Krister L. Axelsson

Tolerance towards nitroglycerin, induced in vivo, is correlated to a reduced cGMP response and an alteration in cGMP turnover.

Abstract Rats were made tolerant towards nitroglycerin (GTN) by subcutaneous injections of 50 mg/kg GTN, 3 times daily for 3 consecutive days. The effects of a test dose of GTN on tension and on the cGMP response were studied in aortic preparations. The activities of the enzymes regulating cGMP turnover were also investigated. In noradrenaline (2.5 μM)-contracted tissue from GTN-treated animals, the relaxant response towards the test dose of GTN (44 μM) was reduced by about 75% as compared to the ethanol-treated control rats. The cGMP-elevating action of GTN was reduced by 55%, while no significant effect on the cAMP level could be detected. The cyclic GMP-phosphodiesterase (G-PDE) activity was increased from 770 pmol/min × mg prot (ethanol-pretreated rats) to 1340 pmol/min × mg prot (GTN-pretreated animals). The guanylate cyclase activity, stimulated with 1 mM nitroprusside, was determined with both MnGTP and MgGTP as substrate and found to be reduced by about 75% in aortic homogenates from the GTN-pretreated animals. A slight depression in cGMP-dependent protein kinase activity was detected in aortas from GTN-treated animals. However, this depression seemed to be due to an increased breakdown of the activator (cGMP) since the inclusion of 2.5 mM theophylline in the assay solution abolished the difference. These results strongly support the suggestion that cGMP acts as a mediator of GTN-induced vascular smooth muscle relaxation. The tolerance towards the pharmacological action of GTN after repeated exposure could well be explained by the reduced formation and increased rate of breakdown of cGMP as demonstrated in this study.

Relationship between nitroglycerin, cyclic GMP and relaxation of vascular smooth muscle

Abstract Nitroglycerin (NG) caused a dose dependent-relaxation of the bovine mesenteric artery with an ED 50 -value of 2.7 × 10 −8 M. The relaxant effect of NG was significantly correlated to an increase in the cGMP content of the artery. There was a significant non-linear component in the data. At moderate cGMP levels relaxation and cGMP changes were correlated. At high levels of cGMP, however, the mechanism responsible for the nitroglycerin-mediated relaxation seemed to be completely activated and a further increase in cGMP did not induce additional relaxation. The cGMP content of the preparation was not significantly changed by nitroglycerin. The cGMP increase induced by nitroglycerin preceded the relaxation. A maximal increase of cGMP was observed after 2 min and the levels subsequently declined. This decline was not accompanied by an increase in the tissue tension. It is suggested from these experiments that cGMP might cause a relaxation of the vascular smooth muscle. Furthermore, if this suggestion is true, there seems to exist a “receptor reserve” for NG with respect to its relaxing action, since an over-capacity for cGMP production is present.

Effects of ultraviolet radiation on the tension and the cyclic GMP level of bovine mesenteric arteries

Strips of bovine mesenteric arteries brought to sustained contraction by the addition of 3.0 microM phenylephrine relaxed when exposed to ultraviolet radiation (366 nm). The relaxation was reversible and associated with a rapid increase in the cGMP content. After termination of the radiation the cGMP level rapidly decreased below the basal level. The crude soluble guanylate cyclase from the artery was stimulated about 8-fold by ultraviolet radiation (366 nm). Neither the cGMP-phosphodiesterase activity nor the cAMP level were found to be changed during irradiation. The ultraviolet light-induced relaxation was not dependent on an intact intimal surface. Furthermore, the relaxing effect was found to be enhanced and accompanied by a larger increase of the cGMP level in nitroglycerin-tolerant arteries. The present results show that the ultraviolet light-induced relaxation in bovine mesenteric arteries is associated with a rapid increase in the cGMP content and that ultraviolet light and nitrocompounds may exert their relaxing actions through a common substance.

Role of nitric oxide and cyclic GMP as mediators of endothelium-independent neurogenic relaxation in bovine mesenteric artery.

Electrical field stimulation (EFS) of phenylephrine-contracted bovine mesenteric arteries pretreated with guanethidine elicited a relaxation that amounted to roughly 40%. This relaxation was sensitive to tetrodotoxin pretreatment, suggesting a neurogenic origin. The EFS-induced relaxation was correlated to an increase in cGMP level, from 14.2 +/- 2.5 pmol/g wet wt in nonstimulated arteries to 31.6 +/- 3.4 pmol/g wet wt after 1 minute of EFS. cAMP values were not affected by EFS. Methylene blue (5 microM) and the compound LY 83583 (10 microM), inhibitors of soluble guanylate cyclase, inhibited the EFS-induced relaxation by 60% and 50%, respectively. Zaprinast (1 microM), a selective inhibitor of cGMP degradation, significantly (p = 0.005) potentiated the EFS-induced relaxation. The relaxation induced by EFS in bovine mesenteric arteries exhibits characteristics similar to the relaxations evoked by organic nitroesters and endothelium-dependent vasodilators, both of which are suggested to be mediated by cGMP and probably with nitric oxide as the common activator of the cGMP system. The possible involvement of nitric oxide as a mediator of EFS-induced relaxations was investigated with the use of known modulators of endogenous nitric oxide production. Preincubation of the arteries with 1 mM arginine or 1 mM N-alpha-benzoyl-L-arginine, both reported to potentiate endogenous nitric oxide production, or 5 mM L-canavanine, 0.25 mM NG-monomethyl-L-arginine, or 0.1 mM NG-nitro-L-arginine, alleged inhibitors of endogenous nitric oxide production, were without effect on the relaxation induced by EFS. However, pyrogallol, a generator of superoxide anions, was a potent inhibitor of relaxations induced by EFS in bovine mesenteric arteries.(ABSTRACT TRUNCATED AT 250 WORDS)

Heterogeneity in human soluble guanylate cyclase due to alternative splicing

Two forms of the smaller subunit of the human soluble guanylate cyclase enzyme have been cloned by using PCR. One of the clones (HSGC‐1) is identical to bovine and rat lung smaller subunit cyclase. However, the other (HSGC‐2) is lacking 33 amino acids. Comparison of its sequence with published partial genomic sequences of bovine guanylate cyclase indicates that HSGC‐2 is formed due to alternative splicing.

Glyceryl trinitrate inhibits phosphatidylinositol hydrolysis and protien kinase C activity in bovine mesenteric artery

The effect of glyceryl trinitrate (GTN) on relaxation, cGMP levels, phosphorylase a activity, phosphatidylinositol hydrolysis and protein kinase C activity was studied on isolated bovine mesenteric arteries (BMA). Two concentrations of GTN were tested, 0.1 nM representing a high affinity component and 1 microM representing a low affinity component of the GTN induced relaxation of BMA, giving a relaxation of 20% and 60% and a 2-fold and 5-fold increase in cGMP, respectively. Phosphatidylinositol hydrolysis and protein kinase C activity were significantly, and to the same extent, reduced at both concentrations tested, whereas the phosphorylase a activity was significantly reduced at the higher concentration only, which might indicate a reduction of the free intracellular Ca2+-concentration at high concentrations of GTN. It is concluded that a therapeutically relevant concentration (0.1 nM) of GTN induces relaxation and an increase in cGMP in bovine mesenteric arteries. The relaxation seems to be associated with an inhibition of phosphatidylinositol hydrolysis and a reduction of the protein kinase C activity.

A novel neurogenic vasodilator mechanism in bovine mesenteric artery.

The presence of a neurogenic vasodilator mechanism was investigated in isolated bovine mesenteric arteries (BMAs) that were precontracted with phenylephrine. Electrical field stimulation induced tetrodotoxin-sensitive relaxations in guanethidine-pretreated BMAs. The relaxation occurred after a delay of about 5-8 seconds and amounted to 25-35% in different sets of experiments. The relaxation was not affected by classical receptor antagonists such as atropine (1 μM), cimetidine (3.9 μM), clemastine (2.8 μM), naloxone (1.2 μM), 8- phenyltheophylline (1 μM), propranolol (3.4 μM), ritanserin (5 μM), or droperidol (13 μM). The nicotinic acetylcholine-receptor stimulant l,l-dimethyl-4-phenyl-piperazinium iodide (10 μM) was without effect on the relaxation, and removal of the endothelium of the arteries also had no effect. The bee venom component apamin (1 μM), which has been shown to block the nonadrenergic, noncholinergic relaxation in intestinal and vascular smooth muscle from other species, was also found to be without effect on the relaxation induced by electrical field stimulation in BMAs. Pretreatment of the arteries with capsaicin (1 μM) had no effect per se and did not affect the relaxation induced by a subsequent stimulation. Capsaicin has been suggested to release neurotransmitter and eventually deplete neurons containing substance P and calcitonin gene-related peptide. Furthermore, exogenously applied calcitonin gene-related peptide (1-100 nM), substance P (10 nM-1 μM), and vasoactive intestinal peptide (0.3-30 nM) gave relaxations amounting to less than 10%. It is postulated that electrical field stimulation induces a neurogenic relaxation of a nonadrenergic, noncholinergic nature in BMAs. The relaxation is not dependent on an intact endothelium and seems not to be mediated by any of the known vasodilatory neuropeptides.

Effects of sodium nitrite on ultraviolet light-induced relaxation and ultraviolet light-dependent activation of guanylate cyclase in bovine mesenteric arteries

It was demonstrated that precontracted strips from different bovine mesenteric arteries showed variation in sensitivity to ultraviolet radiation (366 nm). Some strips relaxed when they were exposed to ultraviolet light, others showed no sensitivity at all and, finally, some showed contraction. However, all arteries relaxed when they were irradiated with UV-light in the presence of 10 microM NaNO2. Ultraviolet radiation (366 nm) increased the activity of guanylate cyclase in crude homogenate from bovine mesenteric arteries by about 20-fold in the presence of NaNO2, while UV-light in the absence of sodium nitrite had no effect on the guanylate cyclase activation. These results support the notion that nitrite may be essential for vascular smooth muscle relaxation by UV-light, possibly through the release of nitric oxide.

Protein kinase C and casein kinase II activities in two human colon carcinoma cell lines, HT-29 and CaCo-2: possible correlation with differentiation.

Protein kinase C (PK-C) and casein kinase II (CK-II) activities were studied in two human colon carcinoma cell lines (HT-29 and CaCO-2) undergoing differentiationin vitro resulting, in small-intestine-like cells. CaCo-2 cells, when grown under standard conditions, appear to undergo spontaneous differentiation. In these cells PK-C and CK-II activities were determined on day 5, 10 and 15. No significant differences in activities were seen either in PK-C or CK-II activity. HT-29 cells, when grown in glucose-free medium can be stimulated to undergo differentiation which is completed within 20 days. PK-C and CK-II activities were determined after 5, 10, 15, 20 and 25 days, respectively. PK-C activity rose from 7.9±3.5 pmole32P/mg protein/min at day 5 to 37.5±14.8 pmole32P/mg protein/min at day 20. After 25 days the activity was reduced to 20.0±7.8 pmole32P/mg protein/min. CK-II activity did not change significantly during day 5 to 20, but on day 25 there was a significant decrease in CK-II activity from 94.9±6.4 pmole32P/mg protein/min (day 20) to 62.6±3.9 pmole32P/mg protein/min (day 25) p=0.003. The results in this study indicate a role for PK-C and CK-II in cell growth and differentiation.

Comparative in vitro study of a series of organic nitroesters: unique biphasic concentration-effect curves for glyceryl trinitrate in isolated bovine arterial smooth muscle and lack of stereoselectivity for some glyceryl trinitrate analogues.

Summary: Four different organic nitroesters, constituting a homologous series based on unbranched polyalcohols, were compared with regard to in vitro relaxation of isolated bovine mesenteric arteries contracted with 2.5 μM phenylephrine. The organic nitroesters included ethylene glycol dinitrate (EGDN), dinitratopropane (DPN), glyceryl trinitrate (GTN), and tetranitratobutane. Glyceryl trinitrate exhibited a biphasic concentration-effect relationship, with pD2 values of 11.5 ±; 0.5 and 7.2 ±; 0.2 for the high-pD2 and low-pD2 component of the relaxation curve, respectively. The high-pD2 and low-pD2 component contributed 28 and 72% of the maximal response, respectively. EGDN, DPN, and tetranitratobutane induced monophasic concentration-effect curves with pD2 values of 7.4 ±;0.1, 7.8 ±;0.2, and 6.9 ±; 0.6, respectively. Stereoisomeric forms of DPN and tetranitratobutane showed no difference with regard to relaxing potency in bovine mesenteric artery. GTN has a partly unique mechanism for vascular smooth muscle relaxation that distinguishes this compound from other related organic nitroesters.