Tolerance to ethanol-induced contractions of vascular smooth muscle: Role of endothelium

Ethanol, at high concentrations, produced a dose-dependent contraction of male rat aortic rings, $\text{in vitro}$. Mechanical removal of endothelial cells from aortic rings of control rats resulted in a small, but significant, shift of the ethanol dose-response curve to the right without a change in the maximal contraction. Removing the endothelial cells of aortic rings obtained from rats intoxicated with ethanol for two days significantly shifted the ethanol dose-response curve to the left and significantly increased the maximal contraction induced by ethanol. A comparison of the ethanol dose-response curves in aortic rings with endothelium obtained from control rats with those obtained from intoxicated rats indicated a significant shift to the right with no change in maximal response. No significant changes were observed when the responses of aortic rings without endothelium obtained from control and intoxicated rats were compared. These observations confirm that tolerance to ethanol can be demonstrated in vascular smooth muscle. In addition, they demonstrate that the endothelium is required for the development of tolerance to ethanol in the aorta.     

L—arg斤LNNA对大鼠胸主动脉内皮损伤后舒缩反应及cGMP…

本研究在大鼠胸主动脉内皮损伤内膜增生模型上观察了Ｌ－ａｒｇ和ＬＮＮＡ对大鼠胸主动脉条的血管反应性及ｃＧＭＰ含量的影响。血管反应性观察及血管局部ｃＧＭＰ测定发现,大鼠胸主动脉内皮损伤后３天对－ａｒｇ及ＬＮＮＡ的舒缩反应明显受损,血管局部基础ｃＧＭＰ明显下降,用Ｌ－ａｒｇ和ＬＮＮＡ干预后的ｃＧＭＰ变化亦明显受损,损伤后１０天以上现象明显恢复,损伤后２１天进一步恢复,但仍不能恢复正常。结果表明,内皮损伤     

Vasodilatory properties of mono-L-arginine-containing compounds

Benzoyl derivatives of L-arginine, unlike arginine, elicited relaxation of pre-contracted rat aortic rings in a concentration dependent manner. The most potent relaxing agent was N-alpha-benzoyl-L-arginine ethyl ester. The relaxation was abolished by methylene blue, but not by indomethacin. When incubated with rat aortic rings, the benzoyl derivatives exhibited colorimetric reactions characteristic of citrulline and nitrite ion. This indicates the presence of a peptidyl arginine deiminase like activity in rat aorta. Citrulline had no vasodilatory property. The other product of the iminase reaction is ammonia which through oxygenase pathway may generate nitric oxide, the proposed endothelium derived relaxing factor(EDRF). Our results suggest that an as yet unidentified arginine derivative from the endothelium may be the biological precursor of EDRF.     

Endothelium-dependent and -independent relaxation of rat aorta induced by extract of Schizophyllum commune

Schizophyllum commune (SC) is widely consumed by Chinese, especially in southern part of China. The aim of the present study was to assess the extract of SC on vascular tone and the mechanisms involved. Experiments were performed on aorta of 18-week-old male Sprague-Dawley rats. Dried SC was extracted with 50% ethanol, 90% ethanol and deionized water, respectively. The effects of SC on the isometric tension of rat aortic rings were measured. Protein expression for the endothelial nitric oxide synthase (eNOS) was also determined in the primarily cultured rat aortic arterial endothelial cells (RAECs). The results showed that the water extract of SC induced a marked relaxation in aortic rings with or without endothelium. After the pretreatments of N^ω-nitro-l-arginine methyl ester, indomethacin, RP-cAMP, and methylene blue, the SC-induced relaxation was significantly decreased. In addition, the contraction due to Ca²⁺ influx and intracellular Ca²⁺ release was also inhibited by SC. Furthermore, expression of the eNOS protein was significantly elevated in RAECs after treatment of SC. In conclusion, the water extract of SC induces an endothelium-dependent and -independent relaxation in rat aorta. The relaxing effect of SC involves the modulation of NO-cGMP-dependent pathways, PGI₂-cAMP-depedent pathways, Ca²⁺ influx though calcium channels and intracellular Ca²⁺ release.     

Vasoactive intestinal peptide evokes endothelium-dependent relaxation and cyclic AMP accumulation in rat aorta

We have investigated VIP-induced relaxation and cyclic AMP accumulation in rat thoracic aorta strips, and the importance of endothelium to both actions. The relaxation was greatly attenuated by removal of endothelium, but was unaltered by cyclo-oxygenase or lipoxygenase inhibitors. Similarly, cyclic AMP formation was nearly abolished with loss of endothelium, but was largely unaffected by inhibitors of arachidonate pathways, cytochrome P450 or guanylate cyclase. VIP may stimulate the release of a diffusible factor from endothelium (an EDRF), which activates adenylate cyclase and relaxes aortic smooth muscle.     

白细胞介素—8扩血管效应与内皮舒张因子的关系

为探讨内皮舒张因子在白细胞介素-8(IL-8)扩血管效应中的作用,本实验在大鼠离体主动脉条上,观察IL-8对血管反应性及血管组织cGMP含量的影响。实验发现,IL-8显著地扩张离体血管,其作用在去内皮后明显减弱。IL-8还能显著地提高离体血管组织cGMP含量,一氧化氮合成抑制剂L-NNA可阻断这一作用,一氧化氮前体L-精氨酸可逆转L-NNA的效应。结果表明IL-8可以通过促进血管内皮细胞释放一氧化氮而扩张血管。     

Peptidoleukotrienes induce an endothelium-dependent relaxation of guinea pig main pulmonary artery and thoracic aorta

The purpose of our investigation was to assess the role of the endothelium in the vasomotor effects of leukotrienes. Norepinephrine-preconstricted rings isolated from guinea pig main pulmonary artery and thoracic aorta responded to LTC4 and LTD4 with a concentration-dependent relaxation. In endothelium-denuded rings, both LTC4 and LTD4 caused a concentration-dependent contraction. The LTD4 receptor antagonist ICI 198,615 inhibited both LTC4- and LTD4-induced relaxation and contraction. Inhibition of gamma-glutamyl transpeptidase with AT-125 prevented the effects of LTC4, but not those of LTD4. The relaxant effect of LTD4 was not modified by indomethacin, but was abolished by methylene blue. We conclude that: 1) LTD4 induces a receptor-mediated endothelium-dependent relaxation of cavian pulmonary artery and aorta; 2) the vasorelaxant effect of LTC4 requires its conversion to LTD4; 3) the vasorelaxant effect of LTD4 is unrelated to PGI2 release, and is probably due to the release of an "EDRF"; 4) the removal of the endothelium reveals a direct receptor-mediated vasoconstricting effect of leukotrienes.     

EDRF对PE引起的大鼠主动脉缩血管效应的作用

本文研究ＥＤＲＦ（ｅｎｄｏｔｈｅｌｉｕｍ－ｄｅｒｉｖｅｄｒｅｌａｘｉｎｇｆａｃｔｏｒ,ＥＤＲＦ）对ＰＥ（ｐｈｅｎｙｌｅｐｈｒｉｎｅ）引起的大鼠主动脉收缩反应的影响。内皮完整和去内皮的大鼠主动脉环悬挂于器官浴槽中,测定血管的张力和收缩速度的变化。所有的实验在消炎痛（ｉｎｄｏｍｅｔｈａｃｉｎ,１０μｍｏｌ／Ｌ）存在下进行。用美兰（ｍｅｔｈｙｌｅｎｅｂｌｕｅ,ＭＢ,１０μｍｏｌ／Ｌ）或左旋硝基精氨酸（ＮＧ－ｎｉｔｒｏ－Ｌ－ａｒｇｉｎｉｎｅ,Ｌ－ＮＮＡ,３０μｍｏｌ／Ｌ）处理内皮完整的大鼠主动脉环,ＰＥ的剂量－收缩张力曲线明显左移,ＥＣ３０值均降低５倍,最大反应比率分别为１．６±０．４和１．６±０．５。在去内皮的大鼠主动脉环中,经ＭＢ和Ｌ－ＮＮＡ处理后,仍可见ＥＣ３０下降３倍,最大反应比率均为１．０±０．２。后者可能与血管平滑肌产生少量ＥＤＲＦ有关。我们的结果提示ＰＥ对血管的收缩反应也受血管内皮和平滑肌产生的ＥＤＲＦ的调控     

The role of the sodium-calcium exchanger for calcium extrusion in coronary arteries

Calcium ionophores, such as the A23187, cause endothelium-dependent relaxation of arterial strips with intact endothelium, whereas the effect of the ionophore should result from the combination of a relaxation caused by the endothelium-dependent factors and of a contraction of the smooth muscles. In addition, the application of a calcium ionophore to a strip of pig coronary arteries without endothelium does not change cytosolic free calcium concentration and force developed by the smooth muscle cells. To explain these paradoxes, the hypothesis that active calcium extrusion would match the entry of extracellular calcium caused by the ionophore was tested. We see that the sodium-calcium exchanger extrudes calcium that enters the smooth muscle cells in the absence of the ionophore. This exchanger is efficient enough to expel the increased influx of calcium created by the additional calcium carriers formed by the ionophore. This explains the inefficiency of calcium ionophores to increase cytosolic free calcium of smooth muscle cells and consequently, the fact that the ionophore does not cause a contraction of a strip without endothelium. This makes evident that a calcium ionophore fully relaxes, in an endothelium-dependent manner. an intact strip of porcine coronary artery.     

Vascular smooth muscle influences the release of endothelium-derived relaxing factor

Conditioned medium was collected from vascular smooth-muscle cells grown in culture to determine if these cells synthesize vasoactive substances. The medium caused a short-acting endothelium-independent constriction of rat aorta, followed by a prolonged, endothelium-dependent relaxation. This relaxation was mediated through the release of endothelium-derived relaxing factor (EDRF) as it was abolished by the addition of methylene blue (5 x 10(-6) M), haemoglobin (10(-6) M) or methyl arginine, but was not affected by indomethacin (10(-5) M). Smooth-muscle medium stimulated the production of EDRF from both rat and rabbit thoracic aortic rings as well as from cultured bovine pulmonary artery endothelial cells. The prolonged stimulation of EDRF by smooth-muscle medium was not mimicked by known physiological stimuli to EDRF release; EDRF-stimulating activity was not affected when smooth-muscle cells were grown in the presence of indomethacin (10(-5) M), although serum in the medium was required. The EDRF-stimulating substance(s) in the smooth-muscle medium was heat stable and associated with a high molecular mass (30,000 greater than Mr greater than 3500) water-soluble species that is as yet unidentified.     

Vascular contractile effect of urotensin II in young and aged rats: influence of aging and contribution of endothelial nitric oxide

To elucidate whether aging influences the vascular contractile effect of urotensin II in rat thoracic aorta, and to evaluate the contribution of endothelial vasodilating substances in mediating the effect of urotensin II, the effect of urotensin II was examined in the vessels of young (2-3-month-old) and aged rat. Isolated rat aortic rings incubated in Krebs-Henseleit solution gassed with 95% O2/5% CO2 were stimulated with urotensin II, and the developed tension was measured. Urotensin II increased the developed tension, which was decreased by aging. In 2-3-months-old young aorta without endothelium, urotensin II (10(-10) to 10(-7)) elicited a concentration-dependent aortic contraction to the maximal response almost equivalent to high KCl-induced contraction (79.4+/-11.3% of KCl(max)). In the presence of endothelium, the urotensin II-induced vasoconstriction in young aorta was significantly attenuated to 33.3+/-4.6% of KCl(max). However, the contractile response was greater in the pretreatment with N(G)-nitro-L-arginine (L-NNA) (100 microM) (50.3+/-8.4% of KCl(max) in endothelial denuded aorta), suggesting the vasorelaxing role of endothelial nitric oxide. In 25-27-months-old aged rat aorta, the urotensin II-mediated contraction was remarkably decreased, both in the presence (6.3+/-2.0% of KCl(max)) and absence (11.7+/-3.0% of KCl(max)) of endothelium. A cyclooxygenase inhibitor, diclofenac (10 microM), did not have any effect on the urotensin II-induced contraction. These results suggest that urotensin II can induce vascular smooth muscle contraction in rat aorta, and there was an aging-related decline in the urotensin II-induced contraction. Endothelial production of nitric oxide in response to urotensin II but not cyclooxygenase metabolites such as prostacyclin may play a role in reducing the vascular constriction especially in young aorta.     

Pharmacological characteristics of novel putative purinoceptors in vascular endothelium

Using an isolated rat aorta with intact endothelium, a functional bioassay system was created as follows: pre-contract the isolated rat aorta with intact endothelium in the presence of 0.62 micromol/l of norepinephrine, and then add acetylcholine to obtain maximal endothelium-dependent relaxation. In the addition of low concentration of adenosine, a P(1) agonist or ATP, a P(2) agonist to this system, the rat aorta smooth muscle contraction was observed. This observation could not be explained in terms of the classic P(1) and P(2) receptor properties, suggesting that there may be a novel subtype of purinoceptors in the endothelium of the rat aorta. The P(1) and P(2) agonists-induced rat aorta smooth muscle contraction could be blocked by the pretreatments of the bioassay system with a G protein (Gi/o) inhibitor, PTX, and EDNO synthesis inhibitor, L-NAME and cyclooxygenase inhibitor, indomethacine. The data strongly support that this novel purinoceptor may couple with PTX-sensitive G protein, Gi or Go, and the novel purinoceptor-mediated rat aorta smooth muscle contraction is dependent on the endogenous nitric oxide and prostaglandin synthesis. In an additional observation, pathophysiological conditions, such as hypertension, altered the characteristics of the novel receptor. Hypertension caused the novel receptor insensitive to adensone and uncoupling to PTX-sensitive G-proteins and lost of ability to initiate the receptor-mediated prostaglandin synthesis. All together, the novel putative endothelial purinoceptor may play an important role in the control of vascular tone in physiological or pathophysiological statues.     

Interleukin-1beta causes different levels of nitric oxide-mediated depression of contractility in different positions of rat thoracic aorta.

Interleukin-1beta (IL-1beta) can be synthesized by macrophages, endothelial cells and vascular smooth muscle cells when stimulated by bacterial lipopolysaccharide (endotoxin) during septic shock. The IL-1beta levels in the blood vessel wall are also elevated in atherosclerosis. IL-1beta can cause induction of inducible nitric oxide synthase (iNOS) expression in vascular smooth muscle cells and produce vasorelaxation, hypotension and ultimately tissue damage. We studied the depressions of vascular smooth muscle contractions at 3 hours after exposure to IL-1beta in different positions of rat thoracic aorta. The data show that the aortic rings from the cranial end of rat thoracic aorta had little response to IL-1beta (0.5 and 1.0 ng/ml) while those from the caudal end of thoracic aorta had larger depressant response. S-methylisothiourea sulfate (SMT), an iNOS inhibitor, completely blocked the depression of contraction caused by IL-1beta in intact aortic rings. If the endothelium was removed from the aortic rings before exposure to IL-1beta, all rings from different parts of the thoracic aorta showed an equal amount of vasodepression. Thus, the difference in the depressant response of IL-1beta in different portions of thoracic aorta is endothelium-dependent and involves induction of NOS.     

Relaxing and contracting activities of heartworm extract on isolated canine abdominal aorta.

Effect of adult heartworm (HW) crude extract on isolated canine abdominal aortic strips precontracted with noradrenaline was examined by recording isometric changes in tension. HW extract caused contraction of the aortic strip at a low concentration (LC) and its relaxation at a high concentration (HC). In aortic strips without endothelium, LC extract elicited a contraction similar to that in the strips with endothelium, whereas HC extract failed to produce any relaxation but instead produced a contraction. The relaxing effect of HC extract was blocked after treatment with 300 microM NG-nitro-L-arginine methyl ester hydrochloride, with reversal by additional treatment with 3 mM L-arginine. It was also markedly reduced or abolished after treatment with 3 microM oxyhemoglobin or 1 microM methylene blue. Fractionation of HW extract by high-performance liquid chromatography revealed that the relaxing and contracting activities are due to different substances in the extract. The results indicate that HW extract contains 2 different vasoactive substances, 1 causing contraction of canine abdominal aorta via a direct action on the smooth muscle, and the other its relaxation indirectly by releasing nitric oxide from endothelial cells. These vasoactive substances might play a role in HW extract-induced shock in dogs, and in the pathogenesis of HW infection.     

Vascular actions of thrombin receptor peptide.

We have examined the action of the thrombin receptor-derived polypeptide, S42FLLRNPNDKYEPF55 (TRP 42-55), in rat and guinea pig aortic rings and helical arterial strips, and we have compared the actions of the peptide with those of thrombin. In rat preparations, both TRP 42-55 and thrombin caused a concentration-dependent endothelium-dependent relaxation that was blocked by N omega-nitro-L-arginine methyl ester; the relaxation response of the intact rat aortic strip preparation to concentrations of the peptide in the range 30-60 micrograms/mL (17-34 microM) was equivalent to the response to 0.03-0.1 U/mL of thrombin (about 0.3-0.9 nM), yielding a potency ratio (TRP 42-55:thrombin) of about 38,000:1. In contrast with the complete desensitization of thrombin-treated rat aortic preparations to a second administration of the enzyme, the rat aortic tissue was not desensitized by repeated exposures to TRP 42-55 and remained responsive to the peptide even after treatment of the tissue by thrombin. In contrast with the rat aortic tissue, in either intact or endothelium-free guinea pig aortic preparations both TRP 42-55 and thrombin caused a concentration-dependent endothelium-independent contraction. The contractile action of 60 micrograms/mL of receptor peptide (34 microM) in guinea pig aortic strip preparations was equivalent to the contractile action of 0.1-0.3 U/mL thrombin (0.9-3 nM), yielding a potency ratio of about 17,000:1. In guinea pig aortic preparations with an intact endothelium that were precontracted with noradrenaline, neither thrombin nor TRP42-55 caused relaxation, whereas substance P did so.(ABSTRACT TRUNCATED AT 250 WORDS)     

Possible mechanism of captopril induced endothelium-dependent relaxation in isolated rabbit aorta

The mechanism of captopril, an angiotensin converting enzyme (ACE) inhibitor with sulfhydryl group (SH) in its structure, to produce an endothelium-dependent vasorelaxation was studied. In rabbit aorta with intact endothelium and precontracted with phenylephrine, captopril and superoxide dismutase (SOD) produced dose-dependent relaxation. Lisinopril, an ACE inhibitor without a -SH group in its structure, did not produce endothelium-dependent relaxation. It was observed that captopril, like SOD, produced the relaxation by protecting the EDRF from getting inactivated by superoxide anions as pyrogallol and methylene blue inhibited both the captopril and SOD-mediated relaxation. The free radical scavenging action of captopril is further substantiated by the observation that captopril, but not lisinopril, inhibited FeCl₃/ascorbic acid-induced lipid peroxidation in whole tissue homogenates of rabbit aorta to a level comparable to that of SOD. These results suggest that endothelium-dependent vasodilation produced by captopril may be due to its ability to scavenge superoxide anion and this property may be ascribed to the -SH group present in its structure.     

The role of lysolecithin in the relaxation of vascular smooth muscle

The effect of lysolecithin (lysophosphatidylcholine) on the relaxation of rabbit aortic strip closely resembled that produced by acetylcholine (ACh) which releases the endothelium-derived relaxing factor (EDRF). Relaxation induced by lysolecithin depended on the presence of endothelium and was inhibited by hemoglobin and methylene blue. It appeared to be mediated by the second messenger, c-GMP. Lysolecithin induced relaxation was slower but more persistent than that resulting from the endothelium-derived relaxing factor (EDRF) produced by acetylcholine (ACh). Like lysolecithin, Triton X-100, a non-ionic detergent, also preferentially relaxed aortic strips with intact endothelium. The results demonstrate the importance of phospholipids derived from cell membranes in vascular smooth muscle relaxation. Endothelium-derived relaxing factors appear as a group of heterogeneous substances.     

Mechanism of vasorelaxant activity of a fraction of root extract of Sesamum indicum Linn

The petroleum ether soluble fraction (SIPE) of the root extract of S. indicum was evaluated for the vasorelaxant activity using isolated rat aorta. SIPE up to 180 microg/ml concentration significantly inhibited phenylephrine- and KCl-induced contraction to the extent of 98.13 +/- 6.37 and 70.19 +/- 3.43% respectively in isolated rat aorta in a concentration dependent manner. The vasorelaxant activity was not blocked by propranolol (10 microM), atropine (1 microM) indomethacin (10 microM) and glibenclamide (10 microM). Influence of SIPE on phenylephrine-induced contractions in aortic preparations in absence of functional endothelium and on pre-incubating the tissue with L-NAME (300 microM) or methylene blue (10 microM) was also studied. SIPE at 180 microg/ml concentration could elicit partial relaxation in presence of L-NAME or methylene blue to the extent of 34.26 +/- 6.13 and 25.66 +/- 10.95% respectively. However, in absence of functional endothelium, SIPE exhibited little relaxation to the extent of 6.70 +/- 4.87%. These studies revealed that the vasorelaxant activity of SIPE was chiefly mediated through endothelium-dependent pathway.     

Roles of different peptide fragments derived from proadrenomedullin in the regulation of vascular tone in isolated rat aorta

The effects of proadrenomedullin N-terminal 20 peptide (PAMP) and adrenotensin (ADT) on adrenomedullin (ADM)-induced vasodilation were investigated in aortic rings from rat. ADM (10(-9) to 10(-7)M) relaxed the aorta preconstricted with phenylephrine in a concentration-dependent manner. Denudation of endothelium or pretreatment with nitric oxide synthase (NOS) inhibitor, L-NAME, attenuated the vasodilatory action of ADM. ADM-induced vasorelaxation in the aortic rings with endothelium was converted to contraction by PAMP, but not by ADT. The ADM-induced vasodilation was not affected by PAMP in aorta rings without endothelium or in intact aortic rings pretreated with L-NAME. ADM-stimulated nitrite production and NOS activity of the aortas, which was inhibited by PAMP, ADT or PAMP plus ADT. ADM, PAMP, and ADT increased the cyclic adenosine monophosphate (cAMP) contents in vascular tissue. The combination of ADM with PAMP or ADT caused a smaller increase in cAMP level as compared with that of PAMP or ADT alone. These results show that ADM-induced endothelium-dependent vasodilation could be converted to vasoconstriction in the presence of PAMP, probably through a NO-dependent pathway. There was no indication that cAMP was involved in the converting effect of PAMP on ADM vasodilator action.     

Levobupivacaine-induced contraction of isolated rat aorta is calcium dependent

Levobupivacaine is a long-acting local anesthetic that intrinsically produces vasoconstriction in isolated vessels. The goals of this study were to investigate the calcium-dependent mechanism underlying levobupivacaine-induced contraction of isolated rat aorta in vitro and to elucidate the pathway responsible for the endothelium-dependent attenuation of levobupivacaine-induced contraction. Isolated rat aortic rings were suspended to record isometric tension. Cumulative levobupivacaine concentration-response curves were generated in either the presence or absence of the antagonists verapamil, nifedipine, SKF-96365, 2-aminoethoxydiphenylborate, Gd(3+), N(W)-nitro-l-arginine methyl ester (L-NAME), 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (ODQ), and methylene blue, either alone or in combination. Verapamil, nifedipine, SKF-96365, 2-aminoethoxydiphenylborate, low calcium concentrations, and calcium-free Krebs solution attenuated levobupivacaine-induced contraction. Gd(3+) had no effect on levobupivacaine-induced contraction. Levobupivacaine increased intracellular calcium levels in vascular smooth muscle cells. L-NAME, ODQ, and methylene blue increased levobupivacaine-induced contraction in endothelium-intact aorta. SKF-96365 attenuated calcium-induced contraction in a previously calcium-free isotonic depolarizing solution containing 100?mmol/L KCl. Levobupivacaine-induced contraction of rat aortic smooth muscle is mediated primarily by calcium influx from the extracellular space mainly via voltage-operated calcium channels and, in part, by inositol 1,4,5-trisphosphate receptor-mediated release of calcium from the sarcoplasmic reticulum. The nitric oxide - cyclic guanosine monophosphate pathway is involved in the endothelium-dependent attenuation of levobupivacaine-induced contraction.