Effects of prostaglandins of the E-series on pulmonary and systemic circulations of newborn goats during normoxia and hypoxia.

Effects of exogenous prostaglandins of the E-series on pulmonary and systemic circulations of newborn goats were investigated during normoxia and hypoxia. Pulmonary arterial infusion of prostaglandins E1 and E2 decreased pulmonary vascular resistance 20% and 14%, respectively, without systemic effects. Prostaglandin E1 abolished the pulmonary pressor response to hypoxia. Prostaglandin E2 was less effective in counteracting this hypoxic response. The increased pulmonary vascular resistance and augmented response to hypoxia following indomethacin administration was reversed by prostaglandin E1. Infusion of prostaglandin E1 directly into the pulmonary circulation may be of benefit to the distressed newborn with elevated pulmonary vascular resistance.     

Trophic effects induced by alpha1D-adrenoceptors on endothelial cells are potentiated by hypoxia

Catecholamines have been shown to be involved in vascular remodeling through the stimulation of alpha(1)-adrenoceptors (alpha(1)-ARs). Recently, it has been demonstrated that catecholamines can stimulate angiogenesis in pathological conditions, even if the mechanisms and the AR subtypes involved still remain unclear. We investigated the influence of hypoxia (3% O(2)) on the ability of picomolar concentrations of phenylephrine (PHE), which are unable to induce any vascular contraction, to induce a trophic effect in human endothelial cells through stimulation of the alpha(1D)-subtype ARs. PHE, at picomolar concentrations, significantly promoted pseudocapillary formation from fragments of human mature vessels in vitro. Exposure to hypoxia significantly potentiated this effect, which was inhibited by the selective alpha(1D)-AR antagonist BMY-7378 and by the nitric oxide synthase inhibitor L-NAME, suggesting that alpha(1D)-ARs were involved in this effect through activation of the nitric oxide pathway. Proliferation and migration of HUVEC were also affected by picomolar PHE concentrations. Again, these effects were significantly potentiated in cells exposed to hypoxia and were inhibited by BMY-7378 and by N(G)-nitro-L-arginine methyl ester. Conversely, the alpha(1A)-AR-selective antagonist (S)-(+)-niguldipine hydrochloride and the alpha(1B)-AR antagonist chloroethylclonidine dihydrochloride did not modify endothelial cell migration and proliferation in response to PHE. These results demonstrate that the stimulation of alpha(1D)-ARs, triggered by picomolar PHE concentrations devoid of any contractile vascular effects, induces a proangiogenic phenotype in human endothelial cells that is enhanced in a hypoxic environment. The role of alpha(1D)-ARs may become more prominent in the adaptive responses to hypoxic vasculature injury.     

Effects of prostaglandins of the E-series on pulmonary and systemic circulations of newborn goats during normoxia and hypoxia

Effects of exogenous prostaglandins of the E-series on pulmonary and systemic circulations of newborn goats were investigated during normoxia and hypoxia. Pulmonary arterial infusion of prostaglandins E₁ and E₂ decreased pulmonary vascular resistance 20% and 14%, respectively, without systemic effects. Prostaglandin E₁ abolished the pulmonary pressor response to hypoxia. Prostaglandin E₂ was less effective in counteracting this hypoxic response. The increased pulmonary vascular resistance and augmented response to hypoxia following indomethacin administration was reversed by prostaglandin E₁. Infusion of prostaglandin E₁ directly into the pulmonary circulation may be of benefit to the distressed newborn with elevated pulmonary vascular resistance.     

Relationship between prostaglandin biosynthesis and the effect of insulin on hormone-stimulated lipolysis in rat adipose tissue.

Lipolysis in rat fat pads was studied by determination of free fatty acid and glycerol production in various experimental conditions (in the absence or presence of glucose, adrenalin and insulin). These results were compared to the accumulation of endogenous prostaglandins E2 and F2alpha during lipolysis. In the absence of glucose the prostaglandin production followed the adrenalin-induced fluctuations in released free fatty acids both in the presence or absence of insulin. In the presence of glucose and insulin, a drop in prostaglandin accumulation was observed whereas free fatty acids production was strongly stimulated. These results suggest that either free fatty acid composition is modified, influencing the activity of prostaglandin synthetase, or that there exists a specific mechanism controlling prostaglandin synthesis.     

Prolonged fasting on the lipolytic activity of isolated adipocytes of the rat epididymis

Male Wistar rats, 6-8 week old, were fasted for 72 hours. The in vitro lipolytic activity of epididymal adipocytes was measured in the presence of adrenalin (a alpha and beta adrenergic agonist), isoprenaline (a pure beta agonist), theophylline (a phosphodiesterase inhibitor) or UK 14304 (a alpha 2 adrenoceptor agonist) associated with adenosine deaminase. The basal lipolytic activity, expressed per 100 mg lipids, was higher in fasted adipocytes than in fed ones. Its stimulation by adrenalin or isoproterenol was decreased by fast. The effects of these drugs were more potentiated by theophylline in fasted adipocytes than in fed ones. The UK 14304 inhibition of adenosine deaminase-stimulated lipolysis was about 20% in fasted adipocytes and 50% in fed adipocytes. The in vitro resistance of fasted adipocytes to the lipolytic effect of adrenalin or isoproterenol may be related to the hypothyroid status of fasted rats.     

Effect of prostaglandin I2 on ovine placental vasculature.

The response of the placental circulations to prostaglandin I2 (maternal dose 20 microgram/kg, fetal dose 180 microgram/kg) was observed in 10 near-term sheep with chronically implanted vascular catheters. The blood flows before and 90 s after the injection of prostaglandin I2 were measured using radioactive microspheres. The injection of prostaglandin I2 to the mother decreased th blood pressure from 109 +/- 4 to 69 +/- 5 mmHg (P < 0.001) and increased the vascular resistance of the maternal cotyledons from 0.166 +/- 0.018 to 0.209 +/- 0.02 mmHg/(ml/min) (P < 0.001). The vascular bed of the non-cotyledonary uterus vasodilated as the resistance fell from 0.705 +/- 0.02 to 0.266 +/- 0.02 mmHg/(ml/min). (P < 0.001). Prostaglandin I2 caused the fetal arteriovenous pressure to fall from 37.6 +/- 1.35 to 26.0 +/- 1.6 mmHg. There was no significant change in the vascular resistance of the fetal cotyledons. We observed vasodilation in the fetal membranes as vascular resistance fell from 1.06 +/- 0.14 to 0.75 +/- 0.10 mmHg/(ml/min) (P < 0.001). The infusion of prostaglandin I2 significantly depressed the response of the placenta and uterus to norepinephrine. We have not proved that prostaglandin I2 plays a direct role in maintaining placental vascular homeostasis but it may modulate the response of this organ to exogenous vasoactive agents.     

Effects of Adrenalin on the Conversion Ratio of Tryptophan to Niacin in Rats

The administration of glycemia-affecting chemicals such as alloxan, streptozotocin, and 6-aminonicotinamide decreases the conversion ratio of tryptophan to niacin. Adrenalin is also known to increase the glucose level. For this reason, the effects of adrenalin on the conversion ratio were investigated. We found that the conversion ratio of tryptophan to niacin was reduced to half by the intraperitoneal injection of adrenalin at 75 μg/day/rat (body weight, about 250 g) every day for 7 days. Niacin decreases adrenalin-stimulated glycogenolysis via stimulating phosphodiesterase activity or depressing adenyl cyclase activity. Accordingly, in urgent need of energy, animals would have to decrease the concentration of niacin within the body.     

Effect of adrenalin and adrenal desympathization on brain-seizure activity

The effect of adrenalin and bilateral adrenal desympathization on brain-seizure activity evoked by electrical stimulation of the dorsal hippocampus was studied in adult cats. A few days after bilateral adrenal desympathization the threshold of epileptogenic hippocampal stimulation was lowered and the duration of the evoked seizure response increased. Intravenously injected adrenalin raised the threshold of epileptogenic hippocampal stimulation. After injection of small doses of adrenalin directly into the mesencephalic reticular formation the evoked seizure activity was inhibited: The threshold of epileptogenic hippocampal stimulation was raised and the total duration of the seizure discharges reduced. It is postulated that one of the important factors limiting brain-seizure activity is an increase in the circulating blood adrenalin level.     

Aspirin, prostaglandin E1 and Quin-2 AM-induced platelet dysfunction: restoration of function by noradrenalin

Studies from our laboratory have demonstrated that adrenalin can restore the function of drug-induced refractory platelets to the action of physiological agonists via a novel mechanism (membrane modulation). In various disease states and clinical conditions the circulating levels of noradrenalin (NA) increase several fold more than adrenalin. Therefore, in this study the influence of NA on three well characterized platelet refractory models has been evaluated. Aspirin-exposed platelets were obtained for these studies from blood of donors who had taken one baby aspirin (80 mgs) per day for four consecutive days. Prostaglandin-exposed platelets were obtained by disaggregating ADP-induced aggregates through addition of prostaglandin E1 (1 microM). Finally, low calcium platelets were obtained by buffering cytosolic free calcium with a calcium specific cell permeant fluorophore, Quin-2 AM (60 microM). Drug-exposed platelets did not aggregate irreversibly when stirred with arachidonate (0.45 mM) or NA 5 microM). However, when treated with NA first, drug-treated platelets regained their sensitivity to the action of arachidonate and aggregated irreversibly. The ability of NA to restore the sensitivity of drug-induced refractory platelets was effectively blocked by yohimbine (10 microM), an alpha 2 adrenoceptor antagonist. Results of these studies suggest that NA, similar to the action of adrenalin, can activate membrane modulation and restore the sensitivity of platelets to the action of physiological agonists under a variety of experimental conditions.     

Effect of L-arginine and N(omega)-nitro-L-arginine on oxidative phosphorylation and lipid peroxidation in rats with various tolerance to hypoxia under stressful conditions

The influence of L-arginine (600 mg/kg) and NO-synthase blocator N omega-nitro-L-arginine L-NNA (35 mg/kg) on processes of ADP-stimulated respiration (under using 0.35 mM succinate, 1 mM alpha-ketoglutarate, 2 mM pyruvate, 2 mM glutamate, 2 Mm malate and succinate dehydrohenase blocator--2 mM malonate as substrates of oxidation), lipid peroxidation (concentration of DK and MDA), activities of succinate dehydrohenase and aminotransferases in rats tissues with different resistance to hypoxia under stress conditions have been investigated. It have been shown that the energy metabolism indices (respiration rate and efficiency of phosphorilation ADP/O) are higher in high resistent (HR) animals in the control group. Stress causes the increase of ADP-stimulated respiration in low resistent (LR) under succinate oxidation and decrease of NADPH-dependent utilization, indicative of more effort of energy system in LR animals. Stress conditions are connected with the increase of lipid peroxidation products in blood both in LR and in HR animals, though in hepar their concentration change unimportantly. Injection of L-arginine decreases aerobic component of energy metabolism on the background decreasing aminotransferases ways of oxidation and succinate dehydrohenase activity. L-arginine causes decrease of lipid peroxidation products in LR, in HR the same effect reaches by L-NNA injection. The has been made conclusion about tight correlation between energy metabolism, processes of lipid peroxidation with resistance to hypoxia and functioning of nitric oxide cycle under stress conditions.     

植物CytP450和抗氧化酶对土壤低浓度菲、芘胁迫的响应

以小麦(Triticum acstivnm)为供试植物,草甸棕壤为供试土壤,以微粒体细胞色素P450及抗氧化酶SOD、POD和CAT酶活性为指标,进行了土壤中菲、芘单一及复合胁迫响应研究.结果初步表明,菲、芘胁迫引起植物体内解毒代谢和抗氧化防御酶反应.菲、芘单一胁迫浓度为1mg kg-1时对细胞色素P450产生显著诱导;4 mg kg-1时P450酶含量明显被抑制,表明低浓度菲、芘单一胁迫对植物代谢解毒系统产生损伤;而菲、芘复合1mg kg-1时P450酶含量明显被抑制,说明菲、芘复合胁迫对植物的代谢解毒具有协同毒性效应.土壤中菲、芘单一胁迫未引起SOD酶活性的明显改变,复合胁迫下SOD酶活性出现微弱下降;菲、芘单一胁迫对CAT和POD酶活性具有显著抑制作用;复合胁迫对CAT产生抑制作用,而POD酶活性并未对菲、芘复合产生增强毒性响应.研究从代谢解毒和抗氧化防御酶系统两方面,为土壤低浓度PAHs污染诊断提供了实验依据.     

Effect of activating adrenoreactive structures with noradrenaline on the hemodynamic effects of prostaglandin F2alpha

Cardiovascular effects of prostaglandin F2 alpha were studied upon noradrenaline (NA) injection. The injection of PGF2 alpha alone to control dogs reduced systolic volume and cardiac output, increased total peripheral resistance, and elevated the arterial and venous pressures. When NA was pre-injected, the effect of PGF2 alpha on hemodynamic values was reversed.     

Circulatory responses to 2,4-dinitrophenol in dog limb during normoxia and hypoxia

We tested whether blood flow to skeletal muscle would increase in proportion to an increase in O2 uptake caused by 2,4-dinitrophenol (DNP). We further tested the metabolic control in the face of a central challenge, hypoxic hypoxia. Three injections of DNP were made at 30-min intervals into the arterial supply of the left hindlimb in anesthetized dogs. Similar experiments were done on a second group of dogs ventilated with 12% O2-88% N2 (DNP and hypoxia). A third group served as time controls. Limb O2 uptake increased in a linear fashion in the DNP group with each injection. The increase in limb O2 uptake fell off with the second and third injections in the DNP and hypoxia group and appeared to be limited by the hypoxia. Limb blood flow increased only with the last injection in that group and not at all in the DNP group. Limb vascular resistance decreased in both the experimental groups relative to the time-related changes in the control group. This became more marked as the O2 extraction ratio exceeded 0.5. Even in the absence of nerve stimulation and active muscle contractions, both distribution and resistance control vessels responded in a coordinated fashion to an increase in O2 uptake. Mild hypoxia enhanced these responses but also appeared to limit a fraction of O2 uptake that may not have been concerned with maintaining tissue energy levels.     

Dependence of hypoxic changes in macro- and micro-hemodynamics on the activity of adrenoreceptors in the skeletal muscle in hypothermia

Dependence of hypoxic changes of macro- and microcirculation on the activity of adrenergic receptors in the cooled organism was studied on decentralized shank of cat under perfusion with constant blood flow. After cooling of cat (to 30 degrees C) and blockade of alpha-adrenoreceptors hypoxic hypoxia (10% O2 in N2) caused (a) much greater reduction of precapillary resistance of shank, (b) more striking (by 3 times) increase of capillary filtration coefficient and (c) the increase of capillary pressure and postcapillary resistance in contrast to their decrease to hypoxia under hypothermia before alpha-blockade. Beta-adrenoreceptor blockade had no influence on the changes of the resistance and exchange function of skeletal muscle blood vessels evoked by hypoxia under cooling.     

Inhibitory effects of tetramethyl and tetraethyl derivatives of pyrazine on dog saphenous vein.

The effects of two structurally similar pyrazine derivatives, tetramethylpyrazine (TMP) and tetraethylpyrazine (TEP) on the contractile responses of dog saphenous vein to KCl (via membrane depolarization), phenylephrine (PHE, alpha 1-adrenergic agonist), and B-HT 920 (alpha 2-adrenergic agonist) were investigated. The relaxant or inhibitory effect of TMP and TEP was most potent on KCl-induced responses and least potent on PHE-induced responses. Their effect on KCl-induced responses was more prominent at 30 mM KCl than at 100 mM KCl. In Ca(2+)-free medium, PHE and B-HT 920 elicited transient responses, which were also markedly and reversibly inhibited by TMP and TEP. Similar results were also obtained when prostaglandin F2 alpha was used as an agonist. In all four types of contractile responses involving different receptors, the inhibitory effect of TEP was consistently more potent than that of TMP. We conclude that both TMP and TEP behave as a nonselective smooth muscle relaxant having similar and multiple actions including their general interference with the processes involving both Ca2+ entry and intracellular Ca2+ release.     

The effect of temporary hypoxia on prostaglandin synthesis in mouse brain cell cultures during development

Cultures of dissociated brain cells of new born mice represent a model for the study of brain development. One and two weeks old, they correspond in regard to oligodendrocyte differentiation to about the developmental stage of a human newborn and a six months old infant respectively. Such cultures were used to establish the developmental prostaglandin pattern and to study early and late recovery of prostaglandin synthesis from temporary hypoxia. Basal and bradykinin stimulated prostaglandin release were examined. Most prominently in stimulated release, the developmental prostaglandin pattern at one week showed a prevalence of PGE2 (33 +/- 4%) over PGD2 (12 +/- 5%), which in two weeks old cultures changes to an opposite distribution (PGE2 10 +/- 4%; PGD2 25 +/- 6%). This change goes parallel with the number and differentiation of oligodendrocytes. During the first day post hypoxia, imposed at the end of one week, the production of 6 oxo PGF1 alpha, PGE2, PGD2 and TXB2 was significantly decreased in two study series and increased compared to control in another. Since the arachidonic acid uptake was the same in all three series, this differential observation indicates differential early recovery. 8 days post hypoxia (late recovery), PG release was not different from control, indicating complete recovery at that time. During early recovery from hypoxia on 14 days old cultures, basal PG release was not significantly different from control, however bradykinin stimulated release was significantly inhibited in all three series. This may indicate that mainly regulatory influences on PG release in older cultures are compromised by hypoxia.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cerebral and intestinal perfusion and metabolism in normocythemic hyperviscous hypoxic newborn pigs.

We studied the effects of hypoxia on cerebral cortical and intestinal perfusion and metabolism in normocythemic hyperviscous newborn pigs. Seven pigs were made hyperviscous by an injection of cryoprecipitate, increasing viscosity from 5.8 +/- 0.9 to 9.0 +/- 1. 2 (SD) cycles/s. Six normoviscous pigs received 0.9% NaCl. Reducing the inspired O(2) decreased the arterial O(2) content (Ca(O(2))) from 9.5 +/- 1.6 to 3.6 +/- 1.3 ml O(2)/100 ml. Increases in brain and decreases in gastrointestinal blood flow at the lower Ca(O(2)) values were similar between the groups. During hypoxia, blood flow to stomach, distal intestinal mucosa, and large intestines was lower (-50, -23, and -28%, respectively) in the hyperviscous than normoviscous group. At the lower Ca(O(2)) values, cerebral cortical vascular resistance decreased in both groups and intestinal vascular resistance increased (+257%) in the hyperviscous but not in the normoviscous group. During hypoxia, systemic oxygen delivery decreased, extraction increased, and uptake did not change; cerebral cortical O(2) delivery, extraction, and uptake did not change; and intestinal O(2) delivery decreased, extraction increased, and uptake did not change in both groups. Our study demonstrated that 1) during hypoxia, increases in systemic O(2) extraction compensated for decreases in delivery and systemic uptake did not change; vasodilation sustained cerebral cortical O(2) delivery and preserved metabolism; increases in intestinal oxygen extraction offset decreases in delivery and uptake was preserved; and 2) nonpolycythemic hyperviscosity did not have a major influence on cardiovascular or metabolic responses to hypoxia, except for modest effects on intestinal resistance and perfusion to certain gastrointestinal regions. We conclude that, under normocythemic conditions, a moderate increase in viscosity does not have a major impact on hemodynamic or metabolic adjustments to hypoxia in newborn pigs.     

Effect of prostaglandin E2 on the development of adrenaline-induced myocardiodystrophy

In experiments on male rats it was established, that injection of prostaglandin E2 (PGE2) before the injection of adrenaline decrease essentially the activity of peroxidation of lipids in myocardium in comparison with animals which had only injection of adrenaline. Accordingly, pH is a factor, that limited a damage of myocardium on the development of adrenaline myocardiodystrophy.     

The effects of adrenal hormones, endotoxin and turpentine on serum components of the plaice (Pleuronectes platessa L.)

1. Within 24 hr of injection into plaice, cortisol, deoxycorticosterone, adrenalin or endotoxin cause an increase (P less than 0.001) in circulating C-reactive protein (CRP). Turpentine and soluble dexamethasone have no effect. 2. The increase in CRP with endotoxin is not enhanced with adrenalin or deoxycorticosterone, and in conjunction with cortisol the increase is additive. 3. Changes in CRP are independent of the amounts of serum amyloid P-component or total protein. 4. Turpentine, cortisol and adrenalin cause a rapid increase in circulating glucose. 5. It is concluded that some adrenal hormones stimulate the CRP acute phase response in plaice, without an apparent provoking agent.