Role of Hydrogen Sulfide and Sulfur-Containing Amino Acids in Regulation of Tone of Smooth Muscles of the Vascular Wall in Rats

In in vitro experiments, we showed that hydrogen sulfide used in concentrations from 10^-6 to 10^–3 M caused dose-dependent relaxation of circular preparations of the aorta and mesenterial and renal arteries. With increase in the H₂S concentration to 10^–2 M, we observed intensification of the relaxing effect only with respect to preparations of mesenterial and renal arteries. Vasorelaxation of walls of the aorta and mesenterial and renal arteries induced by applications of cysteine (10^–6 to 10^–2 М) was completely inhibited in the presence of propargylglycine. Homocysteine used in relatively high concentrations (10^–4 to 10^–2 М) caused a decrease in the endothelium-dependent vasorelaxation induced by acetylcholine. The renal and mesenterial arteries demonstrated the maximum sensitivity to homocysteine, while the minimum sensitivity was demonstrated by the aorta. Pre-incubation of the vessels together with L-NAME and indomethacin decreased the vasorelaxing action of hydrogen sulfide, while pre-incubation of the studied vessels with sodium nitroprusside intensified such action.     

Activating Effect of NO on Ca2+-Dependent K+ Channels in Smooth Muscle Cells of the Main Pulmonary Artery of the Rabbit

Using a patch-clamp technique in the whole-cell configuration, we studied the effect of a nitric oxide (NO) donor, nitroglycerin (NG), on outward transmembrane ion current in isolated smooth muscle cells (SMC) of the main pulmonary artery of the rabbit. We also studied the characteristics of unitary high-conductance Ca²⁺-dependent K⁺ channels (K_Ca channels) in the SMC membrane in the cell-attached and outside-out configurations. Nitroglycerin in a 10 M concentration increased the amplitude and intensified oscillations of outward transmembrane current induced by step depolarization. In this case, the threshold of activation of the current (–40 mV) did not change. If the potential was +70 mV, the transmembrane current in the presence of NG increased, as compared with the control, by 32.6 ± 19.4% (n = 6), on average. Simultaneous addition of 10 M NG and 1 mM tetraethylammonium chloride (TEA), a blocker of K_Ca channels, to the external solution at the potential of +70 mV decreased the amplitude of outward transmembrane current with respect to the control by 25.2 ± 11% (n = 6) and suppressed oscillations of this current. In the series of experiments carried out in the outside-out configuration (concentration of K⁺ ions in the external solution was 5.9 mM), we calculated the conductance of a single K_Ca channel, which was approximately 150 pS. In the case where the potential was equal to +40 mV, 1 mM TEA suppressed completely the current through unitary K_Ca channels. In the series of experiments performed in the cell-attached configuration, 100 M NG to a considerable extent intensified the activity of unitary high-conductance K_Ca channels by increasing the probability of the channel open state (P ₀), on average, by 80 ± 1%, as compared with the control. In this case, NG did not influence the conductance of single K_Ca channels. We concluded that the NO donor NG increases the amplitude of outward transmembrane current in SMC of the rabbit main pulmonary artery by stimulation of the activity of TEA-sensitive high-conductance K_Ca channels. Our experiments carried out on single K_Ca channels demonstrated that the activating effect of NG on K_Ca channels is realized at the expense of an increase in the P ₀ of these channels, but not of a change in the conductance of single channels.     

Suppressive effect of an activator of ATP-dependent potassium channels, flocalin, on electrical and contractile activities of smooth muscles of the guinea-pig ureter

In experiments on isolated segments or strips obtained from the guinea-pig ureter, we showed, using a sucrose-gap technique, that application of an activator of ATP-dependent potassium channels (K_ATP), (flocalin (PF-5), suppresses generation of action potentials (APs) by ureter smooth muscle cells (SMCs). Pre-incubation of the ureter preparations under study in Krebs solution containing 1 to 10 μM PF-5 results initially in a decrease in the frequency of oscillations preceding an AP plateau, shortening of this plateau, and, later on, complete inhibition of AP generation. In the presence of PF-5, spikes induced by hyperpotassium depolarization were also inhibited, while a tonic component of such depolarization underwent a mild decrease. The data obtained indicate that PF-5 modulates the entry of Ca²⁺ ions through L-type voltage-dependent channels in the SMC membrane. Shortening of the plateau and suppression of the spikes initiated by application of an activator of voltage-dependent L-type potassium channels, Bay K 8644, can be considered a confirmation of the modulatory influence of PF-5 on voltage-dependent L-type potassium channels. It seems possible that Bay K 8644 can be used under experimental conditions for initiation and long-lasting modulation of APs generated by the ureter SMC instead of corresponding neurotransmitters. We hypothesize that voltage-dependent entry of Ca²⁺ ions into SMCs depends significantly on the PF-5-induced activation of K_ATP channels of the ureter SMCs. Neirofiziologiya/Neurophysiology, Vol. 37, Nos. 5/6, pp. 403–409, September–December, 2005.     

Interaction between the main components of the vertebrate retinal rod phototransduction system in solutions of detergent n-nonyl-β-D-glucoside

cGMP-Specific phosphodiesterase (PDE6) is the key enzyme of the phototransduction system of vertebrate retinal rod outer segments (ROS). The properties of PDE in extracts prepared by solubilization of bovine ROS in a high concentration (0.5% w/v) of detergent n-nonyl-β-D-glucoside (NG) and following centrifugation (ROS-NG) have been studied. Basal PDE activity of the preparations was low, but it greatly (>50-fold) increased (up to ∼20 μmol cGMP hydrolyzed/min per mg rhodopsin (R)) in the presence of trypsin. In bleached GTPγS-containing preparations the specific PDE activity was dependent on ROS-NG concentration and was half-maximal at about 0.8 μM of ROS G protein transducin (Gt). In dark-adapted GTPγS-containing ROS-NG preparations bleaching of 0.2% of the rhodopsin resulted in half-maximal PDE activation. The same result was obtained when PDE in dark-adapted ROS-NG preparations was activated by addition of a highly purified bleached rhodopsin solubilized by 0.5% solution of NG. The results demonstrate that the presence of NG has no significant influence either on the properties of the main ROS phototrans-duction system elements (R, Gt and PDE) or on the interaction between photoactivated R and Gt and suggest that the detergent NG can be used for crystallization of the rhodopsin-transducin complex.     

Involvement of L-type calcium channels and mitochondria in post-tetanic potentiation: Is it a general rule for different types of synapses?

Our experiments and studies of a few other authors demonstrated that L-type calcium channels and mitochondria are involved in the induction of post-tetanic potentiation (PTP) in a number of preparations (Aplysia central nervous system, hippocampal cell cultures, crayfish neuromuscular junctions, etc.). We extend this conclusion on cortical synapses by the demonstration that inhibitors of mitochondrial Ca²⁺ uptake and release suppress PTP in rat neocortical cell cultures. Neirofiziologiya/Neurophysiology, Vol. 39, Nos. 4/5, pp. 403–404, July–October, 2007.     

Single-Channel Characterization of the Rabbit Recombinant RyR2 Reveals a Novel Inactivation Property of Physiological Concentrations of ATP

Ryanodine receptor 2 (RyR2) cDNA has been available for more than 15 years; however, due to the complex nature of ligand gating in this channel, many aspects of recombinant RyR2 function have been unresearched. We established a stable, inducible HEK 293 cell line expressing full-length rabbit RyR2 cDNA and assessed the single-channel properties of the recombinant RyR2, with particular reference to ligand regulation with Ca²⁺ as the permeant ion. We found that the single-channel conductances of recombinant RyR2 and RyR2 isolated from cardiac muscle are essentially identical, as is irreversible modification by ryanodine. Although it is known that RyR2 expressed in HEK 293 cells is not associated with FKBP12.6, we demonstrate that these channels do not exhibit any discernable disorganized gating characteristics or subconductance states. We also show that the gating of recombinant RyR2 is indistinguishable from that of channels isolated from cardiac muscle when activated by cytosolic Ca²⁺, caffeine or suramin. The mechanisms underlying ATP activation are also similar; however, the experiments highlighted a novel effect of ATP at physiologically relevant concentrations of 5–10 mM. With Ca²⁺ as permeant ion, 5–10 mM ATP consistently inactivated recombinant channels (15/16 experiments). Such inactivation was rarely observed with native RyR2 isolated from cardiac muscle (1 in 16 experiments). However, if the channels were purified, inactivation by ATP was then revealed in all experiments. This action of ATP may be relevant for inactivation of sarcoplasmic reticulum Ca²⁺ release during cardiac excitation–contraction coupling or may represent unnatural behavior that is revealed when RyR2 is purified or expressed in noncardiac systems. Richard Stewart and Lele Song—contributed equally to this work.     

Synaptic inhibition of smooth muscles of the human colon: Effects of vitamin B6 and its derivatives

Spontaneous activity, which is manifested as slow depolarization waves and action potentials, is observed in most (81%) smooth muscles (SMs) of the circular layer of the human colon. Independently of the type of pathology, inhibitory junction potentials (IJPs) in SMs of various parts of the human colon are evoked by intramural stimulation; ranges of parameters of these potentials were comparable with those observed in muscle intestinal fragments isolated at a distance of several tens of centimeters from the zone of injury. In muscle strips (MSs) of such fragments, pyridoxal-5′-phosphate (PPh) applied in different concentrations caused suppression of IJPs: in the concentration of 1·10⁻⁸ to 1·10⁻⁴ M it decreased the amplitude, and in the concentrations of 1·10⁻⁵ to 1·10⁻⁴ M and 1·10⁻⁴ M, respectively, it decreased rates of the half-amplitude rise and decay of these potentials. Pyridoxal (1·10⁻⁴ M) and 4-pyridoxolic acid (1·10⁻⁴ M) also caused a drop in the amplitude of IJPs; however, these agents influenced this parameter to a lesser extent, as compared with the effect of 1·10⁻⁴ M PPh. Pyridoxine (1·10⁻⁴ M) and pyridoxamine (1·10⁻⁴ M) evoked no significant changes in the parameters of IJPs in MSs of the human colon. Our data allow us to hypothesize that the suppressing effect of PPh on IJPs is determined by the presence of a purinergic component present in non-adrenergic inhibition of SMs of the human colon. Neirofiziologiya/Neurophysiology, Vol. 38, No. 4, pp. 269–279, July–August, 2006.     

Conserved Region Amplification Polymorphism (CoRAP), a Novel Marker Technique for Plant Genotyping in <Emphasis Type="Italic">Salvia miltiorrhiza</Emphasis>

Salvia miltiorrhiza (SM), a widely popular Chinese herb, is grown in various regions in China. Identifying SMs grown in different provinces of China is difficult, and therefore genotyping these collections would be highly valuable. Based on the techniques of sequence-related amplified polymorphism and target region amplified polymorphism, a novel PCR-based molecular marker technique called conserved region amplification polymorphism (CoRAP) is reported in this study to genotype SMs. The CoRAP technique is based on the use of two primers: fixed and arbitrary primers. The former is derived from target EST sequences deposited in Genbank; while, the core sequence (CACGC) of the latter is a conserved region found in most introns. In the present study, we utilized CoRAP to genotype SMs from different geographical origins. PCR amplification is performed for 30 cycles at an annealing temperature of 52°C. Each PCR reaction has generated as many as 30–50 fragments of 50 to 1,000 bp in size. The successful DNA genotyping of SMs by CoRAP was achieved. This new genotyping method is rapid, efficient, and reproducible.     

Chemo- and Mechano-Induced Reactions of Vascular Smooth Muscles in Rats with Chronic Insufficiency of Cerebral Dopamine: Effect of Co-Enzyme Q<Subscript>10</Subscript>

In experiments on isolated preparations of segments of the aorta and portal vein, we demonstrated that endothelium-dependent reactions of vascular smooth muscles (SMs) are suppressed in rats subjected to destruction of the nigro-striatal dopaminergic system in the left hemisphere (model of hemiparkinsonims). Under such conditions, the amplitude of relaxation of SMs of the wall of the thoracic aorta upon the action of the endothelium-dependent vasodilator acetylcholine iodide was four times smaller, while the latency demonstrated a 3.5-fold increase, as compared with the control. The amplitude of relaxation of vascular SMs after application of the endothelium-independent vasodilator sodium nitroprusside remained practically unchanged. In addition, preliminary stretching-induced increments of the amplitude of phasic contractions of the portal vein demonstrated a 2.5-fold decrease; this increment reached the maximum at smaller additional loadings, while the rigidity of the vascular wall increased. In animals that obtained a preparation of coenzyme Q₁₀ (10 mg/kg) with food during one month, contractile reactions of vascular SMs partly recovered. The amplitude of endothelium-dependent relaxation of the aorta increased, the latency of this reaction shortened, stretching-induced increments of the amplitude of phasic contractions increased, and the rigidity of the vascular wall dropped. We conclude that the functional state of the endothelium is worsened, and the vascular reactivity is modified under conditions of chronic insufficiency of nigro-striatal dopamine. It seems probable that oxidative stress is one of the main reasons for such changes. Coenzyme Q₁₀ significantly normalized abnormal vascular reactions (perhaps, due, to a considerable extent, to its antioxidant properties).     

Spontaneously active ion channels of membranes of the nuclear envelope of hippocampal pyramidal neurons

The genetic apparatus of an eukaryotic cell is surrounded by two membranes of the nuclear envelope that forms a half-permeable barrier for the movement of molecules and ions. Using a patch-clamp technique in experiments on isolated nuclei of pyramidal neurons from the hippocampal CA1 area, we describe the biophysical properties of spontaneously active ion channels in the nuclear membranes of these cells. In the external nuclear membrane, we found anion channels with a unitary conductance of 156 pS and with very rapid kinetics of fluctuation, while in the inner membrane we recorded cationic channels with a unitary conductance of 248 pS and very slow kinetics. Channels of both types demonstrated clear voltage dependences. We hypothesize that the physiological importance of these channels is related to the function of the intermembrane space of the nuclear envelope of these cells forming a considerable calcium store. It seems possible that such channels in the nuclear membranes are necessary for the maintenance of the ion balance between the cytoplasm and perinuclear space and between the latter and karyoplasm, and also for neutralization of voltage shifts in the course of Ca²⁺ release. Neirofiziologiya/Neurophysiology, Vol. 39, No. 1, pp. 3–8, January–February, 2007.     

Large-conductance cationic channels in the nuclear envelope of Purkinje neurons from the rat cerebellum

Using a patch-clamp technique, we studied the biophysical properties of large-conductance channels in the nuclear envelope of rat cerebellar Purkinje neurons. Our experiments showed that channels with identical conductance, selectivity, and kinetics are expressed in the external and internal nuclear membranes of these cells. These channels connect the perinuclear space with the cyto-and nucleoplasm; they are not channels of the complex of the nuclear pores for passive diffusion of ions and small molecules, as was believed earlier [17]. We hypothesize that large-conductance cationic channels in the membranes of the nuclear envelope are identical to ion channels of the endoplasmic reticulum and are necessary for functioning of the intermembrane space of the envelope as a calcium store. Neirofiziologiya/Neurophysiology, Vol. 39, No. 2, pp. 113–118, March–April, 2007.     

Effects of Gabapentin on Calcium Transients in Neurons of the Rat Dorsal Root Ganglia

In our experiments on rat dorsal root ganglia (DRG) neurons, we studied the effects of an antiepileptic agent, gabapentin, on calcium transients evoked by depolarization of the membrane using the fluorescence calciumsensitive dye Fura-2/AM. Application of gabapentin to neurons with large-diameter somata practically did not change the characteristics of calcium transients. In mid-sized neurons, the amplitude of transients decreased, on average, by 27% with respect to the control, while in small-sized neurons the transients changed insignificantly (on average, less than by 7%). The mid-sized neurons were additionally subjected to the capsaicin test, which allowed us to differentiate primary nociceptive neurons of this group where TRPV1-type channels are expressed. In capsaicin-sensitive neurons, application of gabapentin led to a decrease in the amplitude of calcium transients, on average, by 37%, while such a decrease was only 16% in capsaicininsensitive neurons. Based on our own data and findings of other researchers on the ability of gabapentin to demonstrate affine binding with the accessory α₂δ subunit of voltage-dependent calcium channels and also on the peculiarities of expression of these channels in somatosensory neurons of the corresponding types, we discuss the probable pattern of expression of subunits of the α₂δ-1 subtype in DRG cells of different sizes. We demonstrated that the effects of gabapentin on calcium transients in nociceptive and hypothetically nonnociceptive mid-sized DRG neurons are selective (the effects in neurons involved in the sensation of acute pain are probably more intense). Neirofiziologiya/Neurophysiology, Vol. 40, No. 4, pp. 281–287, July–August, 2008.     

IT Delivery of ChABC Modulates NG2 and Promotes GAP-43 Axonal Regrowth After Spinal Cord Injury

Chondroitin sulphate proteoglycans (CSPGs) with the major component NG2 have an inhibitory effect on regeneration of damaged axons after spinal cord injury. In this study, we investigate whether the digestion of CSPGs by chondroitinase ABC (ChABC) may decrease the NG2 expression and promote axon regrowth through the lesion site. Rats underwent spinal cord compression injury and were treated with ChABC or vehicle through an intrathecal catheter delivery at 2, 3, and 4 days after injury. In addition, animals were behaviorally scored using BBB test in weekly intervals after SCI. Based on immunocytochemical analyses, we have quantified distribution of NG2 glycoprotein and GAP-43 in spinal cord tissue in both experimental groups. Multiple injections of ChABC caused decrease of NG2 expression at lesion site at 5 and 7 days, but not at 14 and 28 days in comparison with vehicle-treated rats and significantly enhanced GAP-43 expression during the entire survival. The densitometry analysis showed significantly higher GAP-43 immunoreactivity (1.8–2.2-fold) in the regrowing axons and cell bodies within the central lesion cavity when compared with vehicle group. Longitudinally oriented and disorganized GAP-43-labeled axons were able to infiltrate and penetrate damaged tissue. The outgrowth of GAP-43 axons after CHABC delivery was significantly longer (≤0.457 mm) when compared with the length of axons in vehicle-treated rats (≤0.046 mm). Present findings suggest that degradation of NG2 with acute IT ChABC treatment may promote ongoing (long-lasting) axonal regenerative processes at late survival (14 and 28 days), but with no significant impact on the improvement of motor function.     

Responses Evoked in Afferent Fibers by Mechanostimulation of the Skin <Emphasis Type="Italic">in vitro</Emphasis>: Modulation by RFa-Like Peptides

In experiments in vitro on a skin patch-n. saphenous preparation, we studied the effects of RFa-like peptides on the responses of single slow-and fast-conducting afferent fibers evoked by mechanostimulation of the skin. RFa-like peptides were shown to exert modulatory influences on the mechanostimulation-evoked activity in a significant proportion of such units; a considerable proportion of the effects in the fibers of different types were of opposite direction. In most nociceptive thin C fibers, responses evoked by mechanostimulation of the skin were facilitated by the peptides, while those in A fibers were suppressed. It is supposed that RFa-like peptides are involved in the formation of the hyperalgesia state. The effect of these peptides on proton-activated ion channels (ASICs) is one of the possible mechanisms of an increase in the sensitivity of afferent fibers to mechanical stimuli. This modulatory effect was observed both in an acidified (pH 5.2) and in a normal (pH 7.4) media; this is why another mechanism exists that is not related to ASICs. A suppressory effect of RFa peptides on the mechanostimulation-evoked activity of primary afferents developed with a significant delay; probably, it is mediated by the effects of peptides on G proteins. Neirofiziologiya/Neurophysiology, Vol. 37, No. 2, pp. 134–141, March–April, 2005.     

Vanadate inhibits the production and/or release of secondary metabolites without impairing growth in several fungal species

Vanadate (NaVO₃) in concentrations between 0.1–3.0 mmol/L inhibited the production of secondary metabolites (SMs) of strains of the following species:Trichoderma viride, Penicillium purpurogenum, Penicillium citrinum, Talaromyces avellaneus, andVerticillium psalliotœ. Growth was either not affected by NaVO₃, or the inhibition of the SM production occurred at lower NaVO₃, concentrations than that of the growth. Thus, at some NaVO₃ concentration the SM production was inhibited but the growth remained unaffected. The results suggest that NaVO₃ exerts a specific action either on the SM biosynthetic pathway(s) or on the export of SMs from cells.     

Modulation by redox reagents of ATP-activated currents in neurons of the rat nodose ganglion

In in vitro experiments using a patch-clamp technique in the whole-cell configuration, we studied the effect of redox reagents on ATP-activated transmembrane currents in isolated cells of the rat nodose ganglion. It was demonstrated that endogenous and exogenous antioxidants, glutathione and dithiothreitol, respectively, are capable of modulating the ATP-activated current. In the presence of antioxidants, this current increased in most neurons, while upon the action of an oxidant this current was suppressed in some cells under study. Taking into account the fact that ATP receptors of sensory neurons are involved in nociception, we hypothesize that a certain level of antioxidants can determine the state of algesia under normal physiological conditions or of hyperalgesia in pathology. Since ATP receptor-operated channels possess a high conductance with respect to calcium ions, the enhancement of calcium signals upon the action of antioxidants can be an important factor for a number of biochemical processes in nerve tissues. Neirofiziologiya/Neurophysiology, Vol. 38, No. 2, pp. 113–118, March–April, 2006.     

Isolation and characterization of a novel thermophilic Bacillus strain degrading long-chain n-alkanes

A thermophilic Bacillus strain NG80-2 growing within the temperature range of 45–73°C (optimum at 65°C) was isolated from a deep subterranean oil-reservoir in northern China. The strain was able to utilize crude oil and liquid paraffin as the sole carbon sources for growth, and the growth with crude oil was accompanied by the production of an unknown emulsifying agent. Further examination showed that NG80-2 degraded and utilized only long-chain (C15–C36) n-alkanes, but not short-chain (C8–C14) n-alkanes and those longer than C40. Based on phenotypic and phylogenic analyses, NG80-2 was identified as Geobacillus thermodenitrificans. The strain NG80-2 may be potentially used for oily-waste treatment at elevated temperature, a condition which greatly accelerates the biodegradation rate, and for microbial enhancing oil recovery process.Lei Wang, Yun Tang and Shuo Wang contributed equally to this study.     

Muscle function in animal movement: passive mechanical properties of leech muscle

We investigated passive properties of leech body wall as part of a larger project to understand better mechanisms that control locomotion and to establish mathematical models that predict such dynamical behavior. In tests of length-tension relationships in 2-segment-long preparations of body wall through step-stretch manipulations (step size = 1 mm), we discovered that these relationships are nonlinear, with significant hysteresis, even for the relatively small changes in length that occur during swimming. We developed a mathematical model comprising three nonlinear springs, two in series with nonlinear dashpots that describe well the tension statics and dynamics for step-stretch experiments. This model suggested that body wall dynamics are slow enough to be neglected when predicting the tension generated by imposed sinusoidal length changes (about ±10% of nominal) at 1–3 Hz, mimicking swimming. We derived a static model, comprising one nonlinear spring, which predicts sinusoidal data accurately, even when preparations were exposed to serotonin (0.1–10 μM). Preparations bathed in saline-serotonin had significantly reduced steady-state and peak tensions, without alterations in tension dynamics. Anesthetizing preparations (8% ethanol) reduced body wall tension by 77%, indicating that passive tension in the obliquely striated longitudinal muscles of leeches results primarily from a resting tonus.     

Effect of Lipids on the Activity of Calpain in Subcellular Fractions Obtained from the Rat Brain

We studied the effect of lipids on the activity of a neutral cysteine proteinase, calpain, in subcellular fractions obtained from the rat brain. Extraction of nearly 23% of membrane cholesterol from the coarse mitochondrial fraction did not result in modifications of specific activity of calpain in this fraction. Detergents (digitonin or Triton Х-100) used in 0.3% concentration enhanced the activity of calpain in the coarse mitochondrial fraction. Examination of the effects of preparations of different phospholipids on the activity of calpain in the cytoplasm demonstrated that only phosphatidylcholine, but not phosphatidylserine and/or cardiolipin, insignificantly increased the activity of calpain (independently of the size and structure of phospholipid vesicles). We hypothesize that the mechanisms underlying interaction between calpain and lipids are not universal; in native cells and model experiments, they can differ noticeably from each other and are modified depending on the corresponding conditions. Neirofiziologiya/Neurophysiology, Vol. 41, No. 1, pp. 3–9, January–February, 2009.