Effect of steroid hormones and oxytocin on NO and H2O2 production in the endometrium

The time and concentration regularities of influence of based estrogens (estrone), hystogenes (progesterone) and their analogs (ecdysterone and diethylstilbestrole) on production of NO and H2O2 by endometrium stroma cells. The level of NO2- in the cell suspension was determined on Grees reactive response, and H2O2 by permanganate measurements in paravariation with the use of horse-radisch peroxidase. It is supposed, that the studied steroids in the experiment conditions affect both the constitutive enzyme systems (membrane or nongenomic phase of activity), and the level of a gene expression (actynomycin D sensitive) and their activity is connected with the rising of concentration of cytosolic Ca2+ in cells. It is shown, that progesterone in hormonal concentrations boosts biosynthesis of NO and H2O2, in comparison with estrone, both in real time of signalling events in the cells (5-30 s), and at long-term action (1-3 h) more effectively. The analogs of steroid hormones, ecdysterone and diethylstilbestrole, were considerably by characterized less effect. The obtained results allow to assume a prime role of progesterone in mechanisms of the endometrium-dependent relaxation of the myometrium. Peptide hormone oxytocine reduces NO production by endometrium and destroys the conforming promoting effect of progesterone, that can testify to the important role of endometrium in processes of initiation of contractile activity of a uterus in labors. The form and amplitude of changes of NO and H2O2 concentration specific for each of studied agonists dilate essentially potentialities of the biological information transmission and allow distinguishing more in detail the external signals and to differentiate the response of cells to various external stimulants. Nitrogen oxide plays an essential role in our system both in the real time of signalling events in cells, and under long-term action, whereas hydrogen peroxide--only at the first stage.     

Divalent cations and nifedipine action on Ca(2+) transport into myometrial plasmalemma vesicles

While using 45Ca2+ on the model of "outside-out configuration" vesicules of the myometrium cells sarcolemma an investigation of Cd2+, Zn2+, Co2+ and niphedipin on Ca2+ transport into the vesicules in the conditions of protons gradient transmembrane dissipation has been conducted. The above listed substances blocking effect corresponds to their physicochemical properties. Cadmium and zinc ions are considerably more effective in suppressing Ca2+ transport into the vesicules under the dissipation of delta pH on the membrane if compare with the case of delta pH = 0. In the case of niphedipin inhibiting action an opposite result is observed. The hypothesis has been made, that dissipation of delta pH on the sarcolemma is capable to strengthen the transmembrane Ca2+ transport by means of changing the channel structures conformation.     

Role of extra- and intracellular Ca2+ in changes of NO2- and H2O2 production by endometrium

The work is aimed to find out the role of extra- and intracellular Ca2+ in cyclic mechanisms of NO2- and H2O2 metabolism in the stroma cells of endometrium activated by acetylcholine. High activity of Mg2+, Ca(2+)-ATP-ase is characteristic of stroma cells of the endometrium. This activity is tested in the presence of 0.01% of the Triton X-100 (36 +/- +/- 2 mumole Pi/mg of protein for 1 hour). The acetylcholinesterase activity in these systems is equal to 9.8 +/- 0.2 mumole thiocholinebromide/mg of protein for 1 hour. Acetylcholine (10 microM) elevated essentially the concentration of cytosolic Ca2+ in them. It was established, that in the control the suspension of stroma cells produced 1 nmol/NO2-/10(6) of cells, this value being constant for the experimental period of time in the range of 5-60 s. The activation of cells (1 microM acetylcholine + 10 microM Ca2+) results in the appearance of cyclicity (maxima on 5, 15 and 60 s) and 5-fold intensification of NO2- production. The rise of extracellular concentration of Ca2+ up to 0.1-1--10 mM results in essential change of the character of the time dependence of NO2- metabolism and only in inappreciable intensification of the response amplitude. Such a pattern is observed for H2O2: 0.77 mumol H2O2/10(6) of cells in the control, at 10 microM Ca2+ maxima of production on the 5 and 30 s, change of the form of the time response, instead of the amplitude under the increase of concentration of extracellular Ca2+. Preincubation of cells with modifiers endoplasmic reticulum ryanodine, caffeine (1 mM) and heparine (10 mM) results in essential drop of NO2- production and infringement of cyclicity, the effect of ryanodine being more expressed on 5 s, than on 15 s, and heparine--also on 5 s, and on 15 s. Preincubation of cells with methylene blue (10 mM), which inhibits guanilate cyclase, result in considerable intensification of NO2- and H2O2 formation and cyclicity losses. Dynamics of NO2- formation (is controversy) reciprocated with cGMP, whereas nitrosoglutathione production and NO3- tends to saturation in the course of time. Thus, acetylcholine-dependent variations of NO2- and H2O2 concentrations in the suspension of stroma cells depend on the state of extra- and intracellular Ca(2+)-stores, are controlled by cGMP. It may be assumed, that the NO2- production minima are caused by its transfer in NO3- and its binding with glutathione.     

Effect of nitrite-anions on Ca2+ transport into the sarcolemma of myometrium

The influence of nitrite-anions physiological concentration on Ca2+ input into vesicles was investigated when using the "outside-out" vesicles of myometrial plasmalemma and 45Ca2+. It was established that nitrite-anions increased Ca(2+)-permeability of plasmalemma and increased the affinity of cation-transport system. The effects are probably connected with reversible modification of glutamate residues that bound and transported Ca2+ within the membrane. These findings showed that nitrite-anions are competitive activators of the passive calcium transport. On the other hand the decrease of Ca2+ affinity for the transport system under transmembrane proton scattering by the membrane, by rapid dissipation of transmembrane delta pH. It may be possible that the dissipation of transmembrane proton gradient changed the conformation of calcium transport system that calls the difference of kinetic mechanism of NO2- action in case of delta pH = 0 and delta pH = 1.5 on vesicle membranes.     

Properties of atropine interaction with the plasma membrane of myometrial cells

Atropine binding with some vesicular preparations of pig myometrium cellular plasmatic membranes has been estimated by means of ultracentrifugation in order of membranes precipitation as well as of two-beam spectrofotometry designed for recording UV-spectrum absorption by the residual solutions containing atropin. While utilizing Langmuir probe of sorption isotherm rectilinear sites the affinity of binding centers to atropin (34 kJ/mol) and Kd = 1 mmM was measured. Fresing-defrosting of the membranes vesicular preparations provides for the sorption increase by 28% and the affinity decrease reaching 13 kJ/mol. The hypothesis was made about the prioritative correct orientation of vesicules.     

Ca2+ transport in the sarcolemma of the myometrium under its chemical modification

The effect of some chemical modifying agents of the sarcolemma surface--dicyclohexicarbodiimide, trinitrobenzolsulphuric acid, dithiotreitol and nitrit-anions on passive transsarcolemmic accumulation of Ca2+ by the pig myometrium sarcolemma property oriented vesicules was studied. The comparative analysis of these substances action under proton transmembrane gradient dispersion is presented. The significance of surface amino-, carboxy groups and disulphide membrane bounds in Ca2+ transport mechanisms as a corresponding aspect to some contemporary ideas about Ca(2+)-channel has been defined. The hypothesis is made that the proton transmembrane gradient dissipation leads to dislocation of carboxyl groups and disulphid bounds in relation to the membrane surface resulting in increasing Ca(2+)-permeability of the sarcolemma. The increase of sarcolemma permeability for Ca2+ under the action of 10 nM NO-2 was demonstrated. On the base of experimental data the supposition was made that NO-2 modified amino- and carboxylate groups of the sarcolemma surface. Under the chemical modification of these groups the nitrit-anions inhibit transsarcolemmic Ca2+ movement. NO-2 is not a result of sarcolemma surface SH-groups oxidation, while possibly NO2- protects some functionally important disulphide bridges of Ca(2+)-channel from their chemical restoration.     

Effect of physiologically-significant stimula on Ca2+/H+ exchange by myometrial cell membrane

The effect of membrane potential, acetylcholine, carbachol and atropine on the myometrium plasmatic membrane Ca2+/H+ exchange was estimated. The change of artificially directed membrane potential from -40 to +20 mV was defined to provide for increasing the input of Ca2+ into vesicules and output of H+ from them in their concentration gradients. The similar changes of cations in membranes were registered under acetylcholine (10(-8)-10(-4) M) and carbachol (0.1 mM) action. Atropine displayed itself as decreasing the cholinomimetics effect to the tested ions transport. The exogenous 0.5 mM Ca2+ free of directed membrane potential as well stimulated the output of protons from vesicles. The supposition was made regarding H output strengthening and pH possible local increase of cytoplasm under the smooth cells activation by the membrane potential and acetylcholine.     

Appearance frequency modulated gene set enrichment testing

Background  

Gene set enrichment testing has helped bridge the gap from an individual gene to a systems biology interpretation of microarray data. Although gene sets are defined a priori based on biological knowledge, current methods for gene set enrichment testing treat all genes equal. It is well-known that some genes, such as those responsible for housekeeping functions, appear in many pathways, whereas other genes are more specialized and play a unique role in a single pathway. Drawing inspiration from the field of information retrieval, we have developed and present here an approach to incorporate gene appearance frequency (in KEGG pathways) into two current methods, Gene Set Enrichment Analysis (GSEA) and logistic regression-based LRpath framework, to generate more reproducible and biologically meaningful results.     

Influence of microRNA deregulation on chaperone-mediated autophagy and α-synuclein pathology in Parkinson's disease

The presence of α-synuclein aggregates in the characteristic Lewy body pathology seen in idiopathic Parkinson''s disease (PD), together with α-synuclein gene mutations in familial PD, places α-synuclein at the center of PD pathogenesis. Decreased levels of the chaperone-mediated autophagy (CMA) proteins LAMP-2A and hsc70 in PD brain samples suggests compromised α-synuclein degradation by CMA may underpin the Lewy body pathology. Decreased CMA protein levels were not secondary to the various pathological changes associated with PD, including mitochondrial respiratory chain dysfunction, increased oxidative stress and proteasomal inhibition. However, decreased hsc70 and LAMP-2A protein levels in PD brains were associated with decreases in their respective mRNA levels. MicroRNA (miRNA) deregulation has been reported in PD brains and we have identified eight miRNAs predicted to regulate LAMP-2A or hsc70 expression that were reported to be increased in PD. Using a luciferase reporter assay in SH-SY5Y cells, four and three of these miRNAs significantly decreased luciferase activity expressed upstream of the lamp-2a and hsc70 3′UTR sequences respectively. We confirmed that transfection of these miRNAs also decreased endogenous LAMP-2A and hsc70 protein levels respectively and resulted in significant α-synuclein accumulation. The analysis of PD brains confirmed that six and two of these miRNAs were significantly increased in substantia nigra compacta and amygdala respectively. These data support the hypothesis that decreased CMA caused by miRNA-induced downregulation of CMA proteins plays an important role in the α-synuclein pathology associated with PD, and opens up a new avenue to investigate PD pathogenesis.