Neural and humoral control of regional vascular beds via A1 adenosine receptors located in the nucleus tractus solitarii

Our previous studies showed that stimulation of adenosine A(1) receptors located in the nucleus of the solitary tract (NTS) exerts counteracting effects on the iliac vascular bed: activation of the adrenal medulla and β-adrenergic vasodilation vs. sympathetic and vasopressinergic vasoconstriction. Because NTS A(1) adenosine receptors inhibit baroreflex transmission in the NTS and contribute to the pressor component of the HDR, we hypothesized that these receptors also contribute to the redistribution of blood from the visceral to the muscle vasculature via prevailing sympathetic and vasopressinergic vasoconstriction in the visceral (renal and mesenteric) vascular beds and prevailing β-adrenergic vasodilation in the somatic (iliac) vasculature. To test this hypothesis, we compared the A(1) adenosine-receptor-mediated effects of each vasoactive factor triggered by NTS A(1) adenosine receptor stimulation [N(6)-cyclopentyladenosine (CPA), 330 pmol in 50 nl] on the regional vascular responses in urethane/chloralose-anesthetized rats. The single-factor effects were separated using adrenalectomy, β-adrenergic blockade, V(1) vasopressin receptor blockade, and sinoaortic denervation. In intact animals, initial vasodilation was followed by large, sustained vasoconstriction with smaller responses observed in renal vs. mesenteric and iliac vascular beds. The initial β-adrenergic vasodilation prevailed in the iliac vs. mesenteric and renal vasculature. The large and sustained vasopressinergic vasoconstriction was similar in all vascular beds. Small sympathetic vasoconstriction was observed only in the iliac vasculature in this setting. We conclude that, although A(1) adenosine-receptor-mediated β-adrenergic vasodilation may contribute to the redistribution of blood from the visceral to the muscle vasculature, this effect is overridden by sympathetic and vasopressinergic vasoconstriction.     

The effect of CNS opioid on autonomic nervous and cardiovascular responses in diet-induced obese rats

The intracerebroventricular (i.c.v.) infusion of beta-endorphin can cause either a decrease in blood pressure in normal rats or an increase in obese rats. Diet-induced obesity is associated with an increase of hypothalamic mu opioid receptors. Since beta-endorphins act by opioid receptors, we investigated the effect of CNS mu as well as kappa opioid receptor agonist and antagonist on mean blood pressure (MAP), heart rate (HR) and renal sympathetic nerve activity (RSNA) in male Wistar rats fed either a high fat (HF) (40% fat by weight) or a regular low fat (control) (4% fat by weight) diet. After a 12-week-feeding period the animals were implanted with i.c.v. cannulas and 3-5 days later they were anesthetized and instrumented to record MAP, HR and RSNA. HF rats have higher MAP and the i.c.v. injection of a mu opioid agonist (DAMGO) initially decreased the MAP and then increased MAP, HR and RSNA in the normal animals. The increase was greater in HF animals. The i.c.v. injection of the mu antagonist (beta-FNA) resulted in a significantly greater decrease in MAP in HF animals. beta-FNA increased the RSNA in the HF rats but decreased it in the normal rats. The kappa agonist (dynorphin) decreased MAP in normal rats followed by a return to baseline, but not in HF rats. The kappa antagonist, nor-binaltorphimine (N-BP), increased MAP and RSNA in normal rats and to a lesser extent in HF rats. These findings suggest that rats given a high fat diet have higher blood pressures and a greater mu opioid-mediated responsiveness with a greater mu opioid-mediated autonomic tone. Additionally there is a decreased kappa responsiveness and tone in the HF rats. Both these changes, increased mu and decreased kappa responsiveness could strongly contribute to the increased blood pressure in obese animals.     

The dynamic relationship between mu and kappa opioid receptors in body temperature regulation

Previous studies demonstrated that intracerebroventricular (icv) injection of a kappa opioid receptor agonist decreased, and a mu agonist increased, body temperature (Tb) in rats. A dose-response study with the selective kappa antagonist nor-binaltorphimine (nor-BNI) showed that a low dose (1.25 nmol, icv) alone had no effect, although a high dose (25 nmol, icv) increased Tb. It was hypothesized that the hyperthermia induced by nor-BNI was the result of the antagonist blocking the kappa opioid receptor and releasing its inhibition of mu opioid receptor activity. To determine whether the Tb increase caused by nor-BNI was a mu receptor-mediated effect, we administered the selective mu antagonist CTAP (1.25 nmol, icv) 15 min after nor-BNI (25 nmol, icv) and measured rectal Tb in unrestrained rats. CTAP significantly antagonized the Tb increase induced by icv injection of nor-BNI. Injection of 5 or 10 nmol of CTAP alone significantly decreased the Tb, and 1.25 nmol of nor-BNI blocked that effect, indicating that the CTAP-induced hypothermia was kappa-mediated. The findings strongly suggest that mu antagonists, in blocking the basal hyperthermia mediated by mu receptors, can unmask the endogenous kappa receptor-mediated hypothermia, and that there is a tonic balance between mu and kappa opioid receptors that serves as a homeostatic mechanism for maintaining Tb.     

The cardiovascular responses to mu opioid agonist and antagonist in conscious normal and obese rats

Beta-endorphin decreases blood pressure in normal rats but increases blood pressure in obese rats. Since beta-endorphins can bind both mu opioid and kappa-opioid receptors we investigated the effect of a mu specific receptor agonist, D-Ala2,N-Me-Phe4,Gly5-ol]-enkephalin (DAMGO) and a mu specific antagonist, D-Phe-Cys-Trp-Arg-Thr-Pen-Thr-NH2 (CTAP) on cardiovascular responses in conscious control and obese rats. Rats were also implanted with telemetry transmitters and intracerebroventricular (ICV) cannulas for recording and peptide administration. The mu agonist, DAMGO, increased blood pressure (BP) in control rats. DAMGO also increased BP in obese rats but only at high concentrations. The heart rate responses paralleled the MAP responses. CTAP, the mu antagonist, paradoxically increased the MAP in both control and obese rats. The responsiveness to the mu agonist and antagonist was greater in controls. In other animals the brains were excised and the ventral medial hypothalamic area removed and mu receptor expression determined using PCR. The expression of mu opioid receptors was increased in obese rats. We conclude that the mu opioids can stimulate cardiovascular responses, but the excitatory responsiveness was not increased in conscious obese rats.     

Hemodynamic effects elicited by microinjection of glutamatergic agonists into NTS of conscious rats

In this study, we characterized the arterial pressure, heart rate, and regional vascular conductance responses elicited by unilateral microinjection of ionotropic glutamatergic agonists N-methyl-D-aspartic acid (NMDA and non-NMDA) into the nucleus of tractus solitarius (NTS) of conscious rats. Microinjections of NMDA and S-alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) caused changes in mean arterial pressure (MAP). Lower doses elicited decreases in MAP, whereas higher doses elicited biphasic responses (decreases followed by increases). Both agonists induced bradycardia and elicited dose-dependent vasoconstriction in the renal, mesenteric, and hindquarter beds. AMPA elicited delayed vasodilation in the hindquarter bed but NMDA did not. Bradycardia and initial hypotension produced by each agonist were abolished by systemic administration of the muscarinic antagonist methylatropine. However, methylatropine did not affect either the vasoconstriction or the vasodilatation. The contrasting hemodynamic effects produced by NMDA and AMPA could be caused by activation of differential subsets of NTS neurons. Preferential activation of one subset could produce the NMDA-related responses, whereas activation of another subset would elicit AMPA-related responses.     

Vascular dilatatory responses to sodium nitroprusside (SNP) and alpha-adrenergic antagonism in female and male normal and diabetic rats.

Diabetes is associated with impaired vascular dilatatory responses that appear to be influenced by sex as well as diabetic state. Therefore, we hypothesized that vascular and sympathetic control function exhibit a greater deterioration following the induction of diabetes in female than in male rats. We conducted a comparative determination of the effect of sodium nitroprusside (SNP, a nitrous oxide donor) and that of an alpha1-adrenergic antagonist, prazosin, on selective vascular flows, mean arterial pressure (MAP), and heart rate (HR), in female and male normal and diabetic rats. Rats were made diabetic using streptozotocin (50 mg/kg, iv) and maintained for 5-6 weeks. Following anesthesia with urethane/alpha-chloralose, the femoral artery and vein were cannulated for recording and sampling. Flow probes were placed on the iliac, renal, and superior mesenteric arteries. SNP (1, 5, 10, and 20 microg/kg) infusions resulted in a dose-dependent decrease in MAP in normal and diabetic rats. The decrease in MAP in normal males was 37% less at the 20 microg/kg concentration of SNP when compared to normal females. The HR was not significantly changed in response to the hypotensive effect of SNP; however, reflex tachycardia was more prominent in diabetic males. The vascular conductance (flow/MAP) was increased by SNP in normal and diabetic rats in a dose-dependent fashion; however, the responsiveness was decreased in the iliac and superior mesenteric and increased in the renal arteries in diabetics when compared to normals. Diabetic males were 42% and 28% less responsive to SNP in the iliac and superior mesenteric arteries, respectively. On the other hand, diabetic females were 1.5-fold more responsive in the renal artery when compared to normals. Prazosin (4 mg/kg) decreased the MAP in normal and diabetic rats to a comparable degree. Prazosin increased the vascular conductance in all three vascular beds in normal and diabetic rats with the greater increase occurring in the iliac (118%) and superior mesenteric (110%) arteries. We concluded that diabetes is associated with an increased response to NO in the renal vessels and a decreased response in the iliac and superior mesenteric vessels in both females and males. alpha-Adrenergic tone was greatest in diabetic female and male rats. This study suggests that decreased vascular flow in diabetes is a result of a combination of decreased sensitivity to NO and increased adrenergic tone.     

Inhibition of Neuronal Apoptosis and Axonal Regression Ameliorates Sympathetic Atrophy and Hemodynamic Alterations in Portal Hypertensive Rats

Background and Aim

A neuronal pathway participates in the development of portal hypertension: blockade of afferent sensory nerves in portal vein ligated (PVL) rats simultaneously prevents brain cardiovascular regularory nuclei activation, neuromodulator overexpression in superior mesenteric ganglia, sympathetic atrophy of mesenteric innervation and hemodynamic alterations. Here we investigated in PVL rats alterations in neuromodulators and signaling pathways leading to axonal regression or apoptosis in the superior mesenteric ganglia and tested the effects of the stimulation of neuronal proliferation/survival by using a tyrosine kinase receptor A agonist, gambogic amide.

Results

The neuronal pathway was confirmed by an increased neuronal afferent activity at the vagal nodose ganglia and the presence of semaphorin3A in sympathetic pre-ganglionic neurons at the intermediolateral nucleus of the spinal cord of PVL rats. Expression of the active form of tyrosine kinase receptor A (phosphorylated), leading to proliferation and survival signaling, showed a significant reduction in PVL comparing to sham rats. In contrast, the apoptotic and axonal retraction pathways were stimulated in PVL, demonstrated by a significant overexpression of semaphorin 3A and its receptor neuropilin1, together with increases of cleaved caspase7, inactive poly(ADP-ribose) polymerase and Rho kinase expression. Finally, the administration of gambogic amide in PVL rats showed an amelioration of hemodynamic alterations and sympathetic atrophy, through the activation of survival pathways together with the inhibition of apoptotic cascades and Rho kinase mediated axonal regression.

Conclusion

The adrenergic alteration and sympathetic atrophy in mesenteric vessels during portal hypertension is caused by alterations on neuromodulation leading to post-ganglionic sympathetic regression and apoptosis and contributing to splanchnic vasodilation.     

Alterations in Perivascular Sympathetic and Nitrergic Innervation Function Induced by Late Pregnancy in Rat Mesenteric Arteries

Background and Purpose

We investigated whether pregnancy was associated with changed function in components of perivascular mesenteric innervation and the mechanism/s involved.

Experimental Approach

We used superior mesenteric arteries from female Sprague-Dawley rats divided into two groups: control rats (in oestrous phase) and pregnant rats (20 days of pregnancy). Modifications in the vasoconstrictor response to electrical field stimulation (EFS) were analysed in the presence/absence of phentolamine (alpha-adrenoceptor antagonist) or L-NAME (nitric oxide synthase-NOS- non-specific inhibitor). Vasomotor responses to noradrenaline (NA), and to NO donor DEA-NO were studied, NA and NO release measured and neuronal NOS (nNOS) expression/activation analysed.

Key Results

EFS induced a lower frequency-dependent contraction in pregnant than in control rats. Phentolamine decreased EFS-induced vasoconstriction in segments from both experimental groups, but to a greater extent in control rats. EFS-induced vasoconstriction was increased by L-NAME in arteries from both experimental groups. This increase was greater in segments from pregnant rats. Pregnancy decreased NA release while increasing NO release. nNOS expression was not modified but nNOS activation was increased by pregnancy. Pregnancy decreased NA-induced vasoconstriction response and did not modify DEA-NO-induced vasodilation response.

Conclusions and Implications

Neural control of mesenteric vasomotor tone was altered by pregnancy. Diminished sympathetic and enhanced nitrergic components both contributed to the decreased vasoconstriction response to EFS during pregnancy. All these changes indicate the selective participation of sympathetic and nitrergic innervations in vascular adaptations produced during pregnancy.     

Cardiovascular responses to exercise in the rat: role of corticotropin-releasing factor

The effects of intracerebroventricular (icv) administration of a corticotropin-releasing factor (CRF) receptor antagonist, alpha-helical CRF, on systemic and regional hemodynamic adjustments to exercise were studied in conscious rats. On consecutive days, rats received saline icv, alpha-helical CRF icv, and no treatment 30 min before treadmill exercise (TMX). Increases in heart rate (HR) and mean arterial pressure (MAP) in response to TMX (16.1-28.6 m/min) were similar after icv administration of saline or no treatment. In rats receiving saline icv or no treatment, estimated vascular resistance increased in the mesenteric and renal regions and declined in the iliac (hindlimb) region. After icv administration of alpha-helical CRF9-41, HR and MAP responses during TMX were significantly attenuated. In addition, TMX-induced elevations of estimated mesenteric vascular resistance and iliac blood flow velocity were blunted after CRF receptor blockade. These altered cardiovascular and hemodynamic responses were ultimately reflected in the animals' compromised ability to run. The results suggest that the central nervous system actions of endogenous CRF are necessary for the full expression of the cardiovascular adjustments to TMX in the conscious rat.     

Stimulation of NTS A1 adenosine receptors evokes counteracting effects on hindlimb vasculature

Our previous studies concluded that stimulation of the nucleus of the solitary tract (NTS) A2a receptors evokes preferential hindlimb vasodilation mainly via inducing increases in preganglionic sympathetic nerve activity (pre-ASNA) directed to the adrenal medulla. This increase in pre-ASNA causes the release of epinephrine and subsequent activation of beta-adrenergic receptors that are preferentially located in the skeletal muscle vasculature. Selective activation of NTS A1 adenosine receptors evokes variable, mostly pressor effects and increases pre-ASNA, as well as lumbar sympathetic activity, which is directed to the hindlimb. These counteracting factors may have opposite effects on the hindlimb vasculature resulting in mixed vascular responses. Therefore, in chloralose-urethane-anesthetized rats, we evaluated the contribution of vasodilator versus vasoconstrictor effects of stimulation of NTS A1 receptors on the hindlimb vasculature. We compared the changes in iliac vascular conductance evoked by microinejctions into the NTS of the selective A1 receptor agonist N6-cyclopentyladenosine (330 pmol in 50 nl volume) in intact animals with the responses evoked after beta-adrenergic blockade, bilateral adrenalectomy, bilateral lumbar sympathectomy, and combined adrenalectomy + lumbar sympathectomy. In intact animals, stimulation of NTS A1 receptors evoked variable effects: increases and decreases in mean arterial pressure and iliac conductance with prevailing pressor and vasoconstrictor effects. Peripheral beta-adrenergic receptor blockade and bilateral adrenalectomy eliminated the depressor component of the responses, markedly potentiated iliac vasoconstriction, and tended to increase the pressor responses. Lumbar sympathectomy tended to decrease the pressor and vasoconstrictor responses. After bilateral adrenalectomy plus lumbar sympathectomy, a marked vasoconstriction in iliac vascular bed still persisted, suggesting that the vasoconstrictor component of the response to stimulation of NTS A1 receptors is mediated mostly via circulating factors (e.g., vasopressin, angiotensin II, or circulating catecholamines released from other sympathetic terminals). These data strongly suggest that stimulation of NTS A1 receptors exerts counteracting effects on the iliac vascular bed: activation of the adrenal medulla and beta-adrenergic vasodilation versus vasoconstriction mediated by neural and humoral factors.     

Circulatory effects of VIP in anesthetized man

VIP was given intravenously over 1 min at the doses 0.1 and 0.2 micrograms X kg X min-1 to twenty-one anesthetized patients undergoing abdominal surgery. Intra-arterial blood pressure was monitored and various blood flows were measured simultaneously by electromagnetic technique. Following VIP, intra-arterial blood pressure was decreased. The blood flows were increased in the gastroduodenal-, and the left gastric arteries. The flow in the hepatic artery proper was increased only following the 0.2 micrograms dose. The flow in the superior mesenteric artery varied considerably inter-individually. In branches supplying only the small intestine, it seemed to be unaffected. The flow in the splenic artery was decreased in normal-sized spleens, but unaffected in enlarged spleens. The flow in the external iliac artery initially decreased and thereafter increased. Changes in vascular resistances showed that VIP acted as a vasodilator in the splanchnic region except in the superior mesenteric vasculature, where it was ineffective. In normal spleens it was a vasoconstrictor. In the external iliac artery, an initial insignificant vasoconstriction was followed by vasodilation. It seemed that VIP acts directly on the vessels and has a specific pattern of vasoactivity of probable physiological significance.     

八肽胆囊收缩素对抗阿片肽的中枢性降血压作用

过去的工作已经证明八肽胆囊收缩素(CCK-8)能够对抗阿片肽的镇痛作用,本工作探讨CCK-8是否能够对抗阿片肽的心血管抑制作用。给戊巴比妥钠麻醉大鼠脊髓蛛网膜下腔(ith)注射 CCK-8可以对抗 ith 注射 mu(μ)型阿片受体激动剂[NMePhe~3,D-Pro~4]Morphiceptin(PL017)(5μg)、delta(δ)型受体激动剂[D-Ala~2,D-Leu~5]Enkephalin(DADLE)(25μg)和 Kappa(K)型受体激动剂[N-Me Tyr,N-Me Arg~7,D-Leu~8]Dynorphin 1-8 ethyla-mide(66A-078)(1μg)引起的降低血压和减慢心率作用。在 MAP 的表现上,CCK-8的拮抗作用(10μg及以下剂量)具有量-效关系,并可被 CCK 受体阻断剂丙谷胺(Proglumide)(100μg)翻转。在 HR 的表现上,上述剂量的 CCK-8也显示了一定的拮抗作用,但量-效关系不如 MAP 表现得明显。单纯将 CCK-8或 Proglumide ith 注射,可见大剂量(50μg)CCK-8可以引起明显的降血压作用和短时的降心率作用,小剂量(0.05μg)CCK-8则表现出明显的降心率作用;ith 注射 Proglumide 100μg,30 min 后也表现出减慢心率的作用。以上结果提示:在脊髓水平,一定剂量范围内的 CCK-8能够对抗阿片肽的心血管抑制效应,此对抗作用是通过 CCK 受体实现的。本工作的结果支持关于 CCK-8是一种抗阿片物质的设想。     

The effect of diabetes and sex on nitric oxide-mediated cardiovascular dynamics

Diabetes is associated with impaired cardiovascular responses that are especially prominent in females. Since nitric oxide (NO)-mediated effects on cardiovascular dynamics are altered in diabetes, we evaluated the effect of L-NAME, a nitric oxide synthase (NOS) antagonist, on mean arterial pressure (MAP), heart rate (HR), and selective vascular flows in both male and female normal and diabetic rats as an index of NO activity. Rats were made diabetic using streptozotocin and maintained for 5-6 weeks. Following anesthesia with urethane/alpha-chloralose, the femoral artery and vein were cannulated for recording and sampling, and flow probes were placed on the iliac, renal, and superior mesenteric arteries. A bolus infusion of L-NAME (10mg/ kg) resulted in a rapid +52% and +68% increase in MAP in normal female and male rats, respectively. However, diabetic females' and males' responses were significantly lower (44% and 45%, respectively) when compared with their normal counterparts. The decreased HR in response to the peak pressor effect of L-NAME was more prominent in normal females compared with normal males (-14% vs 2%). The results in diabetic females and males were equivalent (-6% vs -9%, respectively). L-NAME decreased the conductance (flow/MAP) an average of 65% in all three vascular beds in normal female rats. In diabetic females, the iliac and superior mesenteric responses to L-NAME were less, and the renal conductance was contrastingly increased 23%. The response to L-NAME was comparable (-62%) in the renal and superior mesenteric and less (-40%) in the iliacs of normal versus diabetic males. We concluded that diabetes is associated with a decreased pressor response to NOS inhibition. And the impaired constriction response of the renal vessels noted in female diabetic rats may provide a basis for the increased renal pathology observed in diabetic humans.     

Prejunctional effects of opioids in the perfused mesentery of the rat and rabbit: interactions with alpha 2-adrenoceptors.

Prejunctional effects of opioids were examined in the perfused mesentery of two species: the rat and rabbit. Use of agonists selective for subtypes of mu, delta, and kappa opioid receptors produced no effect on contractile responses to adrenergic nerve stimulation in the rat perfused mesentery, except for small effects of the kappa agonist EKC, which may be non specific. In contrast, mu, delta and kappa receptors appear to be present in the rabbit. The mu selective agonist, DAMGO, kappa agonist, ethylketocyclazocine, and delta agonists, DPDPE and [Leu5]-enkephalin, all produced significant inhibition of contractile responses to transmural nerve stimulation. The inhibitory effect was greatest for ethylketocyclazocine. To test the possibility that prejunctional activation of alpha 2 adrenoceptors with endogenous norepinephrine might decrease the activity of prejunctional opioid receptors in the rabbit, inhibitory effects of delta and kappa selective agonists were tested in the presence of 10(-7) M yohimbine. Inhibitory responses of the kappa selective agonist ethylketocyclazocine were enhanced, while that of delta selective agonists [Leu5]-enkephalin and DPDPE remained unchanged when yohimbine was present. Thus, the effects of opioids vary and depend on the tissue and receptor subtypes they act upon. Furthermore, the enhanced inhibitory effect of opioid receptor activation in the presence of yohimbine is not found for all opioid receptors.     

The endothelin ETB receptor mediates both vasodilation and vasoconstriction in vivo.

It has been suggested that the endothelin (ET) ETB receptor could mediate endothelium-dependent vasodilation to ET-1 or ET-3, but its in vivo role is still largely unknown. We used sarafotoxin S6C, a selective agonist of the ETB receptor, to study the in vivo effects of ETB stimulation. SRTX S6C induced a transient decrease in blood pressure, followed by a long-lasting pressor response accompanied by a marked renal and mesenteric vasoconstriction. No constriction was observed in isolated mesenteric arteries in vitro, indicating that the in vivo vasoconstrictor effect is most likely indirect. The pressor effect of SRTX S6C was not dependent on central stimulation of ETB receptors and was not mediated by catecholamines from the adrenal medulla, prostanoids or ET-1.     

Endothelin type A receptor antagonist normalizes blood pressure in rats exposed to eucapnic intermittent hypoxia

We have reported that eucapnic intermittent hypoxia (E-IH) causes systemic hypertension, elevates plasma endothelin 1 (ET-1) levels, and augments vascular reactivity to ET-1 and that a nonspecific ET-1 receptor antagonist acutely lowers blood pressure in E-IH-exposed rats. However, the effect of chronic ET-1 receptor inhibition has not been evaluated, and the ET receptor subtype mediating the vascular effects has not been established. We hypothesized that E-IH causes systemic hypertension through the increased ET-1 activation of vascular ET type A (ET(A)) receptors. We found that mean arterial pressure (MAP) increased after 14 days of 7 h/day E-IH exposure (109 +/- 2 to 137 +/- 4 mmHg; P < 0.005) but did not change in sham-exposed rats. The ET(A) receptor antagonist BQ-123 (10 to 1,000 nmol/kg iv) acutely decreased MAP dose dependently in conscious E-IH but not sham rats, and continuous infusion of BQ-123 (100 nmol.kg(-1).day(-1) sc for 14 days) prevented E-IH-induced increases in MAP. ET-1-induced constriction was augmented in small mesenteric arteries from rats exposed 14 days to E-IH compared with those from sham rats. Constriction was blocked by the ET(A) receptor antagonist BQ-123 (10 microM) but not by the ET type B (ET(B)) receptor antagonist BQ-788 (100 microM). ET(A) receptor mRNA content was greater in renal medulla and coronary arteries from E-IH rats. ET(B) receptor mRNA was not different in any tissues examined, whereas ET-1 mRNA was increased in the heart and in the renal medulla. Thus augmented ET-1-dependent vasoconstriction via vascular ET(A) receptors appears to elevate blood pressure in E-IH-exposed rats.     

In-vitro investigation of oxazol and urea analogues of morphinan at opioid receptors

A series of 2-amino-oxazole (7 and 8) analogs and 2-one-oxazole analogs (9 and 10) were synthesized from cyclorphan (1) or butorphan (2) and evaluated in-vitro by their binding affinity at mu, delta, and kappa opioid receptors and compared with their 2-aminothiozole analogs 5 and 6. Ligands 7-10 showed decreased affinities at kappa and mu receptors. Urea analogs (11-14) were also prepared from 2-aminocyclorphan (3) or 2-aminobutorphan (4) and evaluated in-vitro by their binding affinity at mu, delta, and kappa opioid receptors. The urea derived opioids retained their affinities at mu receptors while showing increased affinities at delta receptors and decreased affinities at kappa receptors. Functional activities of these compounds were measured in the [35S]GTPgammaS binding assay, illustrating that all of these ligands were kappa agonists. At the mu receptor, compounds 11 and 12 were mu agonist/antagonists.     

Effects of U-50,488H and U-50,488H withdrawal on catecholaminergic neurons of the rat hypothalamus

Previous report from our laboratory showed that morphine produces a stimulatory effect of hypothalamic noradrenaline (NA) turnover concurrently with enhanced pituitary-adrenal response after its acute injection and during withdrawal. In the present work we have studied the effects of acute and chronic administration of the kappa agonist U-50,488H as well as the influence of U-50,488H withdrawal on the activity of hypothalamic NA and dopamine (DA) neurons and on the activity of hypothalamic-pituitary-adrenal (HPA) axis. A single dose of U-50,488H (15 mg/kg i.p.) significantly increased hypothalamic NA and decreased DA turnover at the time of an enhanced corticosterone release. Rats rendered tolerant to the kappa agonist by administration of U-50,488H twice a day for 4 days showed no changes in corticosterone secretion. Additionally, a decrease in both hypothalamic MHPG (the cerebral NA metabolite) production and NA turnover was observed, whereas DOPAC concentration and DA turnover were enhanced, which indicate the development of tolerance towards the neuronal and endocrine actions of U-50,488H. After naloxone (3 mg/kg s.c.) administration to U-50,488H-tolerant rats, we found neither behavioural signs of physical dependence nor changes in hypothalamic catecholaminergic neurotransmission. In addition, corticosterone secretion was not altered in U-50,488H withdrawn rats. Present data clearly indicate that tolerance develops towards the NA turnover accelerating and DA turnover decreasing effect of U-50,488H. Importantly and by contrast to mu agonists, present results demonstrate that U-50,488H withdrawal produce no changes in hypothalamic catecholamines turnover or in corticosterone release (an index of the hypothalamus-pituitary-adrenal activity), which indicate the absence of neuroendocrine dependence on the kappa agonist. As has been proposed, this would suggest that the mu and the kappa receptor be regulated through different cellular mechanisms, as kappa agonists have a lower proclivity to induce dependence.     

U-46619 but not serotonin increases endocannabinoid content in middle cerebral artery: evidence for functional relevance

Cerebral vascular smooth muscle cells express the CB(1) cannabinoid receptor, and CB(1) receptor agonists produce vasodilation of cerebral arteries. The purpose of this study was to determine whether vasoconstriction of rat middle cerebral artery (MCA) results in the local formation of endocannabinoids (eCBs), which, via activation of CB(1) receptors, oppose the vasoconstriction in a feedback manner. The thromboxane A(2) (TXA(2)) mimetic U-46619 significantly increased N-arachidonylethanolamine (AEA) and 2-arachidonylglycerol (2-AG) content of isolated MCA, whereas 5-hydroxytrypamine (5-HT) decreased AEA and 2-AG content. If eCBs play a feedback role in the regulation of MCA tone, then CB(1) receptor antagonists should enhance the constriction of MCA produced by U-46619 but not 5-HT. U-46619 caused concentration-dependent constrictions of endothelium-denuded MCA. Two CB(1) receptor antagonists SR-141716 and AM-251 decreased the EC(50) value for U-46619 to constrict endothelium-denuded MCA without affecting the maximal effect. A low concentration of CB(1) receptor agonist Win-55212-2 (30 nM) produced vasodilation of MCAs constricted with low but not saturating concentrations of U-46619. SR-141716 had no effect on the 5-HT concentration-contraction relationship. These data suggest that TXA(2) receptor activation increases MCA eCB content, which, via activation of CB(1) receptors, reduces the constriction produced by moderate concentrations of the TXA(2) agonist. Although 5-HT-induced vasoconstriction is reduced by exogenous CB(1) receptor agonist, activation of 5-HT receptors does not increase eCB content. These results suggest that MCA production of eCBs is not regulated by constriction per se but likely via a signaling pathway that is specific for TXA(2) receptors and not 5-HT receptors.