Angiogenin as a Possible Mediator of Macrophage-Mediated Regulation of Fibroblast Functions.

We studied angiogenin production by human macrophages and evaluated the role of this factor in the macrophage-mediated regulation of fibroblasts. All macrophage subtypes, and especially the efferocytosis-polarized macrophages, M2(LS), actively produced angiogenin. Exogenous recombinant angiogenin dose-dependently enhanced the proliferation and differentiation of dermal fibroblasts. The addition of the angiogenin inhibitor to fibroblasts cultures suppressed the stimulating effect of exogenous angiogenin or M2(LS) conditioned media. These findings indicate the involvement of angiogenin in the macrophage-mediated paracrine regulation of skin fibroblasts.

[Anthocyanins as functional food components]. / Антоцианы как компоненты функционального питания.

Among the natural pigments, anthocyanins are assumed to represent one of the most studied groups. Starting with the first studies on the physicochemical properties of anthocyanins carried out in the 17th century by British naturalist Robert Boyle, the science about these unique compounds has progressed substantially. To date, the structure and functions of anthocyanins in plant cells have been well studied, and the pathway of their biosynthesis is one of the most fully characterized pathways of secondary metabolite biosynthesis at both the biochemical and genetic levels. Along with these fundamental achievements, we are beginning to realize the potential of anthocyanins as compounds of industrial importance, as pigments themselves, as well as components of functional food that contribute to the prevention and reduction of risk of chronic diseases. For a long time, the biological activity of anthocyanins has been underestimated, in particular, due to the data on their low bioavailability. However, studies showed that in humans and animals, these compounds are actively metabolized and the bioavailability, estimated taking into account their metabolites, exceeded 12 %. It has been experimentally shown that anthocyanins have antioxidant, anti-inflammatory, hypoglycemic, antimutagenic, antidiabetic, anti-cancer, neuroprotective properties, and they are beneficial for eye health. However, the studies conducted cannot always explain the molecular mechanism of action of anthocyanins in the human body. According to some reports, the observed effects are not due to the action of anthocyanins themselves, but to their metabolites, which can be more biologically active because of their increased bioavailability. Other data ascribe the positive effect on human health not to individual anthocyanins, but to the whole complex of polyphenolic compounds consumed. The review summarizes the results of the studies of anthocyanins as components of functional food. Special attention is paid to genetic control of the pigment synthesis. These data are of particular importance in respect to the initiated breeding programs aimed at increasing the content of anthocyanins in cultural plants.

Restoration of Parkinson's Disease-Like Deficits by Activating Autophagy through mTOR-Dependent and mTOR-Independent Mechanisms in Pharmacological and Transgenic Models of Parkinson's Disease in Mice.

We studied the possibilities of inhibition of neurodegeneration in MPTP-induced model of Parkinson's disease (PD) in C57Bl/6J mice and transgenic model of early PD stage (5-monthold B6.Cg-Tg(Prnp-SNCA*A53T)23Mkle/J mice) by autophagy activation through mTOR-dependent and mTOR-independent pathways with rapamycin and trehalose, respectively. Therapy with autophagy inducers in a "postponed" mode (7 days after MPTP intoxication) restored the expression of the dopaminergic neuron marker tyrosine hydroxylase and markedly improved cognitive function in the conditioned passive avoidance response (CPAR; fear memory). The transgenic model also showed an increase in the expression of tyrosine hydroxylase in the nigrostriatal system of the brain. An enhanced therapeutic effect of the combined treatment with the drugs was revealed on the expression of tyrosine hydroxylase, but not in the CPAR test. Thus, activation of both pathways of autophagy regulation in PD models with weakened neuroinflammation can restore the dopaminergic function of neurons and cognitive activity in mice.

Influence of Secretome of Different Functional Phenotypes of Macrophages on Proliferation, Differentiation, and Collagen-Producing Activity of Dermal Fibroblasts In Vitro.

We studied the effect of conditioned media of GM-CSF-differentiated human macrophages polarized in M1(LPS), M2a(IL-4), M2c(dexamethasone), and M2(low serum) phenotypes on proliferation, differentiation, and collagen-producing activity of dermal fibroblasts. It was found that M1(LPS) and M2a(IL-4) were characterized by moderate influence on functional activity of fibroblasts. At the same time, soluble factors of M2c(dexamethasone) significantly enhanced the proliferative response of fibroblasts, but not their differentiation and type I collagen production. On the contrary, M2(low serum) generated under conditions of growth factors deficiency had a pronounced stimulating effect on the differentiation of fibroblasts and production of type I collagen by these cells, but moderately stimulated the fibroblast proliferation. Thus, the secretory activity of various functional phenotypes of macrophages is an important mechanism of fibrogenesis regulation.

Efferocytosis Modulates Arginase-1 and Tyrosine Kinase Mer Expression in GM-CSF-Differentiated Human Macrophages.

We studied the expression of arginase-1 (Arg1) and tyrosine kinase Mer (MerTK) in GMCSF-differentiated human macrophage populations М0, М1(IFNγ), М2а(IL-4), and М2(low serum) generated under conditions of growth/serum factor deficiency. The maximum relative content of Arg1+ and MerTK+ cells was found in М2 macrophage populations: М2а(IL-4) and М2(low serum). As the uptake of apoptotic cells is the key mechanism of M2 polarization during M2(low serum) generation, we performed a special series of experiments and showed that incubation with allogeneic apoptotic neutrophils significantly increased the percentages of CD206+ macrophages co-expressing Arg1 and MerTK.

Content of Peripheral Blood T- and B-Cell Subpopulations in Transgenic A53T Mice of Different Age (A Model of Parkinson's Disease).

We analyzed the behavior and peripheral blood T- and B-cell subpopulations in mice overexpressing the mutant form of human α-synuclein (A53T) in comparison with mice of the wild type (WT) parent C57BL/6J strain. Behavioral phenotype and the content of various cell subpopulations of A53T mice depended on animal age. Young (2-month-old mice) were characterized by low emotionality and the most pronounced changes in cell subpopulation composition (an increase in CD3+T cells and CD4+T helper cells, a decrease in CD19+B cells along with unchanged content of CD3+CD4+CD25+T-regulatory cells and CD19+CD25+B-regulatory cells). In old A53T mice (10-month-old), movement impairments appeared and increased numbers of CD4+T helper cells and CD3+CD4+CD25+T-regulatory cells were revealed.

Allostimulatory activity as a criterion of the functional phenotype of human macrophages.

The functional phenotype of macrophages (Mφ) is determined by both differentiation factors and polarization stimuli. In mouse Mφ could be easily divided into the distinct Mφ subtypes. However, the identification of human M1 and M2 cells is much more difficult due to the lack of M1- or M2-specific markers. We assumed that the Mφ capacity to induce T cell proliferation in mixed leukocyte culture, or allostimulatory activity, may be a marker of Mφ functional phenotype. We compared the allostimulatory activity of Mφ differentiated with GM-CSF or M-CSF and polarized into M1, M2a, M2c subtypes using appropriate stimuli. GM-CSF-differentiated M1 Mφ showed pronounced allostimulatory activity whereas the polarization into M2a and M2c of GM-CSF-differentiated Mφ was associated with decreased allostimulatory activity. M-CSF-differentiated M1 Mφ demonstrated the moderate increasing of allostimulatory activity but its level has never reached that of GM-CSF-activated M1. The level of allostimulatory activity of M2a and M2c M-CSF-induced Mφ was comparable to that of GM-CSF-induced M2a and M2c Mφ. Thus, low allostimulatory activity is a common property of human M2a and M2c macrophages regardless of the differentiating factor and a polarizing stimulus and can be used to distinguish between M1 and M2 phenotypes.

[Developmental Aspects of Senescence].

Different types of senescence and major theories of aging are reviewed, and mechanisms of this complex biological phenomenon are discussed. Emphasis is placed on changes in the nervous systems of mammals and humans with age. Experimental animal models for studying aging and modern approaches to the correction of age-related deterioration are considered. Chemicals and other factors that may alleviate age-related disorders and slow down senescence are critically reviewed.

Effect of Antidepressants on Immunological Reactivity in ASC Mice with Genetically Determined Depression-Like State.

The effect of chronic treatment with antidepressant drugs fluoxetine (20 mg/kg) and imipramine (25 mg/kg) on the number of antibody-producing cells and the main T cell subpopulations in ASC mice characterized by genetic predisposition to depression-like states was studied at the peak of the SE-induced immune response (5×10(8)). Fluoxetine produced an immunostimulatory effect manifested in an increase in the relative and absolute number of IgM antibody-producing cells in the spleen and index of immunoreactivity (CD4/CD8). Administration of fl uoxetine to parental mouse strains without depression (CBA and AKR) had no effect (CBA) or reduced the immune response. The CD4/CD8 ratio did not increase under these conditions. Imipramine was ineffective in the correction of immune reactions in a depression-like state.

The Phenotypic and Functional Features of Human M2 Macrophages Generated Under Low Serum Conditions.

The phenotypic and functional features of human M2 macrophages, in particular, their immunosuppressive activity, can considerably vary depending on M2 polarizing stimulus. This study was aimed at the investigation of cytokine production and pro-apoptogenic/inhibitory molecule expression in macrophages generated with GM-CSF using either standard conditions (M1) or deficiency of serum/growth factors (M2-LS cells). In contrast to M1, M2-LS cells were characterized by an enhanced content of CD206(+), B7-H1(+), FasL(+) and TRAIL(+) cells along with a decreased production of IFN-γ, IL-5, IL-6, IL-13, TNF-α, IL-17 and MCP-1. In addition, M2-LS exhibited a lower T cell stimulatory activity in MLC that was associated with the higher numbers of apoptotic and the lower numbers of proliferating T cells. B7-H1 plays a key role in M2-LS-mediated cytotoxic effects as the neutralization of B7-H1 reduces the apoptosis-inducing activity of M2-LS, while the blocking of CD206 and TRAIL reduces the cytostatic activity of M2 macrophages.

[A Therapeutic Target for Inhibition of Neurodegeneration: Autophagy].

The role of autophagy in cell survival and suppression of neurodegeneration was considered. We discussed its involvement in Alzheimer's, Parkinson's, and Huntington's diseases connected with accumulation of amy- loid-ß, α-synuclein, and huntingtin, respectively. Autophagy is reduced in these diseases and in aging as well to various extent. Elimination of accumulated toxic proteins and structures is performed by autophagy mech- anisms (chaperon-mediated autophagy, macroautophagy, selected autophagy) in an interaction with ubiqui- tin-proteasome system. In many cases activation of mTOR-dependent autophagy and mTOR-independent regulatory pathways lead to the therapeutic effect of inhibition of neurodegeneration in cell cultures and an- imal models. Some autophagy enhancers such as resveratrol, metformin, rilmenidine, lithium, and curcumin are tested now in clinical trials.

[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.

CCL19/CCL21-Dependent Chemotaxis of Dendritic Cells in Healthy Individuals and Patients with Brain Tumors.

We compared migration activities of IFN-α- and IL-4-induced dendritic cells (IFN-DC and IL4-DC) generated from blood monocytes of healthy donors and analyzed migration activity of IFN-DC from patients with brain tumors. In the presence of CCL19 chemokine, donor IFN-DC exhibited higher migration activity than IL4-DC, the expression of chemokine CCR7-receptor being similar in the two cell types. IFN-DC of patients with malignant gliomas were characterized by low chemotaxis in response to CCL19 and CCL21 stimulation despite a trend to higher expression of CCR7 in comparison with donor IFN-DC.

[Il6st gene mRNA and gp130 protein distribution in the brain structures in mice differing in exagerrated freezing reaction (catalepsy)].

Glycoprotein gp130 is involved in the intracellular transduction of signals from receptors ofinterleukin-6--related cytokines. The linkage between Il6st gene encoding gp130 and predisposition to excessive freezing (catalepsy) in mice was shown. The aim of present study was to investigate the Il6st mRNA concentration, the level and the rate of glycosilation of gp130 in five brain structures in catalepsy-resistant AKR/J mice strain and in catalepsy-prone CBA/LacJ, AKR.CBA-D13Mit76 with the CBA-derived Il6st gene variant in the AKR/J genome, and ASC created by selection of back-crosses between CBA and AKR strains on catalepsy. Highest concentrations of the nonglycosilated and the glycosilated gp130 protein levels were detected in the midbrain. High levels of Il6st mRNA were discovered in the midbrain, the striatum and the hypothalamus in all mouse strains. The level of Il6st mRNA in the striatum of AKR.CBA-D13Mit76 mice was significantly higher compared with AKR/J. An association between hereditary catalepsy and Il6st expression in the striatum in mice was suggested.

Effect of brain-derived neurotrophic factor on behavior and key members of the brain serotonin system in genetically predisposed to behavioral disorders mouse strains.

The effect of brain-derived neurotrophic factor (BDNF) on depressive-like behavior and serotonin (5-HT) system in the brain of antidepressant sensitive cataleptics (ASC)/Icg mouse strain, characterized by depressive-like behavior, in comparison with the parental nondepressive CBA/Lac mouse strain was examined. Significant decrease of catalepsy and tail suspension test (TST) immobility was shown 17days after acute central BDNF administration (300ng i.c.v.) in ASC mice. In CBA mouse strain, BDNF moderately decreased catalepsy without any effect on TST immobility time. Significant difference between ASC and CBA mice in the effect of BDNF on 5-HT system was revealed. It was shown that central administration of BDNF led to increase of 5-HT(1A) receptor gene expression but not 5-HT(1A) functional activity in ASC mice. Increased tryptophan hydroxylase-2 (Tph-2) and 5-HT(2A) receptor genes expression accompanied by 5-HT(2A) receptor sensitization was shown in BDNF-treated ASC but not in CBA mouse strain, suggesting BDNF-induced increase of the brain 5-HT system functional activity and activation of neurogenesis in "depressive" ASC mice. There were no changes found in the 5-HT transporter mRNA level in BDNF-treated ASC and CBA mice. In conclusion, central administration of BDNF produced prolonged ameliorative effect on depressive-like behavior accompanied by increase of the Tph-2, 5-HT(1A) and 5-HT(2A) genes expression and 5-HT(2A) receptor functional activity in animal model of hereditary behavior disorders.

[Effects of stress on corticosterone level, expression of c-Fos gene and serotonin turnover in brain in mice with genetic predisposition to catalepsy].

Freezing or catalepsy is a passive-defensive reaction to stress. The participation of brain serotonin (5-HT) in the regulation of catalepsy was shown. The major gene of predisposition to catalepsy in CBA strain was localized in a 59-70 cM fragment of chromosome 13. This fragment was transferred from the CBA strain to genome of AKR non-cataleptic strain and created AKR. CBA-D13Mit76 (D13) congenic strain. The aim of the study was to compare the effects of acute stress (restriction, 1 h) on corticosterone level in plasma, the expression of c-Fos gene (neuromarker of stress) and serotonin metabolism in the brain in AKR catalepsy-resistant strain and congenic D13 catalepsy-prone strain. The level of corticosterone was significantly lower (p < 0.001) in the stressed D13 mice compared with the stressed AKR mice. Acute stress led to increased expression of c-Fos gene in the hypothalamus and midbrain in mice of both strains. Stress increased (p < 0.05) serotonin turnover in midbrain in D13 mice, but not in AKR. Thus, the fragment of chromosome 13, containing the major gene of catalepsy, participates in the regulation of hormonal response and serotonin turnover to acute stress.

[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.

Contribution of dehydroepiandrosterone sulfate and progesterone to in vitro regulation of tolerogenic activity of IFN-α-induced dendritic cells.

Dehydroepiandrosterone sulfate and progesterone exhibited an immunomodulatory effect on the tolerogenic characteristics of IFN-α-induced dendritic cells. The hormone effects depended on the initial level of allostimulatory activity of dendritic cells in mixed lymphocyte culture. However, dehydroepiandrosterone sulfate significantly more often stimulated allostimulatory activity by attenuating the tolerogenic properties of dendritic cells, while progesterone potentiated their tolerogenic potential. The capacity of the hormones (dehydroepiandrosterone sulfate and progesterone) to attenuate tolerogenic activity of dendritic cells was associated with reduction of FasL expression on these cells, while the increase in tolerogenic activity was associated with the increase in the percentage of CD123(+) dendritic cells, and under conditions of modification with dehydroepiandrosterone sulfate it was associated with increased B7-H1 expression. Possible contribution of indolamine-2,3-dioxygenase and prostaglandin E2 to stimulation of tolerogenic characteristics of dendritic cells modified with dehydroepiandrosterone sulfate and progesterone, respectively, was demonstrated.

Effects of chronic fluoxetine treatment on catalepsy and the immune response in mice with a genetic predisposition to freezing reactions: the roles of types 1A and 2A serotonin receptors and the tph2 and SERT genes.

ASC (Antidepressant-Sensitive Catalepsy) mice, bred for a high predisposition to catalepsy, are characterized by depression-like behavior and decreased immune responses. Chronic administration of fluoxetine, which is a selective serotonin reuptake inhibitor antidepressant widely used in clinical practice, to mice of this strain weakened catalepsy and normalized the number of rosette-forming cells in the spleen. In mice of the parental cataleptic strain CBA/Lac, fluoxetine had no effect on the level of catalepsy or the immune response. Analysis of the effects of fluoxetine on the functional activity of 5-HT(1A) and 5-HT(2A) receptors, and the expression of 5-HT(1A) receptor genes in the frontal cortex and midbrain and 5-HT(2A) receptors in the frontal cortex, as well as the tryptophan hydroxylase-2 and the serotonin transporter genes in the midbrain showed that the antidepressant had no effect on these parameters in ASC mice, but decreased the functional activity of 5-HT(2A) receptors in CBA/Lac mice. The possibility that the actions of fluoxetine on catalepsy and the immune response in mice with depression-like states are mediated via other serotoninergic mechanisms is discussed.

[Effects of chronic fluoxetine treatment on manifestation of sexual motivation and social behavior in mice of ASC line].

Sexual dysfunctions are the typical symptoms accompanying depressive disorders. However antidepressants which improve general state of the patients have no effect on sexual disorders. Mice of ASC (Antidepressant Sensitive Catalepsy) line with high hereditary predisposition to catalepsy were proposed as a model of genetically associated depressive-like condition. The work was aimed at comparison of behavioral indices of sexual motivation and social interest of ASC mice with those of mice of parental inbred AKR and CBA strains, and at the study of the effects of chronic fluoxetine treatment in doses of 10 and 20 mg/kg on these parameters in ASC mice. ASC males demonstrated reduced sexual motivation which was not corrected by fluoxetine. ASC mice did not differ in the expression of social interest and aggression towards juvenile intruder from mice of parental strains. Fluoxetine failed to alter social behavior of ASC mice in social interaction test but its higher dose decreased percentage of aggressors. ASC mouse line seems to be a perspective model to study genetic mechanisms of sexual dysfunctions associated with depressive conditions.