Morphological and functional alterations in glycerol preserved rat aortic allografts.

Glycerol preservation is an effective method for long-term preservation of skin allografts and has a potential use in preserving arterial allografts. We evaluated the effect of glycerol concentration and incubation period on vessel-wall integrity of rat aortic allografts. No significant differences were measured in breaking strength (2.3 +/- 0.3 N) and bursting pressure (223 +/- 32 kPa) between standard glycerolized and control segments (1.7 +/- 0.3 N, 226 +/- 17 kPa). Isometric tension measurements showed complete lack of functional contraction and relaxation capacity in allograft segments prepared according to all preservation protocols. Morphologically, thickness of the vessel-wall media diminished after preservation using low (30/50/75%) or high (70/85/98%) concentrations of glycerol, as compared to control segments (i.e. 81 +/- 2.4 microm, 95 +/- 5.6 microm and 125 +/- 3.5 microm, respectively). Confocal microscopy and Fourier analysis demonstrated that vascular collagen and elastin bundle orientation had remained unaltered. Electron microscopy showed defragmentation of luminal endothelial cells. In conclusion, glycerol preservation of rat aorta resulted in an acellular tissue matrix, which maintained biomechanical integrity and extracellular matrix characteristics. The next step in the investigation will be to test the concept of glycerol preservation of arterial allografts in a vascular transplantation model.

Vasopressin-induced facilitation of adrenergic responses in the rat mesenteric artery is V1-receptor dependent.

1. The present study was designed to analyse the possible involvement of V1- and V2-receptors in vasopressin (AVP)-induced facilitation of the sympathetic nervous system. Furthermore, we aimed to determine whether the site of facilitation by AVP is located pre- or postsynaptically. 2. Electrical field stimulation (EFS) was applied on the rat mesteric artery to activate the sympathetic nervous system. In addition, we evaluated the direct vascular effects of AVP. The postsynaptic effect of AVP on the sympathetic nervous system was investigated by exposing the vessels to exogenous noradrenaline. These experiments were performed in the absence or presence of selective V1 and V2 receptor antagonists SR 49059 and SR 121463, respectively. Desmopressin was applied as a selective V2 agonist. 3. The direct vasoconstrictor effect of AVP was antagonized by SR 49059 and not by SR 121463. Desmopressin neither showed any direct vasoconstrictor effect nor produced vasodilatation after a precontraction induced by noradrenaline (10 microM). The EFS-induced rise in vascular tone could be increased by a sub-pressor concentration of AVP. This fascilitation could be antagonized by SR 49059, but not by SR 121463. Desmopressin did not influence the increase in vascular tone during EFS. Vasoconstriction induced by exogenous noradrenaline could be facilitated by a sub-pressor concentration of AVP and this selective postsynaptic effect could be antagonized by V1-receptor blockade. 4. In conclusion, the AVP-induced facilitation of the sympathetic nervous system is completely V1-receptor dependent and at least partly postsynaptically mediated.

Pharmacological modulation of ureteral peristalsis in a chronically instrumented conscious pig model. I: Effect of cholinergic stimulation and inhibition.

PURPOSE: We evaluated in vivo the role of muscarinic receptors on ureteral peristaltic frequency and contraction force in a large animal model using pharmacological manipulation. MATERIALS AND METHODS: A total of 12 female pigs weighing a mean +/- SEM of 72 +/- 4 kg were chronically instrumented using an electronic pressure monitoring catheter in the right ureter. Furthermore, nephrostomy, arterial, venous and cystostomy catheters were placed. Ureteral peristalsis was repeatedly recorded before and after the administration of atropine and carbachol. RESULTS: Systemic and local effects of the 2 agents were observed. Compared with controls we recorded an increase in mean ureteral peristaltic frequency (2.0 +/- 0.3 versus 1.6 +/- 0.6 minutes-1, p <0.05) and mean contraction force (50.1 +/- 1.4 versus 45.3 +/- 1.7 cm H(2)O, p <0.05) during renal pelvis perfusion with 0.25 ml per minute saline. Administration of atropine or carbachol modulated neither the force of contraction nor the frequency of ureteral peristalsis in vivo (p >0.05). CONCLUSIONS: Smooth muscle motor activity at the mid and distal ureter is not modulated by muscarinic receptors. Peristaltic frequency is directly related to the pyelocaliceal load during a rate of diuresis not exceeding animal normal diuresis plus 0.25 ml per minute. Ureteral contraction force increases only in the mid ureter with increased diuresis.

In vitro function of porcine carotid arteries preserved in UW, HTK and Celsior solutions.

We compared the efficacy of histidine-tryptophan-ketoglutarate (HTK) and University of Wisconsin (UW) solution with Celsior solution using hypothermically-preserved porcine carotid arteries and studied the importance of different components of these solutions by preserving carotid arteries in modified HTK solutions. Excised carotid arteries were stored at 4 degrees C in 0.9% (w/v) NaCl, UW, HTK, Celsior, or a modified HTK solution for up to 14 days. Preservation-induced changes in smooth muscle cell and endothelial cell function were determined using an organ bath for isometric tension recording. Short-term preservation (1-3 days) in UW, HTK and Celsior did not significantly alter contractile and relaxation responses of arterial segments when compared to freshly-excised segments, but significantly impaired these responses in arterial segments stored in 0.9% (w/v) NaCl solution. Long-term hypothermic preservation of arterial segments (7 and 14 days) in 0.9% (w/v) NaCl and HTK solution almost completely abolished all responses, but only slightly reduced the responses of arterial segments stored in UW solution. Intermediate results were obtained for Celsior. Modifying HTK by replacement of chloride for sulfate and phosphate resulted in improved contractile and relaxation responses after long-term preservation. With respect to smooth muscle and endothelial function, UW is superior to HTK and Celsior and the absence of chloride or presence of sulfate and phosphate plays a relevant role in this in vitro model of hypothermic preservation of porcine carotid arteries.

The effects of hypochlorite-induced oxidative stress on presynaptic M2-receptors at sympathetic nerve endings in the rat tail artery.

1 It was shown recently that stimulation of cardiac muscarinic M2-receptors revealed an enhanced negative inotropic response in isolated rat left atria after exposure to hypochlorite-induced oxidative stress. This phenomenon was not observed after stimulation of the cardiac A1-receptor, which like the M2-receptor is coupled to Gi-proteins. Since even the contractile response to M3-receptor stimulation was not amplified in the rat portal vein, we hypothesized a M2-receptor specificity of this hypochlorite-induced enhancement. 2 The present study was performed in order to investigate whether the sympathoinhibitory response to presynaptically located M2-receptor stimulation would also be modified after exposure to hypochlorite in the rat tail artery. We applied electrical field stimulation (EFS) in order to mimic sympathetic neurotransmission. 3 EFS increased the vascular tone frequency-dependently (0.3-4 Hz). EFS-induced vasoconstriction could be attenuated by acetylcholine (30 nM-1 microM) in a concentration-dependent manner. Hypochlorite (10 and 100 microM) did not affect the sympathoinhibitory effect of acetylcholine (100 nM). 4 In conclusion, in contrast to cardiac M2-receptors, hypochlorite did not amplify the sympathoinhibitory effects of presynaptic M2-receptors. The different responsiveness between neuronal and cardiac M2-receptors to hypochlorite may be explained by the different G-protein subunits involved in the activation of the underlying signalling cascade.

Vasomotor effects of arg-gly-asp (RGD) peptides are limited and not related to endothelium-derived hyperpolarizing factor-mediated relaxation in rat mesenteric arteries.

1. In the present study we tested the effect of arg-gly-asp (RGD) peptides on vasomotor responses in rat isolated mesenteric arteries. More specifically, the hypothesis was tested that RGD interaction with integrins mediates relaxation attributed to endothelium-derived hyperpolarizing factor (EDHF). 2. The presence of the beta3 integrin subunit was shown by western blot analysis. To study its functional role, arteries (355 +/- 11 microm; n = 50) were mounted in a wire myograph set-up to measure isometric force generation. After blockade of nitric oxide synthesis with N(G)-nitro-L-arginine (0.1 mmol/L) and prostaglandin synthesis with indomethacin (10 micromol/L), methacholine (10 micromol/L) induced a transient relaxation within 1 min of 72 +/- 4.0% (as percentage of precontraction with phenylephrine; n = 27). 3. These responses were inhibited by a 60 mmol/L potassium buffer (18 +/- 6.0%; n = 6) or endothelium denudation (12 +/- 3.2%; n = 7), consistent with EDHF. 4. A function-blocking monoclonal antibody against the integrin beta3 chain did not affect relaxation. 5. The RGD peptides gly-arg-gly-asp-thr-pro (GRGDTP), gly-arg-gly-asp-ser (GRGDS) and cyclic RGD, ligands for the RGD binding site of integrins, also did not affect relaxation induced by methacholine. 6. Cyclic RGD increased contraction from 91 +/- 3 to 98 +/- 3% (as percentage of 120 mmol/L potassium). 7. In conclusion, these data show that vasomotor responses related to integrins are small and not involved in hyperpolarization attributed to EDHF in rat mesenteric artery.

Oxidative stress impairs the haemodynamic activity of cardiovascular agents with antioxidant properties.

Reactive oxygen species (ROS) are known to be involved in the pathogenesis and progression of various cardiovascular diseases. For some therapeutics like carvedilol and captopril used in the treatment of such diseases antioxidant properties have been proposed to play a role in addition to their haemodynamic activities. It was the aim of the present study to assess whether ROS may affect the molecular integrity and the primary pharmacological actions of compounds with additional antioxidant properties. Accordingly, well-known drugs as mentioned were exposed to ROS, generated by electrolysis and analyzed by means of functional and chemical investigations. For this purpose rat thoracic aortic rings were incubated with either the beta1,2/alpha1-adrenoceptor antagonist carvedilol (100 nM), the alpha1-adrenoceptor antagonist prazosin (5 nM), the thiol-containing ACE-inhibitor captopril (3 microM) or lisinopril (300 nM), an ACE-inhibitor without a thiol moiety. Furthermore, isolated rat left atria were incubated with either carvedilol (14 nM) or with the beta1,2-adrenoceptor antagonist timolol (50 nM). After an incubation period of 15 min, electrolysis was applied to the buffer medium in order to generate ROS. After an additional 15 min, concentration-response curves were constructed for angiotensin I and phenylephrine in thoracic aortic rings incubated with the ACE-inhibitors and the alpha1-adrenoceptor antagonists, respectively. In addition, concentration-response curves were constructed for isoprenaline in presence of the beta1,2-adrenoceptor antagonists in isolated left atria. After exposure to oxidative stress the alpha1- and beta-adrenoceptor blocking activity of carvedilol was significantly impaired, when compared to control conditions. In contrast, the pharmacological effects of prazosin and timolol remained unaffected. The ACE-inhibition by captopril was completely abolished after electrolysis, while the pharmacological action of lisinopril was only slightly reduced. In addition, a complete oxidative degradation of captopril and carvedilol could be demonstrated by using UV/Vis spectroscopy and HPLC/fluorospectroscopy, respectively. From these results we conclude that the haemodynamic therapeutics with additional radical scavenging properties may undergo a chemical modification due to ROS-exposure which results in a loss of pharmacological activity.

Inhibition of facilitation of sympathetic neurotransmission and angiotensin II-induced pressor effects in the pithed rat: comparison between valsartan, candesartan, eprosartan and embusartan.

BACKGROUND: In the pithed rat model, endogenously generated angiotensin (Ang) II can enhance sympathetic neurotransmission by acting on Ang II type 1 (AT1) receptors that are located on sympathetic nerve terminals. OBJECTIVE: To compare the inhibitory potency of candesartan, valsartan, eprosartan and embusartan in blocking presynaptically and postsynaptically located AT1 receptors. DESIGN: To investigate blockade of presynaptic AT1 receptors, we studied the effect of AT1 receptor blockade on the sequelae of electrical stimulation of the thoracolumbar sympathetic outflow (0.25-8 Hz). To investigate the interaction between postsynaptic AT1 blockers and alpha-adrenoceptors, the effects of these compounds on pressor responses to exogenous noradrenaline were determined. To investigate blockade of postsynaptic AT1 receptors, we studied the effect of the AT1 antagonists on dose-response curves elicited by exogenous Ang II. RESULTS: The stimulation-induced increase in diastolic blood pressure (DBP) and the Ang II-elicited DBP response were dose-dependently reduced by all AT1 receptor blockers. Interestingly, the greatest doses of the AT1 antagonists caused less than maximal reduction in the stimulation-induced increase in DBP, resulting in a U-shaped dose-response relationship. To compare sympathoinhibitory potencies, the doses that, at 2 Hz, reduced the change in DBP by 20 mmHg (ED20 values, expressed as -log mol/kg) were calculated; they were 5.50 +/- 0.12, 5.77 +/- 0.10, 6.32 +/- 0.12 and 5.62 +/- 0.13 for valsartan, candesartan, eprosartan and embusartan, respectively. The order of potency, therefore, was eprosartan> valsartan = candesartan = embusartan (where > signifies P < 0.05). To compare the order of potency for inhibition of the Ang II-induced increase in DBP, we calculated pA2 values (the X intercept in Schild regression). They were 7.20 +/- 0.17, 8.01 +/- 0.01, 7.20 +/- 0.03 and 7.25 +/- 0.16, for valsartan, candesartan, eprosartan and embusartan, respectively. Accordingly, the order of potency for inhibition of the direct pressor effects of Ang II was candesartan> valsartan = eprosartan = embusartan (where > signifies P < 0.05). CONCLUSION: In the pithed rat, the effects on DBP of stimulation of the thoracolumbar spinal cord are partly dependent on endogenously formed Ang II. These effects can be counteracted by blockade of presynaptically located AT1 receptors. No interaction was found between postsynaptically located AT1 receptors and alpha-adrenoceptors. The order of potency of the agents tested for sympathoinhibition clearly differed from that for inhibition of the direct pressor effects of Ang II. These findings suggest considerable differences in affinity of the various AT1 blockers for pre- and postsynaptic AT1 receptors.

Reactive oxygen species potentiate the negative inotropic effect of cardiac M2-muscarinic receptor stimulation.

The aim of the present study was to investigate the influence of reactive oxygen species (ROS) on the contractile responses of rat isolated left atria to muscarinic receptor stimulation. ROS were generated by means of electrolysis (30 mA, 75 s) of the organ bath fluid. Twenty minutes after the electrolysis period, the electrically paced atria (3 Hz) were stimulated with the adenylyl cyclase activator forskolin (1 microM). Subsequently, cumulative acetylcholine concentration-response curves were constructed (0.01 nM-10 microM). In addition, phosphoinositide turnover and adenylyl cyclase activity under basal and stimulated conditions were measured. For these biochemical experiments we used the stable acetylcholine analogue carbachol. The atria exposed to reactive oxygen species were influenced more potently (pD2 control: 6.2 vs. 7.1 for electrolysis-treated atria, P<0.05) and more effectively (Emax control: 40% vs. 90% reduction of the initial amplitude, P<0.05) by acetylcholine. In contrast, ROS exposure did not alter the responses to adenosine, whose receptor is also coupled via a Gi-protein to adenylyl cyclase. The basal (40% vs. control, P<0.05) as well as the carbachol-stimulated (-85% vs. control, P<0.05) inositol-phosphate formation was reduced in atria exposed to ROS. The forskolin-stimulated adenylyl cyclase activity was identical in both groups but carbachol stimulation induced a more pronounced reduction in adenylyl cyclase activity in the electrolysis-treated atria. Accordingly we may conclude that ROS enhance the negative inotropic response of isolated rat atria to acetylcholine by both a reduction of the positive (inositide turnover) and increase of the negative (adenylyl cyclase inhibition) inotropic components of cardiac muscarinic receptor stimulation. This phenomenon is most likely M2-receptor specific, since the negative inotropic response to adenosine is unaltered by ROS exposure.

Effect of the AT1-receptor antagonists losartan, irbesartan, and telmisartan on angiotensin II-induced facilitation of sympathetic neurotransmission in the rat mesenteric artery.

SUMMARY: The effect of the AT1-receptor antagonists losartan, irbesartan, and telmisartan on angiotensin II (Ang II)-induced facilitation of noradrenergic neurotransmission was investigated in the isolated rat mesenteric artery under isometric conditions. Electrical field stimulation (2, 4, and 8 Hz) caused a frequency-dependent increase of contractile force. At stimulation frequencies of 2, 4, and 8 Hz, Ang 11 (10 nM) increased the stimulation-induced vasoconstrictor responses by a factor 4.8 +/- 0.9, 2.9 +/- 0.7, and 1.3 +/- 0.1, respectively (p < 0.05 compared with control for all frequencies). The enhancement could be concentration-dependently antagonized by losartan (1 nM-1 microM), irbesartan (0.1 nM-0.1 microM), and telmisartan (0.01 nM-0.01 microM). At a stimulation frequency of 2 Hz, the relation between stimulation-induced vasoconstrictor responses (in presence of Ang II 10 nM) and the concentration of the AT1-antagonists used could be described by linear regression. The order of potency concerning sympathoinhibition was telmisartan > irbesartan > losartan (p < 0.05 between linear regression lines). Contractile responses to exogenous noradrenaline were unaltered in the presence of Ang II 10 nM. We conclude that the facilitating effect of Ang II on noradrenergic neurotransmission is mediated by presynaptically located AT1-receptors. Conversely, this facilitating effect can be dose-dependently counteracted by blockade of these receptors. Sympathoinhibitory properties are likely to contribute to the therapeutic effect of AT1-blockers, in particular in conditions in which the sympathetic nervous system is activated, such as congestive heart failure and hypertension.

Different types of antagonism by losartan and irbesartan on the effects of angiotensin II and its degradation products in rabbit arteries.

A previous study by our group has demonstrated that the selective AT1-receptor antagonist losartan behaves as a noncompetitive antagonist in rabbit isolated renal artery (RA). In the present investigation, the influence of losartan and irbesartan on the contractile effects of angiotensin II (AII) and its degradation products angiotensin III (AIII) and angiotensin IV (AIV) was determined in the rabbit isolated RA and femoral artery (FA). The arteries were set up in organ chambers and changes in isometric force were recorded. In both rabbit isolated RA and FA preparations, AII, AIII and AIV elicited significant contractile responses with a similar efficacy. These effects were impaired by the presence of functional endothelium in RA preparations but not in FA preparations. In both preparations studied, the effects of AII, AIII and AIV were influenced neither by the aminopeptidase-A and -M inhibitor amastatin (10 microM), nor by the aminopeptidase-B and -M inhibitor bestatin (10 microM). In endothelium-denuded FA preparations, preincubation with losartan (3-300 nM) antagonized AII-, AIII- and AIV-induced contractions in a competitive manner. However, in endothelium-denuded RA preparations, losartan depressed the maximal contractile responses induced by AII but not those induced by AIII and AIV. In the same preparations, preincubation of another selective AT1-receptor antagonist irbesartan (3-30 nM) concentration-dependently shifted AII and AIII curves to the right in an insurmountable manner. The reduction of the maximal response of AII is more potent when compared to that of AIII (47.7 +/- 1.51% vs. 66.7 +/- 1.88%, percentage of the initial maximal response; P < 0.05; n=5). The selective AT2-receptor antagonist PD123177 (1 microM) did not influence the responses to all three peptides in both RA and FA preparations. These heterogeneous antagonistic effects of the two AT1-receptor antagonists studied with respect to the contractile actions of AII, AIII and AIV suggest the possible existence of multiple, functionally relevant AT1-receptor subtypes in rabbit RA preparations.

Inhibition of angiotensin II-induced facilitation of sympathetic neurotransmission in the pithed rat: a comparison between losartan, irbesartan, telmisartan, and captopril.

OBJECTIVE: Numerous studies have shown that angiotensin II enhances sympathetic nervous transmission. The objective of the present study was to quantify the inhibitory effect of the angiotensin II type 1 (AT1) receptor blockers losartan, irbesartan and telmisartan and the angiotensin converting enzyme (ACE) inhibitor captopril on sympathetic neurotransmission and to compare the potency of these agents both at the presynaptic and the postsynaptic levels. DESIGN: In the male, normotensive pithed rat model, we studied the effect of losartan (1, 3, 10 and 30 mg/kg), irbesartan (3, 10, 30 and 60 mg/kg), telmisartan (0.3, 1, 3 and 10 mg/kg) and captopril (1.5, 5, 15 and 45 mg/kg) on electrical stimulation of the thoraco-lumbar spinal cord. To investigate the interaction between postsynaptic AT1-receptors and alpha-adrenoceptors, the effects of these compounds on pressor responses to exogenous noradrenaline were studied. RESULTS: Stimulation of the thoracolumbar spinal cord caused a stimulation-frequency dependent rise in diastolic blood pressure (DBP) that could be dose-dependently reduced by both AT1 receptor blockade and ACE inhibition. Interestingly, the highest doses of the AT1 antagonists caused less than maximal reduction in the rise in DBP. This phenomenon was not observed after ACE inhibition by captopril. In experiments with exogenous noradrenaline, no effect of AT1 blockade or ACE inhibition on alpha-adrenoceptor-mediated blood pressure responses was seen. CONCLUSION: We conclude that, in the pithed rat model, the effects of stimulation of the thoraco-lumbar spinal cord on DBP are counteracted by blockade of presynaptically located AT1 receptors. The order of potency concerning sympatico-inhibition is telmisartan > losartan > irbesartan. Regarding the inhibition of angiotensin II-induced facilitation of sympathetic neurotransmission, marked differences were observed between selective AT1 blockade and ACE inhibition. The finding that all three AT1 blockers cause less than maximal inhibition in their highest doses, as opposed to captopril, suggests that this is a class effect of the AT1 antagonists.

Characterisation of a modified approach to the study of sympathetic neurotransmission and its presynaptic modulation in the isolated rabbit thoracic aorta.

INTRODUCTION: The quantification of [(3)H]noradrenaline spillover from electrically stimulated, sympathetic nerves is a widely used method to study presynaptic effects of hormones, transmitters and drugs. Although a straightforward approach, the execution of the experiments is not trivial. This holds true mainly for a reliable control of the experimental conditions, a major pitfall of the commonly used superfusion setup, and problems concerning the sampling of the tritium containing probes. METHODS: These difficulties prompted us to develop a variant of this method, which is based on a classical organ bath setup. Rabbit thoracic aortic rings were incubated with [(3)H]-labeled noradrenaline. Instead of being constantly washed away by superfusion, the [(3)H]noradrenaline is allowed to accumulate in the medium. RESULTS: Electrical field stimulation (EFS) (2 Hz, 3 ms, 150 mA) caused a significant increase of [(3)H]noradrenaline outflow by approximately a factor 4.2 (P<.05). The fractional release of noradrenaline during consecutive periods of stimulation remained unaltered (FR(2)/FR(1) 0.99+/-0.03). The EFS-evoked release could be nearly abolished by the selective sodium channel blocker tetrodotoxin (1 microM) (FR(2)/FR(1) 0.06+/-0.03, P<.05). The N-type calcium antagonist omega-conotoxin GVIA (0.3 microM) abolished the stimulation-evoked outflow (FR(2)/FR(1) 0.01+/-0.06, P<.05), whereas the antisympathotonic agent guanethidine (10 microM) attenuated the EFS-evoked noradrenaline outflow by approximately a factor 2 (FR(2)/FR(1) 0.46+/-0.07, P<.05). Angiotensin II (0.1 and 1 nM) enhanced the EFS-evoked [(3)H]noradrenaline outflow by nearly a factor 1.5 and 2, respectively (FR(2)/FR(1) of 1.43+/-0.11 (0.1 nM) and 2.03+/-0.11 (1 nM); n=6-8, P<.05). All agents failed to influence basal outflow. DISCUSSION: Our modified experimental approach appears to be suitable to study presynaptic influences on sympathetic transmission in the rabbit thoracic aorta. In addition to optimal control of the experimental conditions, the method offers the advantage of a safe and reliable sampling.

Comparison of the time courses and potencies of the vasodilator effects of nifedipine and felodipine in the human forearm.

In a previous study we investigated the differential time courses of the vasodilator effect of various calcium antagonists (CA) in small isolated rat mesenteric arteries (van der Lee et al., Fundam Clin Pharmacol, 1998: 12: 607-12). We concluded that the differences observed could be due to differences in lipophilicity between the CA studied. A measure for lipophilicity is the logarithm of the membrane-partition coefficient (log P). The log P values of nifedipine and felodipine are 2.50 and 4.46, respectively. It was the aim of the present study to compare the time courses of nifedipine and felodipine effects by means of forearm venous occlusion plethysmography in healthy subjects. Healthy male non-smoking volunteers (age 31 +/- 7 years, n = 14) were studied. Informed consent was obtained prior to each experiment from all subjects. The study commenced with the vehicle of either CA (NaCl 0.9% or a PEG400-solution for nifedipine and felodipine, respectively). In four subsequent runs, increasing concentrations of CA were studied for 20 min each, at an infusion rate of 0.3 ml/min. During experiments both hands were excluded from the circulation using small wrist cuffs, inflated to at least 40 mmHg over systolic blood pressure. Mean arterial pressure remained stable in all subjects (88 +/- 3 and 83 +/- 3 mmHg for nifedipine and felodipine, respectively), thus a systemic effect of the CA was not likely. Log IC50 values were -7.46 +/- 0.17 and -8.47 +/- 0.14 for nifedipine and felodipine, respectively (p < 0.01). Averaged KD values were 4.3 +/- 0.6 and 4.6 +/- 0.6 for nifedipine and felodipine, respectively (n.s.). In this model, felodipine appears to be a more potent vasodilator than nifedipine. The 100-fold difference in lipophilicity between the two CA tested is apparently not sufficient to cause major differences in K(D) values in the plethysmography experimental set-up.

The differential time courses of the vasodilator effects of various 1,4-dihydropyridines in isolated human small arteries are correlated to their lipophilicity.

OBJECTIVES: To investigate a possible relationship between the time courses of action of various calcium antagonists and their lipophilicity, characterized as log P-values. METHODS: The functional experiments were performed in vitro in human small subcutaneous arteries (internal diameter 591 +/- 51 microm, n = 7 for each concentration), obtained from cosmetic surgery (mamma reduction and abdominoplasty). The vessels were investigated in an isometric wire myograph. The vasodilator effect of the calcium antagonists was quantified by means of log IC50-values, and the onset of the vasodilator effect for each concentration studied was expressed as time to Eeq90-values (time to reach 90% of the maximal effect). RESULTS: Log IC50-values were -8.46 +/- 0.09, -8.33 +/- 0.25 and -8.72 +/- 0.16 for nifedipine, felodipine and (S)-lercanidipine, respectively (not significant). On average, nifedipine reached time to Eeq90 in 11 +/- 1 min. For felodipine and (S)-lercanidipine the corresponding values were 60 +/- 11 min and 99 +/- 9 min, respectively. The differences between these values were statistically significant (P< 0.01). In spite of these differences in the in-vitro human vascular model, the three calcium antagonists are equipotent with regard to their vasodilator effects. Linear regression analysis of the correlation between the logarithm of the membrane partition coefficient (log P-values) of the calcium antagonists tested [2.50, 4.46 and 6.88 for nifedipine, felodipine and (S)-lercanidipine, respectively] and their respective values found for time to Eeq90 was highly significant. CONCLUSIONS: It appears that a higher log P-value is correlated with a slower onset of action.

Probing the selectivity of allosteric modulators of muscarinic receptors at other G-protein-coupled receptors.

1. The aim of the present investigation was to analyse whether three prototype allosteric modulators of ligand binding to muscarinic receptors, i.e. alcuronium, gallamine, and the alkane-bis-ammonium compound W84 (hexane-1,6-bis[dimethyl-3'-phthalimidopropylammonium bromide]), may have allosteric effects on radioligand-binding characteristics at other G-protein-coupled receptors, such as cerebral A1 adenosine receptors (Gi-coupled), cardiac left ventricular alpha1-adrenoceptors (Gq), and beta-adrenoceptors (Gs). 2. The modulators were applied at concentrations known to be high with regard to the allosteric delay of the dissociation of the antagonist [3H]-N-methylscopolamine (NMS) from muscarinic M2-receptors: 30 micromol l(-1) W84, 30 micromol l(-1) alcuronium, 1000 micromol l(-1) gallamine. As radioligands, we used the adenosine A1-receptor ligand [3H]-cyclopentyl-dipropylxanthine (CPX), the alpha1-adrenoceptor ligand [3H]-prazosin (PRAZ), and the beta-adrenoceptor ligand (-)-[125I]-iodocyanopindolol (ICYP). Allosteric actions on ligand dissociation and the equilibrium binding were measured in the membrane fractions of rat whole forebrain (CPX) and of rat cardiac left ventricle (PRAZ, ICYP, NMS), respectively. 3. CPX and PRAZ showed a monophasic dissociation with half-lives of 5.88+/-0.15 and 12.27+/-0.46 min, respectively. In the case of CPX, neither the binding at equilibrium nor the dissociation characteristics were influenced by the allosteric agents. With PRAZ, the binding at equilibrium remained almost unaltered in the presence of W84, whereas it was reduced to 36+/-2% of the control value with alcuronium and to 42+/-2% with gallamine. The dissociation of PRAZ was not affected by W84, whereas it was moderately accelerated by alcuronium and gallamine. In the case of ICYP, the binding at equilibrium was not affected by the allosteric modulators. The dissociation of ICYP was slow, and after 3 h, more than 50% of the radioligand was still bound, so that a reliable half-life could not be calculated. ICYP dissociation was not affected by W84. In the presence of alcuronium and gallamine, the dissociation curve of ICYP revealed an initial drop from the starting level, followed by the major phase of dissociation being parallel to the control curve. 4. In summary, the allosteric action of the applied agents is not a common feature of G-protein-coupled receptors and appears to be specific for muscarinic receptors.

Beta-adrenergic responses are significantly enhanced in rat carotid artery with intimal hyperplasia.

The objective of the present study was to investigate the influence of balloon injury and subsequent neointima formation in the rat carotid artery on the beta-adrenoceptor function. Rat left common carotid artery was subjected to balloon injury with an arterial embolectomy catheter; the contralateral artery was sham-operated. Immediately, and at 2, 8 and 16 weeks post-injury, both the injured and the sham-operated carotid arteries were isolated and mounted in an isometric wire-myograph set-up. Subsequently, concentration-response curves (CRCs) were constructed for the beta-adrenoceptor agonist isoprenaline after precontraction with the thromboxane A2 (TP)-receptor agonist U46619 (30 nM) of the injured and sham-operated artery preparations. To evaluate the involvement of the beta1- and the beta2-adrenoceptor subtypes, CRCs were constructed in the presence of CGP 20712A (0.1 nM, a beta1-adrenoceptor-selective antagonist) and ICI 118,551 (10 nM, a beta2-adrenoceptor-selective antagonist). L-NAME (100 microM) and indomethacine (10 microM) were used to evaluate the influence of nitric oxide (NO) or prostanoids, respectively. Immediately post-injury, isoprenaline-induced vasorelaxation was impaired in the injured carotid artery preparations: Emax=19.6 +/- 2.2% vs. 64.0 +/- 4.6%, injured vs. sham, n=8, P<0.05. However, from 2 weeks post-injury onwards, this response appeared enhanced in the injured preparations: Emax, 2 weeks= 86.4 +/- 2.2% vs. 49.7 +/- 5.7%, injured vs. sham, n=5, P<0.05. In addition, the sensitivity for isoprenaline was increased in these preparations: pD2, 2 weeks=7.48 +/- 0.08 vs. 6.88 +/- 0.10, injured vs. sham, n=5, P<0.05. The beta-adrenoceptor population in both types of preparations consisted mainly of the beta2-adrenoceptor subtype, although at 8 and 16 weeks post-injury, the beta1-adrenoceptor subtype appeared to be present as well in the injured artery preparations. Inhibition of NO synthesis led to significant decreases of beta-adrenoceptor-mediated vasorelaxation both in injured and in sham-operated artery preparations for all time points, except at 16 weeks. Cyclo-oxygenase inhibition had no influence on isoprenaline-induced vasorelaxation in injured and sham-operated preparations. From this, it is concluded that beta-adrenoceptor-mediated vasorelaxation in rat carotid artery is partially NO-dependent and occurs mainly via activation of the beta2-adrenoceptor subtype. Balloon injury and subsequent neointima formation in the rat carotid artery lead initially to an impairment, but subsequently to an enhancement of the beta-adrenoceptor-mediated vasorelaxation. The impairment is attributable to the removal of endothelium, whereas the enhanced beta-adrenoceptor-mediated function may be related to the occurrence of an NO system in the neointimal smooth muscle cells.

Functional properties of the saphenous vein harvested by minimally invasive techniques.

BACKGROUND: Since surgical techniques affect the functional properties of the vessel wall, the present study investigated the influence of minimally invasive harvesting techniques on the vascular reactivity of the saphenous vein. METHODS: Saphenous vein remnants were obtained after aortocoronary bypass operation from patients subjected to conventional (n = 6), mediastinoscope-assisted (n = 4), or endoscope-assisted venectomy (n = 5). After preservation in University of Wisconsin solution (UW), ring preparations were mounted in a standard organ bath setup and concentration-response curves were constructed for phenylephrine, sodium nitroprusside, and acetylcholine. RESULTS: Saphenous vein reactivity was not altered after preservation in UW. For the vein preparations harvested by means of the three venectomy methods, no differences were demonstrated for responses to KCl, phenylephrine, or sodium nitroprusside. The maximal endothelium-dependent acetylcholine-induced dilation of precontracted vein rings varied between 5% and 12%, independent of the surgical technique applied. CONCLUSIONS: It was demonstrated that minimally invasive surgical techniques for harvesting the saphenous vein, which are developed to reduce postoperative complications at the site of explantation, did not affect the vascular reactivity in a different manner than the conventional method.

Reactive oxygen species-induced aortic vasoconstriction and deterioration of functional integrity.

Oxygen derived free radicals and other reactive oxygen species (ROS) are involved in a variety of disease states, which can have cardiac and vascular implications. The present study was performed to investigate the mechanism of ROS-induced vasoconstriction and the influence of ROS on the functional integrity of isolated rat thoracic aorta. ROS were generated by means of electrolysis (30 mA, during 0.5, 1, 2 or 3 min) of the organ bath fluid. ROS induced a transient (approximately 60 min) vasoconstriction and the maximally induced contraction was dependent on the duration of electrolysis. Dimethyl sulfoxide (DMSO) diminished the ROS-induced vasoconstriction almost completely, indicating a major influence of hydroxyl radicals on contractility. The dual cyclooxygenase/lipoxygenase inhibitor, meclofenamate, completely prevented the ROS-induced vasoconstriction. The phospholipase A2 (PLA2) inhibitor, oleyloxyethyl phosphorylcholine, was able to reduce the vasoconstriction elicited by ROS by approximately 70%. Conversely, the specific cytoplasmic PLA2 inhibitor arachidonyl trifluoromethylketone proved ineffective in this respect. By using the specific mitogen-activated protein kinase (MAPkinase) kinase inhibitor PD98059, it was shown that the activation of extracellular-regulated kinase (ERK) MAPkinase contributes to the ROS-induced vasoconstriction. The effects of ROS on the functional integrity of the aortae were investigated, in particular with respect to receptor (alpha1-adrenoceptor) and non-receptor-mediated contractile responses (high potassium solution). In addition, both the endothelium dependent (methacholine) and endothelium independent (sodium nitroprusside) vasorelaxation were investigated before and after ROS exposure. Electrolysis periods of 0.5 and 1 min induced a modest leftward shift of the concentration response curves for the alpha1-adrenoceptor agonist methoxamine. Longer electrolysis periods of 2 and 3 min additionally decreased the maximal response to (alpha1-adrenoceptor stimulation. Methacholine-induced vasorelaxation proved diminished in aortae subjected to electrolysis (0.5, 1, 2 and 3 min), whereas relaxation to sodium nitroprusside was nearly complete in all groups. KCl-induced contractions proved attenuated only after longer electrolysis periods of 2 and 3 min. This ROS-induced deterioration of functional integrity was almost completely prevented by 0.6% DMSO. From these results we may conclude that ROS induce an eicosanoid and ERK MAPkinase-mediated vasoconstriction in isolated rat thoracic aorta. In addition, exposure to ROS leads to a deterioration of functional integrity characterized by endothelial dysfunction and decreased contractile function.

Evidence for a sympatholytic effect of mibefradil in the pithed rat preparation.

OBJECTIVE: The T-type prevalent calcium channel blocker mibefradil (MIB) was shown to possess N-type calcium channel blocking properties. As this particular type of calcium channel is known to be crucially involved in the neuronal release of noradrenaline, we have investigated whether MIB could be a sympatholytic drug. METHODS: To evaluate the sympathoinhibitory action, the effects of 3 and 10 micromol/kg MIB on the tachycardic effect of electrical stimulation of the preganglionic cardioaccelerator nerves in the pithed rat were investigated. The effect of MIB on the dose-response curve of externally applied noradrenaline was also studied. To compare the results with a classic L-type calcium channel blocker, the experiments were repeated with 3 and 10 micromol/kg verapamil (VER). RESULTS: The maximal increase in heart rate in response to electrical nerve stimulation was 96 +/- 7 bpm (control, n = 6), 70 +/- 6 bpm (3 micromol/kg MIB, n = 8), 57 +/- 6 bpm (10 micromol/kg MIB, n = 5), 93 +/- 5 bpm (3 micromol/kg VER, n = 6) and 46 +/- 7 bpm (10 micromol/kg VER, n = 5). The tachycardic response to electrical stimulation at 1, 5 and 10 Hz was completely blocked by 5 mg/kg intravenous guanethidine. The maximal increase in heart rate in response to noradrenaline was 96 +/- 4 bpm (control, n = 6), 103 +/- 6 (3 micromol/kg MIB, n = 6), 42 +/- 9 bpm (10 micromol/kg MIB, n = 5), 73 +/- 5 bpm (3 micromol/kg VER, n = 5) and 40 +/- 7 bpm (10 micromol/kg VER, n = 6). Under control conditions and in the presence of 3 micromol/kg MIB and VER the maximal effect of noradrenaline was reached at 0.1 micromol/kg whereas in the presence of 10 micromol/kg MIB and VER it was reached at a dose of 1 micromol/kg. MIB at a dose of 3 micromol/kg was significantly more effective in reducing the chronotropic response to electrical stimulation compared with externally applied noradrenaline. For VER the opposite holds true. These differences were not observed with doses of 10 micromol/kg MIB and VER. CONCLUSION: Mibefradil, besides its direct effect on cardiac T- and L-type calcium channels, reduces the release of noradrenaline from sympathetic nerve endings, most probably by inhibition of presynaptic N-type calcium channels. In the model used this effect is only observable at relatively low concentrations, most probably because of the direct cardiodepressant action of MIB provoked by L-type channel blockade.