Central cardiovascular effects of mammalian neurohypophyseal peptides in conscious rats

To confirm and extend the results of previous studies which demonstrated central cardiovascular effects of vasopressin in anesthetized rats, we determined blood pressure and heart rate changes for 30 minutes after intracerebroventricular injections of arginine vasopressin, arginine vasotocin and oxytocin in conscious rats. As compared to sham injections, significantly greater increases in either systolic or diastolic blood pressure were noted over the 30 minutes which followed the injection of 0.15, 1.0 or 10.0 nM of either vasopressin or vasotocin. In animals given vasopressin, plasma levels of the peptide were determined. There was a substantial increase in plasma vasopressin only after the highest dose. Overall blood pressure responses to doses of oxytocin as high as 100 nM were not significantly different than sham injections. Heart rate following both vasopressin and vasotocin was increased at 0.15 nM, was initially decreased then increased at 1.0 nM and was substantially decreased after the 10.0 nM dose. There was a significant increase in heart rate at the 10.0 nM and 100 nM doses of oxytocin. Dose response curves for systolic blood pressure and heart rate 20 minutes after injection were similar for vasopressin and vasotocin. We conclude that arginine vasopressin has significant central pressor and tachycardic effects in conscious rats, and it is related, at least in part, to the tail structure of the peptide, which is shared with arginine vasotocin.     

Cardiovascular and metabolic responses to noradrenaline in men acclimatized to cold baths

The purpose of this study was to see whether artificial acclimatization to cold would reduce the pressor response to noradrenaline (NA) as natural acclimatization has been shown to do, and whether it would induce nonshivering thermogenesis. Three white men were infused with NA at four dosage levels between 0.038 and 0.300 g·kg^–1·min^–1 (2–23 g·min^–1), before and after artificial acclimatization to cold and again 4 months later when acclimatization had decayed. Acclimatization was induced by ten daily cold (15°Q baths of 30–60 min followed by rapid rewarming in hot (38–42°C) water, and was confirmed by tests of the subjects responses to whole-body cooling in air. Three control subjects also underwent the first and third tests. Acclimatization substantially reduced the pressor response to NA at 0.150 and 0.300 g·kg^–1·min^–1, confirming earlier findings by the same technique in naturally acclimatized men, and its decay increased this response to beyond its initial levels (P<0.05 for both changes). Acclimatization did not change the response to NA of heart rate, subjective impressions, skin temperature of finger and toe, pulmonary ventilation, or plasma free fatty acids and ketone bodies. At no time did NA increase oxygen consumption, or increase skin temperature or heat flow over reported sites of brown fat. These findings would seem to show that acclimatization to cold reduces sensitivity to the pressor effect of NA but does not induce nonshivering thermogenesis, and that the reduced sensitivity is replaced by a hypersensitivity to NA when acclimatization decays.     

Integration of autonomic and local mechanisms in regulating cardiovascular responses to heating and cooling in a reptile (<Emphasis Type="Italic">Crocodylus porosus</Emphasis>)

Reptiles change heart rate and blood flow patterns in response to heating and cooling, thereby decreasing the behavioural cost of thermoregulation. We tested the hypothesis that locally produced vasoactive substances, nitric oxide and prostaglandins, mediate the cardiovascular response of reptiles to heat. Heart rate and blood pressure were measured in eight crocodiles (Crocodylus porosus) during heating and cooling and while sequentially inhibiting nitric-oxide synthase and cyclooxygenase enzymes. Heart rate and blood pressure were significantly higher during heating than during cooling in all treatments. Power spectral density of heart rate and blood pressure increased significantly during heating and cooling compared to the preceding period of thermal equilibrium. Spectral density of heart rate in the high frequency band (0.19–0.70 Hz) was significantly greater during cooling in the saline treatment compared to when nitric-oxide synthase and cyclooxygenase enzymes were inhibited. Cross spectral analysis showed that changes in blood pressure preceded heart rate changes at low frequencies (<0.1 Hz) only. We conclude that the autonomic nervous system controls heart rate independently from blood pressure at higher frequencies while blood pressure changes determine heart rate at lower frequencies. Nitric oxide and prostaglandins do not control the characteristic heart rate hysteresis response to heat in C. porosus, although nitric oxide was important in buffering blood pressure against changes in heart rate during cooling, and inhibition caused a compensatory decrease in parasympathetic stimulation of the heart.     

Chronic effects of centrally administered adiponectin on appetite, metabolism and blood pressure regulation in normotensive and hypertensive rats

Acute studies suggest that adiponectin may reduce sympathetic activity and blood pressure (BP) via actions on the central nervous system (CNS). However, the chronic effects of adiponectin on energy expenditure and cardiovascular function are still poorly understood. We tested if chronic intracerebroventricular (ICV) infusion of adiponectin (1 or 7μg/day) in Sprague-Dawley rats fed a high fat diet (HFD) for 8 weeks and at the high dose (7μg/day) in spontaneously hypertensive rats (SHRs), a hypertensive model associated with sympathetic overactivity, evoked chronic reductions in BP and heart rate (HR). We also determined if chronic ICV adiponectin infusion alters appetite, whole body oxygen consumption (VO(2)), and insulin and leptin levels. Neither dose of adiponectin infused for 7 days significantly altered BP or HR in the HFD group (115±2 to 112±2mmHg and 384±6 to 379±6bpm at 1μg/day; 109±3 to 111±3mmHg and 366±5 and 367±5bpm at 7μg/day). The higher dose slightly reduced food intake (14±1 to 11±1g/day), whereas VO(2), insulin and leptin levels were not affected by the treatment. In SHRs, ICV adiponectin infusion reduced appetite (22±2 to 12±2g/day) and insulin levels (～55%), but did not alter BP (162±4 to 164±3mmHg) or HR (312±5 to 322±8bpm). These results suggest that adiponectin, acting via its direct actions on the CNS, has a small effect to reduce appetite and insulin levels, but it has no long-term action to reduce BP or HR, or to alter whole body metabolic rate.     

Chronic ethanol consumption alters cardiovascular functions in conscious rats

Chronic ethanol intake and hypertension are related. In the present work, we investigated the effect of chronic ethanol (20% v/v) intake for 2, 6 and 10 weeks on basal arterial blood pressure, baroreflex and heart rate levels, as well as on the cardiovascular responses to the infusion of vasoactive agents in unanesthetized rats. Mild hypertension was observed after 2 weeks, 6 weeks or 10 weeks of treatment. On the other hand, no changes were observed in heart rate after long-term ethanol intake. Similar baroreflex changes were observed in 2- or 6-week ethanol-treated rats, and affected all parameters of baroreflex sigmoid curves, when compared to the control group. These changes were characterized by an enhanced baroreflex sympathetic component and a reduction in the baroreflex parasympathetic component. No differences in baroreflex parameters were observed in 10-week ethanol-treated animals. The pressor effects of i.v. phenylephrine were enhanced in 2-week ethanol-treated rats; not affected in 6-week treated animals and reduced in 10-week ethanol-treated rats, when compared to respective control and isocaloric groups. The hypotensive response to i.v. sodium nitroprusside (SNP) was enhanced at all different times of treatment, when compared to respective control and isocaloric groups. In conclusion, the present findings showed increased arterial pressure in the early phase of chronic ethanol consumption, which was consequent of rise in both systolic and diastolic pressures. Ethanol intake affected both the sympathetic and the parasympathetic components of the baroreflex. Vascular responsiveness to the pressor agent phenylephrine was initially enhanced and later on decreased during chronic ethanol intake. Vascular responsiveness to the depressor agent SNP was enhanced during chronic ethanol intake.     

Pressor and tachycardic responses to intravenous substance P in anesthetized rats

Intravenous injection of 3–33 nmol/kg of substance P (SP) caused pressor and tachycardic responses in anesthetized rats. The responses were not blocked by a ganglion nicotinic receptor antagonist or by pithing. Pretreatment with reserpine blocked both responses. β-Adrenoceptor blockade attenuated only the tachycardic response, and -adrenoceptor blockade attenuated only the pressor response. These findings indicated that the effects of SP to increase blood pressure and heart rate are due to sympathetic ganglion stimulation. Studies with adrenalectomized rats showed that stimulation of the adrenals by SP contributes to both responses but makes a greater contribution to the tachycardic response. These observations raise the possibility that the tachykinin innervation of sympathetic ganglia and the adrenal medulla may be involved in the local regulation of blood pressure and heart rate.     

Interaction between glutamatergic and nitrergic mechanisms mediating cardiovascular responses to L-glutamate injection in the diagonal band of Broca in anesthetized rats

In a previous study, we reported depressor and bradycardiac responses after L-glutamate (L-glu) microinjection into the diagonal band of Broca (dbB) in anesthetized rats. Here, we report the glutamatergic-receptor subtype mediating the cardiovascular effects evoked by L-glu injection into the dbB and the involvement of local nitric oxide (NO) mechanisms as well as peripheral effectors. Microinjections of 100 nL of L-glu (1, 27, 81, 130 or 200 nmol) into the dbB of urethane-anesthetized rats caused short-lasting depressor and bradycardiac responses. Responses were dose-related, with an ED(50) of approximately 81 nmol. This dose was used in later experiments. The cardiovascular responses to L-glu in the dbB were abolished by local pretreatment (100 nL) with the selective N-methyl-D-aspartic acid (NMDA) receptor antagonist LY235959 (4 nmol) but were not affected by pretreatment with the selective non-NMDA receptor antagonist NBQX (4 nmol). Responses to L-glu in the dbB were blocked by local pretreatment with the selective neuronal NO-synthase (nNOS) inhibitor N(omega)-propyl-L-arginine (NPLA, 0.04 nmol); the NO scavenger carboxy-PTIO (C-PTIO, 1 nmol) or the guanylate cyclase inhibitor ODQ (1 nmol). These results suggest that the microinjection of L-glu into the dbB of urethane-anesthetized rats causes dose-related depressor and bradycardiac responses through the NMDA receptor-NO-guanylate cyclase pathway.     

Baroreflex sensitivity: mechanisms and measurement

This article is a brief review of baroreflex physiology, the definition and functional meaning of baroreflex sensitivity, and the methods used to measure baroreflex sensitivity. The arterial baroreflex is important for haemodynamic stability and for cardioprotection, and it has convincingly been demonstrated that baroreflex sensitivity, even when assessed with different methods, has a strong prognostic value. Development of new baroreflex assessing procedures is still ongoing, with a focus on increased reliability in difficult measuring circumstances, e.g., in patients with a weak baroreflex and in patients with frequent arrhythmias.     

Effect of alcohol on perceived exertion in relation to heart rate and blood lactate

The purpose of the study was to determine whether the perception of exertion is affected by alcohol during physical performance and whether altered self-rating of exertion is the result of an altered perception per se or of an altered physical capacity to perform work. Ten healthy men participated. Each subject was his own control and received an alcohol dose corresponding to 1 g.kg-1 body mass in 40% solution in the experimental session. The exercise test was performed on a cycle ergometer with an initial intensity of 50 W which was increased stepwise by 50 W at 4-min intervals up to near-maximal. The rating of perceived exertion (RPE) did not differ between alcohol and control sessions. Alcohol induced a significant increase in heart rate during exercise at 50 W (delta x = 8 beats.min-1) and at 100 W (delta x = 10 beats.min-1), while the change at higher intensities was insignificant. The systolic blood pressure and the blood lactate concentration were not significantly changed by alcohol. It is concluded that a moderate dose of alcohol does not alter RPE during physical exercise either per se or secondarily to an altered physical capacity to perform work.     

Effect of some acute and prophylactic antimigraine drugs on the vasodepressor sensory CGRPergic outflow in pithed rats

AimsThis study analyzed in pithed rats the effect of several acute and prophylactic antimigraine drugs on the CGRPergic vasodepressor sensory outflow, in an attempt to investigate systemic cardiovascular effects in a model unrelated to migraine.Main methodsMale Wistar pithed rats were pretreated with continuous i.v. infusions of hexamethonium (2 μg/kg.min; to block autonomic outflow) and methoxamine (15–20 μg/kg.min; to maintain diastolic blood pressure at around 130 mmHg). Under these conditions, the effect of both electrical stimulation (0.56–5.6 Hz; 50 V and 2 ms) of the spinal cord (T₉–T₁₂) or i.v. bolus injections of exogenous α-CGRP (0.1–1 µg/kg) were studied in animals pretreated with continuous i.v. infusions of sumatriptan (1–100 μg/kg.min), ergotamine (0.18–0.56 μg/kg.min), dihydroergotamine (1–10 μg/kg.min), magnesium valproate (1000–1800 μg/kg.min), propranolol (100–300 μg/kg.min) or their respective vehicles.Key findingsElectrical stimulation of the spinal cord and i.v. bolus injections of exogenous α-CGRP resulted in, respectively, frequency- and dose-dependent decreases in diastolic blood pressure without affecting heart rate. Moreover, the infusions of sumatriptan, ergotamine and dihydroergotamine, but not of magnesium valproate, propranolol or their respective vehicles, dose-dependently inhibited the vasodepressor responses to electrical stimulation. In contrast, sumatriptan (10 μg/kg.min), ergotamine (0.31 μg/kg.min) and dihydroergotamine (3 μg/kg.min) failed to inhibit the vasodepressor responses to exogenous α-CGRP.SignificanceThe above findings suggest that the acute (rather than the prophylactic) antimigraine drugs attenuate the vasodepressor sensory outflow mainly by prejunctional mechanisms. This may be of particular relevance when considering potential cardiovascular adverse effects by acute antimigraine drugs.     

Circadian Rhythm of Blood Pressure and Heart Rate in Cardiopathic Patients Before and After Heart Transplantation

The aim of this study was to investigate the natural history of the circadian rhythm of blood pressure (BP) and heart rate (HR) in 10 patients with heart failure (class IV of the New York Heart Association), who underwent heart transplantation because of primary congestive cardiomyopathy. The control group was 10 age-matched clinically healthy subjects. The BP and HR monitor-ings were performed before and after transplantation. Preoperatively, analysis of variance and cosinor methods validated the occurrence of a statistically significant BP and HR circadian rhythm in cardiopathic patients. Over the 4 days after surgery, both the cosinor method and serial section analysis were unable to validate a 24-h periodicity for BP and HR in patients with heart transplants. Six months after surgery, the BP and HR circadian rhythm was not detected as well. One year after transplantation. the BP and HR circadian rhythm was statistically validated. The recovery of the BP and HR circadian rhythm 1 year after heart transplantation can be regarded as a clinical sign of a reacquired susceptibility to neurovegetative chronoregulation.     

Effects of pituitary adenylate cyclase-activating polypeptide on cardiovascular and respiratory responses in anaesthetised dogs

This study examines some of the cardiovascular and respiratory effects of pituitary adenylate cyclase-activating polypeptide (PACAP) in anaesthetised dogs. Intravenous injection of PACAP 27 caused an increase in arterial blood pressure and an increase in heart rate. The blood pressure response was significantly reduced by adrenoceptor blockade suggesting a mechanism of action mediated in part via catecholamines. The heart rate increase was unaltered by adrenoceptor blockade suggesting a direct effect of PACAP 27. PACAP 27 also caused potentiation of cardiac slowing caused by stimulation of the vagus nerve. In addition, PACAP 27 powerfully stimulated breathing. This was probably evoked by stimulation of arterial chemoreceptors, because bilateral section of the carotid sinus nerves abolished this effect. PACAP 27 had no effect on the ability of the cardiac sympathetic nerve to increase heart rate, nor on the interaction between the sympathetic and parasympathetic systems in the heart.     

The increase in systolic and diastolic blood pressure after exposure to cryogenic temperatures in normotensive men as a contraindication for whole-body cryostimulation

1.

The changes which occur in a human body subjected to cryogenic temperatures are still not completely understood. Thus the aim of this study was to evaluate changes in blood circulation induced by a single exposure to very low temperature during whole-body cryostimulation of young and clinically healthy male subjects. Prior to the study, candidates underwent a medical examination in order to eliminate individuals with contraindications towards cryostimulation.

2.

The study included 40 young men aged 22±0.7 years, average body weight 76.65±7.8 kg and height 175.5±7.2 cm. The participants were exposed to extremely low temperatures in a cryogenic chamber. Each session lasted for 3 min at −130 °C and was preceded by 30 s of adaptation in a vestibule at −60 °C. Blood pressure and heart rate were measured before entering the chamber, immediately after exiting, and 10 and 20 min after exiting.

3.

Our results showed a significant increase in systolic blood pressure after cryostimulation (by an average of 21 mmHg in comparison with the initial level before cryostimulation) and an increase in diastolic blood pressure after the cryostimulation (by 9 mmHg). The increase in systolic blood pressure was accompanied by a significant decrease in heart rate (by about 10 bpm). Cryostimulation of the whole body is a stress factor and a stimulus for the body which significantly increases systolic blood pressure, but the changes are temporary and not harmful for normotensive individuals.

     

Synchronization of the Circadian Activity Rhythm in Hamsters Following Intermittent Schedule Shifts

The time course of resynchronization of the circadian activity rhythm of hamsters was observed following a 10-hr advance or delay in the light-dark cycle (LD 12:12). Twenty-six shift patterns of the lighting schedule were studied; they consisted of continuous (daily), three-step, two-step and one-step shifting. So long as the daily shift of the lighting schedule was 1 hr or less, the locomotor rhythm followed the continuous shift perfectly. As the amount of daily shift increased, the time course of activity onset deviated more from the time of lights off; the tendency was more marked in advancing than in delaying shifts. Responses of the activity rhythm to stepwise shifting were essentially the same as those to a continuous shift. They were, however, characterized by larger individual variations, and it took additional days before entrainment was achieved. By fitting the time course of entrainment to an exponential model with a constant term, estimates of time constant and shift error were derived. The time constant became shorter with increasing amounts of daily shifts up to 2 hr per day, increasing the number of shift steps, and/or reducing the amount of the initial shift of the seies. The shift error estimated was 0.51 ± 0.12 hr, indicating precise resynchronization. Accordingly, a quicker resynchronization may be expected when a multiple step shift with a moderate initial shift are employed. In the case of a 10-hr shift, for example, a shift of 3 hr followed by another 7 hr may be recommended.     

Cardiovascular effects of neuropeptide Y in the nucleus tractus solitarius of rats: relationship with noradrenaline and vasopressin

The central haemodynamic effects of neuropeptide Y (NPY), both alone and together with either noradrenaline (NA) or vasopressin (AVP), have been investigated by microinjecting synthetic peptide into the nucleus tractus solitarius (NTS) of anaesthetized rats. NPY alone elicited dose-dependent changes in blood pressure (BP) and heart rate (HR); 470 fmol inducing a pressor response, and 4.7 pmol a fall in BP. The hypotensive response to 20 nmol NA was significantly modified by both simultaneous and prior injection of an ineffective dose (47 fmol) of NPY. Prior injection of a similar dose of NPY also modified the NTS pressor effect of 10 ng AVP. A relationship between the action of AVP and NPY in the NTS was further indicated by the finding that prior injection of an ineffective dose of AVP (1 ng) reduced the hypotensive response to 4.7 pmol NPY, and by the demonstration of contrasting effects of 4.7 pmol NPY in AVP-deficient Brattleboro rats compared to parent strain LE rats. These results, taken together with the recent localization of NPY-like immunoreactivity in the NTS, suggest a role for NPY in central cardiovascular control. In addition, NPY has been shown to exhibit functional interactions with both an amine neurotransmitter and a neuropeptide present in the NTS of rats.     

One-handed load carrying — Cardiovascular, muscular and subjective indices of endurance and fatigue

A group of 5 women and 11 men walked on a treadmill, each carrying a weight in the right hand. In separate experiments, the mass was varied to give total exhaustion within 3 min, 5 min, 9 min, and 13 min. In additional experiments 50% and 25% of the masses leading to exhaustion after 5 min were used, and these were stopped after 16 min. Heart rate (fc) and systolic blood pressure (BPs) were measured noninvasively. There was a consistent increase in fc x BPs during the experiments leading to exhaustion, while steady-states were obtained in the nonexhausting trials. An electromyogram (EMG) was recorded with cutaneous electrodes over the flexor carpi ulnaris and flexor digitorum superficialis muscles and the number of zero crossings (ZC) of the EMG signal per time unit were analysed. As the subjects approached exhaustion, the number of ZC declined exponentially, reaching approximately 50% of their initial values. In the nonexhausting experiments, however, the decline was slower and less marked, and during the second half of the experiment the number of ZC increased again. Subjectively, endurance was underestimated by all the subjects. It was concluded that cardiovascular and muscle criteria of fatigue in carrying coincided. Prolonged carrying in one hand of more than 6 kg or 10 kg for young healthy women and men respectively should not be recommended, since it could lead to cardiovascular non steady-states and EMG signs of fatigue.     

Involvement of the nitric oxide/L-arginine and sympathetic nervous systems on the vasodepressor action of human urotensin II in anesthetized rats

This study examined if the nitric oxide (NO)/L-arginine pathway participates in and if the sympathetic nervous system attenuates the depressor action of human urotensin II. I.V. bolus injections of human urotensin II (0.1-30 nmol/kg) caused dose-dependent decreases in mean arterial pressure (MAP, EC(50) = 2.09 +/- 0.8 nmol/kg; Emax = -18 +/- 3 mmHg ) and increases in heart rate. The depressor response to human urotensin II (3 nmol/kg) was attenuated by approximately 50% in rats with MAP elevated through pretreatment with N(G)-nitro-L-arginine methyl ester (inhibitor of NO synthase), relative to that in rats with MAP elevated to a similar level through a continuous infusion of noradrenaline. Autonomic blockade with i.v. injections of mecamylamine (ganglion blocker) and propranolol (beta-adrenoceptor antagonist) markedly augmented the depressor response to human urotensin II, but almost completely attenuated the tachycardia. The results suggest that the depressor response to human urotensin II is partially mediated via the NO/L-arginine pathway, and is suppressed by activity of the sympathetic nervous system. Furthermore, tachycardic response to human urotensin II is primarily mediated indirectly via baroreflex mechanisms.     

Changes in the heart rate and electromyogram beyond the limit time of an isotonic isometric contraction

Nine men [24.6 (SEM 1.1) years] carried out isometric contractions (IC) of the right elbow flexors at 50% and 100% of the maximal voluntary contraction (MVC). At 50% MVC they had to maintain IC until the limit time (isotonic IC: IIC₅₀ and beyond for as long as possible (anisotonic IC: AIC₅₀). At 100% MVC, IC was anisotonic since the decrease in force was immediate (AIC₁₀₀). Measurements of the force, the integrated electromyogram (iEMG) and the heart rate (f _c) were made during the entire period of contraction. There was a linear relationship between the iEMG increase and thef _c increase for IIC₅₀ and AIC₁₀₀. This relationship was not found for AIC₅₀. The role played by the peripheral information would seem to have become more important inf _c regulation when the isotonic IC preceding the anisotonic IC was sufficiently long (submaximal IIC). It would seem that the idea of muscle exhaustion at the limit time was only relative, and depended greatly on the subject's motivation and his capacity to endure a certain degree of pain.     

Reduction in extracellular muscle volume increases heart rate and blood pressure response to isometric exercise

To investigate the effect of local dehydration on heart rate and blood pressure during static exercise, six healthy male subjects performed exercise of the calf muscles with different extracellular volumes of the working muscles. Exercise consisted of 5 min of static calf muscle contractions at about 10% of maximal voluntary contraction. The body position during exercise was identical in all tests, i.e. supine with the knee joint 90 degrees flexed. During a 25-min pre-exercise period three different protocols were employed to manipulate the calf volume. In test A the subjects rested in the exercise position; in test B the body position was the same as in A but calf volumes were increased by venous congestion [cuffs inflated to 10.67 kPa (80 mmHg)]; in test C the calf volumes were decreased by lifting the calves about 40 cm above heart level with the subjects supine. To clamp the changed calf volumes in tests B and C, cuffs were inflated to 300 mmHg 5 min before the onset of exercise. This occlusion was maintained for 1 min after the termination of exercise. Compared to tests A and B, the reduced volume of test C led to significant increases in heart rate and blood pressure during exercise. Oxygen uptake did not exceed resting levels in tests B and C until the cuffs were deflated, indicating that only calf muscles contributed to the neurogenic peripheral drive. It is concluded that extracellular muscle volume plays a significant role in adjusting heart rate and blood pressure during static exercise.