The Epac protein inhibitor ESI-09 eliminates the tonic phase of aorta contraction induced by endogenic vasoconstrictors in rats

It has been shown that the Epac1 and Epac2 protein inhibitor ESI-09 has no effect on the amplitude of contraction of aortic rings caused by the influence of serotonin, noradrenaline, or KCl depolarizing solution, but changes the kinetics of the contractile response. It was noted that in the presence of ESI-09 the curve of the relaxation phase in intact and deendothelized vessels moved to the left under the impact of serotonin or KCl and the phase of prolonged tonic contraction, which developed after the exposure to noradrenalin, was canceled. It was found that ESI-09 exerted different effects on the induced growth in the concentration of cytoplasmic Ca²⁺ in the aortic smooth muscle cells of rats depending on the agonist, whereas the selective inhibitor Epac2 ESI-05 has no effect on vascular contractility and calcium metabolism in the aortic smooth muscle of rats. The cAMP-independent participation of Epac1 in the formation of the contractile response to the influence of vasoconstrictor compounds was revealed.     

Effects of manganese on potassium outflow from erythrocytes and on respiration of rat liver mitochondria

In this work, effects of manganese on respiration of rat liver mitochondria and the rate of K⁺ outflow from rat erythrocytes are studied in a broad range of concentrations. It is shown that manganese ions at low concentrations (1 × 10^–7–3 × 10^–5 М) inhibit K⁺ outflow from rat erythrocytes; this can be used to prevent their lysis. At high concentrations (1 × 10^–4–1 × 10^–3 M), manganese activates K⁺ outflow from the erythrocytes but inhibits the valinomycin-induced outflow of the ion from the erythrocytes. This fact is an indication of manganese influence on physicochemical properties of membranes. At low concentrations manganese does not affect parameters of respiration and oxidative phosphorylation of rat liver mitochondria, while at high concentrations it exerts acceleration of the mitochondrial respiration, i.e., uncouples respiration from phosphorilation and, hence, inhibits ATP synthesis.     

Search for genes influencing the maintenance of the [<Emphasis Type="Italic">ISP</Emphasis><Superscript>+</Superscript>] prion-like antisuppressor determinant in yeast with the use of an insertion gene library

The prion-like determinant [ISP ⁺] manifests itself as an antisuppressor of certain sup35 mutations. To establish that [ISP ⁺] is indeed a new yeast prion, it is necessary to identify the gene that codes for the protein whose prion form is [ISP ⁺]. Analysis of the transformants obtained by transformation of an [ISP ⁺] strain with an insertion gene library revealed three genes controlling the [ISP ⁺] maintenance: UPF1, UPF2, and SFP1. SFP1 codes for a potentially prionogenic protein, which is enriched in Asn and Gln residues, and is thereby the most likely candidate for the [ISP ⁺] structural gene. UPF1 and UPF2 code for components of nonsense-mediated mRNA decay. The [ISP ⁺] elimination caused by UPF1 and UPF2 inactivation was reversible, and Upf1p and Upf2p were not functionally related to phosphatase Ppz1p, which influences the [ISP ⁺] manifestation. Possible mechanisms sustaining the influence of UPF1 and UPF2 on [ISP ⁺] maintenance are discussed.     

Effect of hypoxen on bioenergetic processes in mitochondria and activity of ATP-sensitive potassium channel

The effect of Hypoxen (HX) on bioenergetic processes in the mitochondria of heart and liver of rats connected with respiration, generation of hydrogen peroxide and activity of ATP-sensitive K-channel (mitoKATP) has been studied. It is shown that HX in the range of 0.05–10 μg/mL stimulates respiration, increases the coupling in the respiratory chain, and increases the formation of H₂O₂ and energy-dependent swelling associated with potassium transport in mitochondria. HX removes the inhibitory effect of ATP on the energy-dependent swelling of mitochondria and partially reduces the accumulation of H₂O₂ in the presence of ATP. The role of antihypoxic and antioxidant action of HX associated with the activation of mitoK_ATP is discussed.     

A systems approach to morphogenesis in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis>: I. AGNS database

In systems biology, study of a complex and multicomponent system, such as morphogenesis, comprises accumulation of data on morphogenetic processes in databases, classification and logical analysis of this information, and computer simulation of the processes in question using the data accumulated and the results of their analysis. This paper describes realization of the first steps in a systems study of morphogenesis (annotating research papers, compiling information in a database, data systematization, and their logical analysis) by the example of Arabidopsis thaliana, a model object in plant molecular biology. The database AGNS (Arabidopsis GeneNet Supplementary; http://wwwmgs.bionet.nsc.ru/agns) contains the experimentally confirmed information from published papers on specific features of gene expression and phenotypes of wild-type, mutant, and transgenic A. thaliana plants. AGNS queries and logical data analysis with the aid of specially developed software makes it possible to model various morphogenetic processes from gene expression to functioning of gene networks and their contribution to the development of certain traits.     

The extrahypothalamic level of the hypophyseal-adrenocortical system regulation appears to be involved in development of different types of depression-like state in rats

Possible role of extrahypothalamic corticotrophin-releasing hormone (CRH) and vasopressin-producing centers in post-stress depression development were studied. We used genetically selected strains: KHA (Koltushi High Avoidance) and KLA (Koltushi Low Avoidance) rats developing different types of depression in the "learned helplessness" paradigm: the model analogues of endogenous (KHA strain) and exogenous (KLA strain) depression. Interstrain differences of control and stress-induced CRH- and vasopressin-expression in hippocampus and neocortex in the course of depression development in KHA and KLA rats were revealed using immuno-histochemical studies. It has been shown that a significant increase of CRH- and vasopressin-immune reactivity in hippocampus and neocortex of KHA rats occurred on the 10th post-stress day. We detected also decreased CRH- and vasopressin-expression in dorsal hippocampus, and increased CRH-immune reactivity in neocortex of KLA rats in the same post-stress period. These findings imply that extrahypothalamic CRH- and vasopressin-ergic systems appear to be involved in pathogenesis mechanisms of model analogues of endogenous and exogenous depression in different ways.     

A systems approach to morphogenesis in Arabidopsis thaliana: II. Modeling the regulation of shoot apical meristem structure

Two models of the mechanism maintaining a zonal structure in the shoot apical meristem (SAM) were built based on the analysis of experimental data on the interactions between CLV1, CLV2, CLV3, and WUS genes and the concepts of their role in this mechanism. The first model, a simple one-dimensional model with two morphogens, which is a variant of Wolpert’s French flag model [1], describes the regulation of zone distribution along the SAM vertical axis. Despite a number of simplifications, this model has stationary solutions with biologically meaningful interpretation. The simplifying assumptions were successively abandoned in constructing a two-dimensional model of the mechanism underlying the regulation of SAM structure. This model provides a better understanding of the distributed system that regulates the SAM structure, and allows more detailed formalization of the modern concepts and experimental data concerning this mechanism.