well as cerebral dopamine neurotrophic factor (Cdnf) during the critical periods of embryogenesis (e14 and e18) and postnatal development (p14, p28, p60) in the hippocampus and frontal cortex of BTBR mice with autism-like behavior compared to the neurotypical C57BL/6 J strain. In BTBR embryos, on the 14th day of prenatal development, an increase in the expression of the Ngfr gene encoding the p75NTR receptor, which may lead to the activation of apoptosis, was found in the hippocampus and frontal cortex. A decrease in the expression of Cdnf, Bdnf and its receptor Ntrkb2, as well as dopamine receptors (Drd1, Drd2) was detected in BTBR mice in the postnatal period of ontogenesis mainly in the frontal cortex, while in the hippocampus of mature mice (p60), only a decrease in the Drd2 mRNA level was revealed. The obtained results suggest that the decrease in the expression levels of CDNF, BDNF-TrkB and dopamine receptors in the frontal cortex in the postnatal period can lead to significant changes in both the morphology of neurons and dopamine neurotransmission in cortical brain structures. At the same time, the increase in p75NTR receptor gene expression observed on the 14th day of embryogenesis, crucial for hippocampus and frontal cortex development, may have direct relevance to the manifestation of early autism.

[Effect of new potential psychotropic drug, 8-(trifluoromethyl)-1,2,3,4,5-benzopentathiepin-6-amine hydrochloride, on the expression of serotonin-related genes in mouse brain].

Study of molecular mechanisms of psychotropic drug action is the main aim of molecular psychopharmacology. New synthetic analog of variacin 8-(Trifluoromethyl)-1,2,3,4,5-benzopentathiepin-6-amine (TX-2153) was shown to produce anxiolytic and anticonvulsant effects on mice. Here the effect of chronic administration of TX-2153 on expression of some serotonin-related genes in mouse brain was investigated. The drug (10 mg/kg, per os, 16 days) was administered to adult males of ASC (Antidepressant Sensitive Catalepsy) mouse strain characterizing by alterations in behavior and brain serotonin system. The expression of genes encoding 1) the key enzyme of serotonin synthesis, tryptophan hydroxylase 2 (TPH2), 2) main enzyme of serotonin degradation, monoamine oxydase A (MAOA), 3) 5-HT transporter (SERT) and 4) 5-HT(1A) receptor was studied using quantitative RT-PCR. TX-2153 significantly reduced m-RNA level of 5-HT(1A) receptor and MAOA genes in the midbrain without any effect on expression of these genes in the frontal cortex and hippocampus. The drug failed to affect expression of TPH2 and SERT genes in the midbrain. The result indicates involvement of the brain 5-HT system in the molecular mechanism underlying the effect of TX-2153.

[Effect of genotype and emotional stress on hygienic grooming in inbred mice].

Body care behavior (grooming) is an adaptation aimed at removing litter particles, pathogenic microbes and parasites from animal fur and skin. Moreover, it serves as an indicator of animal health. It was observed that chronic stress suppressed fur cleaning. In this article, a technique of direct measurement of fur cleaning using the cleaning dynamics of a fluorescent spot applied on animal's back is described. Significant effects of genotype and emotional stress on the dynamics of fur cleaning are shown. Mice of C57BL/6, CBA and CC57BR strains clean green fluorescent spot rapidly (1-2 h) whereas animals of AKR strain clean it slowly (up to 24 h). Behavioral restriction for 30 min substantially reduced fur cleaning in AKR, CBA and CC57BR, but not in C57BL/6. The stress-induced attenuation of Hygienic grooming is a new index of sensitivity (resistance) to stress.

Inhibitor of Striatal-Enriched Protein Tyrosine Phosphatase, 8-(Trifluoromethyl)-1,2,3,4,5-Benzopentathiepin-6-Amine hydrochloride (TC-2153), Produces Antidepressant-Like Effect and Decreases Functional Activity and Protein Level of 5-HT2A Receptor in the Brain.

The serotoninergic 5-HT2A receptor is involved in the mechanism of depression and antidepressant drugs action. Earlier we showed that striatal-enriched protein tyrosine phosphatase (STEP) inhibitor - 8-(trifluoromethyl)-1,2,3,4,5-benzopentathiepin-6-amine hydrochloride (TC-2153) affects both the brain serotoninergic system and the brain-derived neurotropic factor that are known to be involved in the psychopathology of depression. In the present study we investigated the effects of chronic TC-2153 administration on behavior in the standard battery of tests as well as the effects of acute and chronic TC-2153 treatment on the brain 5-HT2A receptors in mice. We obtained a prominent antidepressant-like effect of chronic TC-2153 treatment in the forced swim test without any adverse side effects on locomotor activity, anxiety, exploration, motor skill and obsessive-compulsive-like behavior. Moreover, both acute and chronic TC-2153 administration inhibited the functional activity of 5-HT2A receptors estimated by the number of 2,5-dimethoxy-4-iodoamphetamine (DOI, agonist of 5-HT2A receptors)-induced head-twitches. TC-2153 treatment also attenuated the DOI-induced c-fos expression in cortical and hippocampal neurons and reduced the 5-HT2A receptor protein level in the hippocampus and frontal cortex, but not in the striatum. Taken together, our combined data demonstrate that the antidepressant effect of STEP inhibitor TC-2153 could be mediated by its inhibitory properties towards the 5-HT2A receptor-mediated signaling.

The effect of long-term hindlimb unloading on the expression of risk neurogenes encoding elements of serotonin-, dopaminergic systems and apoptosis; comparison with the effect of actual spaceflight on mouse brain.

The study of spaceflight effects on the brain is technically complex concern; complicated by the problem of applying an adequate ground model. The most-widely used experimental model to study the effect of microgravity is the tail-suspension hindlimb unloading model; however, its compliance with the effect of actual spaceflight on the brain is still unclear. We evaluated the effect of one month hindlimb unloading on the expression of genes related to the brain neuroplasticity-brain neutotrophic factors (Gdnf, Cdnf), apoptotic factors (Bcl-xl, Bax), serotonin- and dopaminergic systems (5-HT2A, Maoa, Maob, Th, D1r, Comt), and compared the results with the data obtained on mice that spent one month in spaceflight on Russian biosatellite Bion-M1. No effect of hindlimb unloading was observed on the expression of most genes, which were considered as risk neurogenes for long-term actual spaceflight. The opposite effect of hindlimb unloading and spaceflight was found on the level of mRNA of D1 dopamine receptor and catechol-O-methyltransferase in the striatum. At the same time, the expression of Maob in the midbrain decreased, and the expression of Bcl-xl genes increased in the hippocampus, which corresponds to the effect of spaceflight. However, the hindlimb unloading model failed to reproduce the majority of effects of long-term spaceflight on serotonin-, dopaminergic systems and some apoptotic factors.

Alteration of the brain morphology and the response to the acute stress in the recombinant mouse lines with different predisposition to catalepsy.

Catalepsy is an inability to correct an externally imposed awkward posture; it is associated with schizophrenia and depression in human. We created new recombinant B6.CBA-D13Mit76C and B6.CBA-D13Mit76B mouse lines on the C57Bl/6 genome, carrying the 102.73-110.56Mbp fragment of chromosome 13 derived from the catalepsy-prone CBA strain and catalepsy-resistant C57BL/6 strain, respectively. We compared the behavior and brain morphology (11.7T BioSpec 117/16 USR tomograph, Germany) in these lines. The effects of acute emotional stress on corticosterone's level in the blood and mRNA expression of Bdnf and Arc genes in the brain were investigated. The B6.CBA-D13Mit76B mice were non-cataleptic, while about 17% of B6.CBA-D13Mit76C mice demonstrated catalepsy-like immobility. No difference between these lines was revealed in the open field and social interaction tests. In the Morris water maze test, both lines effectively found the platform on the fourth day; however B6.CBA-D13Mit76B mice achieved significantly better results than cataleptic-prone animals. B6.CBA-D13Mit76C mice were characterized by decreased volume of the total brain and reduced sizes of striatum, cerebellum and pituitary gland. The both lines showed the similar basal and stress-induced levels of corticosterone, while the brain expression of Bdnf and Arc genes was more vulnerable to stress in the catalepsy-prone B6.CBA-D13Mit76C line.

[Molecular diagnosis and frequencies of primary hypolactasia in populations of RUSSIA and neighboring countries].

The digestion of the milk sugar (lactose) is observed every normal child but not in every adult. The decreased lactase synthesis in some adults results in problems with digestion of the whole milk (primary hypolactasy). An association of lactase activity in adults with carrying of the allele T within the polymorphism C/T-13910 located upstream of the lactase gene and 100% association of hypolactasy with the genotype C/C has recently been shown for a Finnish sample. In the present work we determined the LCT* C/T_13910 genotypes and allele frequencies in populations from Russia. The genotype C/C frequencies varied from 36.6% for Russians to 88.2% for Chukchi and were close to the published medical and epidemiological data on hypolactasy frequencies in respective populations. Genotyping was performed by three different methods to identify the optimal one. Our results have shown that the studied locus is the key determinant for the primary hypolactasy development in various human populations. Consequently, the DNA diagnostics of the C/C genotype carrying is a promising predictive test to detect the primary hypolactasy long before its clinical development. Practical application of this type of diagnostics would be a step towards the individual-oriented medicine.

Interplay between aggression, brain monoamines and fur color mutation in the American mink.

Domestication of wild animals alters the aggression towards humans, brain monoamines and coat pigmentation. Our aim is the interplay between aggression, brain monoamines and depigmentation. The Hedlund white mutation in the American mink is an extreme case of depigmentation observed in domesticated animals. The aggressive (-2.06 ± 0.03) and tame (+3.5 ± 0.1) populations of wild-type dark brown color (standard) minks were bred during 17 successive generations for aggressive or tame reaction towards humans, respectively. The Hedlund mutation was transferred to the aggressive and tame backgrounds to generate aggressive (-1.2 ± 0.1) and tame (+3.0 ± 0.2) Hedlund minks. Four groups of 10 males with equal expression of aggressive (-2) or tame (+5) behavior, standard or with the Hedlund mutation, were selected to study biogenic amines in the brain. Decreased levels of noradrenaline in the hypothalamus, but increased concentrations of the serotonin metabolite, 5-hydroxyindoleacetic acid and dopamine metabolite, homovanillic acid, in the striatum were measured in the tame compared with the aggressive standard minks. The Hedlund mutation increased noradrenaline level in the hypothalamus and substantia nigra, serotonin level in the substantia nigra and striatum and decreased dopamine concentration in the hypothalamus and striatum. Significant interaction effects were found between the Hedlund mutation and aggressive behavior on serotonin metabolism in the substantia nigra (P < 0.001), dopamine level in the midbrain (P < 0.01) and its metabolism in the striatum (P < 0.05). These results provide the first experimental evidence of the interplay between aggression, brain monoamines and the Hedlund mutation in the American minks.