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1.
The review deals with some problems of formation, utilization and functioning two of the most important and the lest cytotoxic active oxidative metabolites--NO and H2O2. The interrelation of NO and H2O2 cellular metabolism is reviewed. There are literature data regarding NO and H2O2 significance in the cellular signalling transduction and tissues paracrine regulation. The peculiar attention is dedicated to NO and H2O2 significance in the smooth muscle cells ion homeostasis regulation particularly in the uterus. As well there are the own author's data evidencing about the composite and ambiguous concentration-dependent physiological action of these metabolites. Varying in level in the cells NO and H2O2 may have a cyclic character similar to the oscillations of some other signaling molecules concentrations, evidently playing an important role in the mechanisms of cellular signal transduction and in the paracrine system.  相似文献   

2.
Nitric oxide (NO) is a universal intercellular messenger and the only molecule known so far, which satisfies all requirements of the volume (extrasynaptic) neurotransmitter. The effect of NO on target cells is so read in the four-dimensional coordinate system by combining both the spatial and the temporal components of the nervous activity. In this review, the authors, based on literature data and own studies, present a detailed analysis of properties of NO as a volume neurotransmitter at formation of phenomena of synaptic plasticity in norm and pathology. An evaluation is given of cytotoxic and neuroprotective effects of NO under conditions of the brain tissue ischemia and phenomena of hyperexcitability in foci of epileptiform activity. It is emphasized that the long-term potentiation and long-term depression, phenomena of physiological plasticity, can be transformed into pathological plasticity at disturbances of equilibrium between neuroprotective and neurotoxic effects of NO.  相似文献   

3.
Brimonidine, an alpha2-adrenergic receptor (AR) agonist, has been employed in the treatment of glaucoma due to its beneficial effects on intraocular pressure reduction and neuroprotection. In addition, some studies have implicated that brimonidine might influence ocular blood flow; however, its effect on the retinal microcirculation has not been documented. Herein, we examined the vasomotor action of brimonidine on different branching orders of retinal arterioles in vitro and determined the contribution of the alpha2-AR subtype and the role of endothelium-derived nitric oxide (NO) in this vasomotor response. First- and second-order retinal arterioles of pigs were isolated, cannulated, and pressurized for functional studies. Videomicroscopic techniques were employed to record diameter changes in response to brimonidine. RT-PCR was performed for detection of alpha-AR and endothelial NO synthase (eNOS) mRNA in retinal arterioles. All first-order arterioles (82 +/- 2 microm ID) dilated dose dependently to brimonidine (0.1 nM to 10 microM) with 10% dilation at the highest concentration. Second-order arterioles (50 +/- 1 microm ID) responded heterogeneously with either dilation or constriction. The incidence and magnitude of vasoconstriction were increased with increasing brimonidine concentration. Administration of the NO synthase inhibitor NG-nitro-L-arginine methyl ester abolished the brimonidine-induced vasodilation in first- and second-order arterioles. Regardless of vessel size, vasomotor responses (i.e., vasodilation and vasoconstriction) of retinal arterioles were sensitive to the alpha2-AR antagonist rauwolscine. Consistent with the functional data, alpha2A-AR and eNOS mRNAs were detected in retinal arterioles. Collectively, our data demonstrate that brimonidine at clinical doses evokes a consistent NO-dependent vasodilation in first-order retinal arterioles but a heterogeneous response in second-order arterioles. These vasomotor responses are mediated by the activation of alpha2-AR. It appears that brimonidine, depending on the concentration and vessel size, may alter local retinal blood flow.  相似文献   

4.
Nitric oxide (NO) plays a fundamental role in maintaining normal vasomotor tone. Recent data implicate a critical function for hemoglobin and the erythrocyte in regulating the activity of NO in the vascular compartment. Intravascular hemolysis releases hemoglobin from the red blood cell into plasma (cell-free plasma hemoglobin), which is then able to scavenge endothelium-derived NO 600-fold faster than erythrocytic hemoglobin, thereby disrupting NO homeostasis. This may lead to vasoconstriction, decreased blood flow, platelet activation, increased endothelin-1 expression (ET-1), and end-organ injury, thus suggesting a novel mechanism of disease for hereditary and acquired hemolytic conditions such as sickle cell disease and cardiopulmonary bypass. Furthermore, therapy with NO gas inhalation or infusion of sodium nitrite during hemolysis may attenuate this disruption in vasomotor balance by oxidizing plasma cell-free hemoglobin, thereby preventing the consumption of endogenous NO and the associated pathophysiological changes. In addition to providing an NO scavenging role in the physiological regulation of NO-dependent vasodilation, hemoglobin and the erythrocyte may deliver NO as the hemoglobin deoxygenates. While this process has previously been ascribed to S-nitrosated hemoglobin, recent data from our laboratories suggest that deoxygenated hemoglobin reduces nitrite to NO and vasodilates the human circulation along the physiological oxygen gradient. This newly described role of hemoglobin as a nitrite reductase is discussed in the context of blood flow regulation, oxygen sensing, and nitrite-based therapeutics.  相似文献   

5.
The effect of NO2- and H2O2 on Ca(2+)-binding properties of calmodulin has been studied. The decrease of Ca2+ affinity for calmodulin and limiting quantity of the sites of cation cross-linking by the protein molecule under the effect of 1 nM NO2 and 10 nM H2O2. The increase of the acting substances concentration above physiological one results in the considerable decrease of the observed effects. The investigation results indicate to possible inhibition of Ca(2+)-calmodulin-dependent cytosole reaction of the smooth-muscle cells under the effect of NO2 and H2O2, and this will result in the myometrium relaxation. At the same time the data from literature and results of the authors' experiments allow supposing the difference in the mechanisms of NO2 and H2O2 actions on these processes.  相似文献   

6.
In mammals, much is understood about the endothelial and neural NO control mechanisms in the vasculature. In contrast, NO control of blood vessels in lower vertebrates is poorly understood, with the majority of research focusing on the presence of an endothelial NO system; however, its presence remains controversial. This study examined the mechanisms by which NO regulates the large blood vessels of non-mammalian vertebrates. In all species examined, the arteries and veins contained a plexus of NOS-positive perivascular nerves that included nerve bundles and fine, varicose nerve terminals. However, in the large arteries and veins of various species of fishes and amphibians, no anatomical evidence was found for endothelial NOS using both NADPH-diaphorase and eNOS immunohistochemistry. In contrast, perinuclear NOS staining was readily apparent in blue-tongue lizard, pigeon and rat, which suggested that eNOS first appeared in reptiles. Physiological analysis of NO signalling in the vascular smooth muscle of short-finned eel and cane toad could not find any evidence for endothelial NO signalling. In contrast, it appears that activation of the nitrergic vasomotor nerves is responsible for NO control of the blood vessels.  相似文献   

7.
Vitamin C and thiol agents improve vasomotor function. To determine whether these compounds directly affect endothelial function, nitric oxide (NO) synthesis was measured in human aortic endothelial cells treated with ascorbic acid or the thiol modulating agents lipoic acid or L-2-oxothiazolidine-4-carboxylic acid (OTC). A dose-dependent increase in A23187-stimulated NO synthesis and elevated cGMP levels were observed in all cases except for OTC. Cellular GSH levels were not significantly increased, and the GSH/GSSG ratio was not significantly affected by treatment of the cells with lipoic acid, OTC, or ascorbic acid. Thus, vitamin C and lipoic acid potentiate endothelial NO synthesis and bioactivity by mechanisms that appear to be independent of cellular GSH levels and redox environment.  相似文献   

8.
9.
A short review on the role of endothelium and nitric oxide (NO) in experimental hypertension is presented in the light of the literature and our own recent findings. Based on these data, it is concluded that even though there is a lot of evidence in favor of the primary and causal association of endothelial dysfunction and NO in experimental hypertension, it seems still more plausible that they are causative in some types of hypertension only. Our own experience rather speaks for a secondary but still an important participation of endothelium in the maintenance and further elevation of high blood pressure. Endothelium plays a key role in the development of organ damages in hypertension.  相似文献   

10.
External pneumatic compression (EPC) is effective in preventing deep vein thrombosis (DVT) and is thought to alter endothelial thromboresistant properties. We investigated the effect of EPC on changes in nitric oxide (NO), a critical mediator in the regulation of vasomotor and platelet function. An in vitro cell culture system was developed to simulate flow and vessel collapse conditions under EPC. Human umbilical vein endothelial cells were cultured and subjected to tube compression (C), pulsatile flow (F), or a combination of the two (FC). NO production and endothelial nitric oxide synthase (eNOS) mRNA expression were measured. The data demonstrate that in the F and FC groups, there is a rapid release of NO followed by a sustained increase. NO production levels in the F and FC groups were almost identical, whereas the C group produced the same low amount of NO as the control group. Conditions F and FC also upregulate eNOS mRNA expression by a factor of 2.08 +/- 0.25 and 2.11 +/- 0.21, respectively, at 6 h. Experiments with different modes of EPC show that NO production and eNOS mRNA expression respond to different time cycles of compression. These results implicate enhanced NO release as a potentially important factor in the prevention of DVT.  相似文献   

11.
The published data on the mechanisms and regulation of active and passive Ca2+ transport in the myometrium have been analyzed. Particular attention is paid to the cGMP-dependent and independent pathways of action of nitric oxide or its derivatives on intracellular Ca2+ homeostasis of uterine smooth muscle and its contractile activity. Information on the effect of nitric oxide on Ca2+ -transport systems of other types of smooth muscles is provided in a comparative aspect. Based on own experimental results and literature data a scheme of NO action in the myometrium is suggested in which nitric oxide or its derivatives cause Ca2+ -dependent polarization of the sarcolemma. In accordance with our results, this effect may be based on the increase of sarcolemma Ca2+ permeability under the influence of NO or its derivatives and the stimulation of at least the initial passive transport of the cation in the myocytes mediated by dihydropyridine-sensitive channels. Additional factors that contribute to the polarization of the membrane are the increase of protons transport from the muscle cells and stimulation of Na+, K+ -ATPase. Acting on the sarcoplasmic reticulum, nitrosactive compounds activate the inclusion of calcium in this compartment and inhibit Ca2+ -induced release of the cation. The latter effects are able to provide compensation for NO-induced Ca2+ increase in myocytes and supress the electromechanical coupling at Ca2+ release from the reticulum. NO-derivates also inhibit a key link in the smooth muscle contractile act--the formation of the Ca2+ -calmodulin complex.  相似文献   

12.
Nitric oxide (NO), an important cellular messenger, has been linked to both neurodegenerative and neuroprotective actions. In the present review, we focus on recent data establishing a survival and differentiation role for NO in several neural in vitro and in vivo models. Nitric oxide has been found to be essential for survival of neuronal cell lines and primary neurons in culture under various death challenges. Furthermore, its lack may aggravate some neuropathological conditions in experimental animals. Several cellular pathways and signaling systems subserving this neuroprotective role of NO are considered in the review. Survey of recent data related to the developmental role of NO mainly focus on its action as a negative regulator of neuronal precursor cells proliferation and on its role of promotion of neuronal differentiation. Discussion on discrepancies arising from the literature is focused on the Janus-faced properties of the molecule and it is proposed that most controversial results are related to the intrinsic property of NO to compensate among functionally opposed effects. As an example, the increased proliferation of neural cell precursors under conditions of NO shortage may be, later on in the development, compensated by increased elimination through programmed cell death as a consequence of the lack of the survival-promoting action of the molecule. To elucidate these complex, and possibly contrasting, effects of NO is indicated as an important task for future researches.  相似文献   

13.
The role of nitric oxide (NO) mediated vasorelaxation in splanchnic blood flow during heat stress was studied in rats before and after heat acclimation (1 month, at 34°C). Superior mesenteric artery and portal vein blood flows were measured on-line in the conscious rats during heat stress at 40°C and 42°C before and after LNNA administration. NO mediated vasorelaxation in these vessels was studies in vitro, in response to pilocarpine, Ca ionophore and Na nitroprusside stimulation. The data suggest that NO is an integral part of the thermoregulatory splanchnic vasomotor response, and that heat acclimation enhances its regulatory importance.  相似文献   

14.
Formerly we reported the reduction of sensitivity to gamma- and UV-radiation in Chinese hamster cells of line 90 under the influence of nitric oxide inductor (NaNO2). Of interest was to learn if it possible to reduce the influence of hyperthermia on cells by means of NO inductor. A 1 h long incubation with this NO donor demonstrated an increased survival of cells heated up to 45 degrees C, and a decreased frequency of chromosomal aberrations in these. Employment of cycloheximide (CHE), an inhibitor of protein synthesis, and administration of CHE together with nitric oxide donor (NaNO2), equally increased the cell survival at hyperthermia. These and relevant literature data suggest that the demonstrated effect of exogenous NO may be associated with HSP70 protein. The noticed decrease in the number of chromosomal aberrations in heated cells under the influence of NO donor may play an important role in its modifying effect on cells at hyperthermia.  相似文献   

15.
Left ventricular (LV) dysfunction caused by myocardial infarction (MI) is accompanied by endothelial dysfunction, most notably a loss of nitric oxide (NO) availability. We tested the hypothesis that endothelial dysfunction contributes to impaired tissue perfusion during increased metabolic demands as produced by exercise, and we determined the contribution of NO to regulation of regional systemic, pulmonary, and coronary vasomotor tone in exercising swine with LV dysfunction produced by a 2- to 3-wk-old MI. LV dysfunction resulted in blunted systemic and coronary vasodilator responses to ATP, whereas the responses to nitroprusside were maintained. Exercise resulted in blunted systemic and pulmonary vasodilator responses in MI that resembled the vasodilator responses in normal (N) swine following blockade of NO synthase with N(omega)-nitro-L-arginine (L-NNA, 20 mg/kg iv). However, L-NNA resulted in similar decreases in systemic (43 +/- 3% in N swine and 49 +/- 4% in MI swine), pulmonary (45 +/- 5% in N swine and 49 +/- 4% in MI swine), and coronary (28 +/- 4% in N and 35 +/- 3% in MI) vascular conductances in N and MI swine under resting conditions; similar effects were observed during treadmill exercise. Selective inhibition of inducible NO synthase with aminoguanidine (20 mg/kg iv) had no effect on vascular tone in MI. These findings indicate that while agonist-induced vasodilation is already blunted early after myocardial infarction, the contribution of endothelial NO synthase-derived NO to regulation of vascular tone under basal conditions and during exercise is maintained.  相似文献   

16.
S-nitrosothiols are products of nitric oxide (NO) metabolism that have been implicated in a plethora of signalling processes. However, mechanisms of S-nitrosothiol formation in biological systems are uncertain, and no efficient protein-mediated process has been identified. Recently, we observed that ferric cytochrome c can promote S-nitrosoglutathione formation from NO and glutathione by acting as an electron acceptor under anaerobic conditions. In the present study, we show that this mechanism is also robust under oxygenated conditions, that cytochrome c can promote protein S-nitrosation via a transnitrosation reaction and that cell lysate depleted of cytochrome c exhibits a lower capacity to synthesize S-nitrosothiols. Importantly, we also demonstrate that this mechanism is functional in living cells. Lower S-nitrosothiol synthesis activity, from donor and nitric oxide synthase-generated NO, was found in cytochrome c-deficient mouse embryonic cells as compared with wild-type controls. Taken together, these data point to cytochrome c as a biological mediator of protein S-nitrosation in cells. This is the most efficient and concerted mechanism of S-nitrosothiol formation reported so far.  相似文献   

17.
In experiments on anaesthetized cats with intact chest regional blood volume and flow in the lungs at horizontal and vertical body positions and under vagus and sympathetic nerve stimulation were studied using regional lung electroplethysmography. The regions of the lungs bearing more significant hydrostatic and hemodynamic load turn more labile to neurogen stimuli. The parasympathetic vasomotor reaction of the basal lung regions increases while the apical region reaction decreases at a vertical body position. The results obtained suggest the occurrence of regionally differentiated mechanisms of vasomotor control in the pulmonary circulation, directed to compensation of postural changes in pulmonary hemodynamics.  相似文献   

18.
The possible role of endogenous endothelium-derived bioactive substances in organization of cardiogenic depressor reflexes under cardiac receptor stimulation (by veratrine and bradykinin) was investigated in acute experiments on anesthetized rats. The results have shown that endothelium-derived bioactive substances take part in forming of the cardiogenic depressor reflex humoral components of nervous response or nervous modulators. These data contribute to understanding of the role of endogenous endothelium-derived bioactive substances (prostacyclin) and different NOS isoforms in mechanisms of depressor reflex development and species differences in their involvement in reflex vasomotor reactions.  相似文献   

19.
Nitric oxide (NO) has been proposed as an inhibitory modulator of carotid body chemosensory responses to hypoxia. It is believed that NO modulates carotid chemoreception by several mechanisms, which include the control of carotid body vascular tone and oxygen delivery and reduction of the excitability of chemoreceptor cells and petrosal sensory neurons. In addition to the well-known inhibitory effect, we found that NO has a dual (dose-dependent) effect on carotid chemoreception depending on the oxygen pressure level. During hypoxia, NO is primarily an inhibitory modulator of carotid chemoreception, while in normoxia NO increased the chemosensory activity. This excitatory effect produced by NO is likely mediated by an impairment of mitochondrial electron transport and oxidative phosphorylation, which increases the chemosensory activity. The recent findings that mitochondria contain an isoform of NO synthase, which produces significant amounts of NO for regulating their own respiration, suggest that NO may be important for the regulation of mitochondrial energy metabolism and oxygen sensing in the CB.  相似文献   

20.
During normal pregnancy, uterine blood flow (UBF) is increased in association with elevations of endothelial nitric oxide (NO) production and endothelial nitric oxide synthase (eNOS) expression. Shear stress increases endothelial-derived NO production to reduce vasomotor tone. We hypothesized that decreasing in vivo UBF, and thus shear stress, will decrease NO and/or eNOS levels. In this experiment, one of the main uterine arteries of chronically instrumented late pregnant sheep (125 +/- 1 days' gestation [mean +/- SEM]; n = 15) was occluded for 24 h. Cardiovascular parameters (systemic and uterine arterial pressure, heart rate [HR], and ipsilateral and contralateral UBF) and NO(2)/NO(3) (NO(x)) levels were evaluated. Although UBF measured using Transonic flow probes was reduced unilaterally 41.5% +/- 2.1%, uterine perfusion pressure only fell 12.2% +/- 4.5%. Systemic arterial blood pressure and HR were unaltered. Using radioactive microspheres, ipsilateral UBF was reduced approximately 28% during occlusion. The redistribution of UBF to other reproductive tissues suggests that collateral circulation develops in response to occlusion. Systemic arterial and uterine venous NO(x) levels were reduced 22.1% +/- 6.7% and 22.6% +/- 7.6%, respectively, during occlusion. Treatment with microspheres produced an unexpected initial ( approximately 2.5 h) increase in systemic arterial and uterine venous NO(x) levels by 116% +/- 30% and 97% +/- 49%, respectively. Despite a decline in NO(x) levels after 6 h, no significant differences versus preocclusion NO(x) levels were detected by 24 h of occlusion in this experimental group. In contrast, NO(x), UBF, and uterine perfusion pressure levels unexpectedly failed to return to baseline values following release of occlusion. No differences in uterine artery eNOS expression were demonstrated by Western analysis from occlusion. Thus, our data suggest that shear stress may mediate in vivo vasomotor tone via production of NO(x).  相似文献   

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