Influence of electric fields on the smectic layer structure of ferroelectric and antiferroelectric liquid crystal devices.

The electric-field-induced structural rearrangement of smectic layers in the antiferroelectric and ferroelectric phases of three different materials is reported. The materials all have high optical tilt angles (around 30 degrees ), compared with the steric tilt angles deduced from layer spacing measurements (around 18 degrees ). The chevron angles observed in devices agree well with values found for the steric tilt angle across the tilted mesophase range. Electric fields were applied to liquid crystal devices while the smectic layer structures, in both the depth and in the plane of the device, were probed using small angle x-ray scattering. Two separate aspects of the influence of the field on the layer structure were studied. First, the organization of the smectic layers in the antiferroelectric phase is described before, during, and after the application of an electric field of sufficient magnitude to induce a chevron to bookshelf transition. Second, the evolution of the field-induced layer structure change has been investigated as the field was incrementally increased in both the antiferroelectric and ferroelectric phases. It was found that the chevron to bookshelf transition has a distinct threshold in the antiferroelectric phase, but shows low or zero threshold behavior in the ferroelectric phase for all the materials studied.

Evaluation of the novel potassium channel activator BRL 55834 as an inhaled bronchodilator in guinea-pigs and rats: comparison with levcromakalim and salbutamol.

The novel potassium channel activator BRL 55834 and the prototype compound levcromakalim have been compared as inhaled bronchodilators in guinea-pigs and rats. Salbutamol was included in the guinea-pig studies. In anaesthetized guinea-pigs, inhaled BRL 55834 [ED50 = 0.9 (0.5-1.5) micrograms per animal] was equipotent with salbutamol and about tenfold more potent than levcromakalim as an inhibitor of the increase in airways resistance in response to iv histamine. In anaesthetized rats, BRL 55834 [ED50 = 0.5 (0.4-0.7) micrograms] was about eightfold more potent than levcromakalim in inhibiting the response to inhaled methacholine. BRL 55834 had no effect on blood pressure in anaesthetized guinea-pigs or rats, whereas levcromakalim lowered blood pressure in rats at a dose level that had less effect on the airways than one tenth of the highest dose of BRL 55834 used. In conscious guinea-pigs, BRL 55834 (ED100 = 5 micrograms) was twice as potent as levcromakalim and one sixth as potent as salbutamol in delaying the onset of dyspnoea in response to inhaled histamine. In each model each compound was effective at the earliest time studied, but the peak effect of BRL 55834 tended to be delayed and it was longer acting than levcromakalim or salbutamol. Thus inhaled BRL 55834 is a potent bronchodilator, with a rapid but prolonged duration of action that lacks significant systemic vascular activity.

Effects of levcromakalim and RP52891 on NANCe nerve-mediated changes in pulmonary dynamics evoked by vagal stimulation in the guinea-pig.

The effects of the potassium channel activators (KCA) levcromakalim and RP52891 on NANCe nerve-mediated changes in pulmonary dynamics were investigated in the anaesthetized guinea-pig, using a newly-developed respiratory dynamics computer. Levcromakalim (0.025-0.2 mg/kg i.v.) and RP52891 (0.05-0.5 mg/kg i.v.) caused dose-dependent inhibition of NANCe nerve-mediated increases in airways resistance (RAW) and decreases in dynamic compliance (Cdyn). These effects of the KCAs persisted for at least 1 h. Unlike NANCe nerve-mediated responses, equivalent challenges with exogenously-administered substance P (SP; 10-25 micrograms/kg i.v.) and neurokinin A (NKA; 0.5-2.0 micrograms/kg i.v.) tended to produce progressively increasing responses but this effect was not statistically significant. Levcromakalim (0.2 mg/kg i.v.) and RP52891 (0.5 mg/kg i.v.) did not significantly decrease responses to exogenously-administered SP, although NKA-induced bronchoconstriction was attenuated. Glibenclamide (25 mg/kg i.v.) partially reversed the NANCe-inhibitory effects of levcromakalim (0.1 mg/kg i.v.) and RP52891 (0.25 mg/kg i.v.) and fully reversed their hypotensive effects. We have shown that levcromakalim and RP52891 inhibit bronchoconstrictor responses to NANCe nerve stimulation. This involves the opening of a glibenclamide-sensitive K(+)-channel and may represent effects at a pre-junctional site on NANCe neurones to reduce transmitter release.

Comparison of the airways relaxant and hypotensive potencies of the potassium channel activators BRL 55834 and levcromakalim (BRL 38227) in vivo in guinea-pigs and rats.

1. BRL 55834, a novel potassium channel activator, has been compared with levcromakalim (BRL 38227) for its relaxant effects in vivo on the airways and vasculature of the guinea-pig and rat. 2. When administered intravenously 2 min prior to challenge, BRL 55834 and levcromakalim each inhibited histamine-induced increases in airways resistance (Raw) in the anaesthetized guinea-pig, with BRL 55834 showing a 4.5 fold greater potency than levcromakalim (ED25 = 2.5 micrograms kg-1 and 11.3 micrograms kg-1 respectively). By contrast, both compounds had similar hypotensive potencies (ED18 = 8.5 micrograms kg-1 and 6.5 micrograms kg-1 respectively). 3. In the same guinea-pig model, intraduodenally administered BRL 55834 (100 and 250 micrograms kg-1) and levcromakalim (500 micrograms kg-1) each protected against histamine-induced changes in Raw and dynamic lung compliance (Cdyn), both compounds showing a rapid onset of action that persisted for more than 50 min. The lower dose of BRL 55834 had a similar bronchodilator effect to that of levcromakalim, yet both doses of BRL 55834 elicited substantially smaller effects than levcromakalim on mean arterial blood pressure. 4. In the anaesthetized rat, BRL 55834 and levcromakalim each evoked a dose-related inhibition of inhaled methacholine-induced changes in Raw and Cdyn when given i.v., with BRL 55834 showing some four fold greater potency than levcromakalim (BRL 55834: Raw ED35 = 3.7 micrograms kg-1, Cdyn ED35 = 5.9 micrograms kg-1; levcromakalim: Raw ED35 = 16 micrograms kg-1, Cdyn ED35 = 23.5 micrograms kg-1). As in the guinea-pig,BRL 55834 had a reduced propensity to lower mean arterial blood pressure (ED11 = 8 microg kg-1 for BRL55834, 11 +/- 3% being its maximum effect; ED11= 16 microg kg-1, maximum effect= 34 +/- 6% for levcromakalim.5. When administered intraduodenally to anaesthetized rats, BRL 55834 (10, 20 and 100 microg kg-1)evoked rapid and dose-related inhibitions of methacholine-induced Raw and Cdyn changes which persisted for over 30 min. At the lower and middle dose there was little effect on mean arterial blood pressure(<10% fall). Levcromakalim (500 microg kg-1) by contrast elicited transient airways responses that diminished rapidly after 5 min, while the effects on blood pressure were well maintained (>20% at 65 min). Levcromakalim (100 microg kg-1) did not affect airways responses but also evoked a marked and sustained fall in blood pressure.6. BRL 55834, administered per os, prolonged the time to histamine-induced dyspnoea in conscious guinea-pigs. The greatest effect of BRL 55834 was observed when it was administered 60 min prior to challenge, a dose of 0.20 mg kg-1 doubling the mean time to collapse. A similar level of protection was afforded by levcromakalim (1.25 mg kg-1), with maximal activity occurring between 30 and 60 min.7. The present studies in guinea-pigs and rats indicate that BRL 55834 is the first potassium channel activator to exhibit greater bronchodilator potency than levcromakalim but reduced tendency to lower arterial blood pressure. It is suggested that BRL 55834 may have greater potential than levcromakalim as a bronchodilator for therapeutic use in man.

Relaxant effects of the potassium channel activators BRL 38227 and pinacidil on guinea-pig and human airway smooth muscle, and blockade of their effects by glibenclamide and BRL 31660.

The airways relaxant effects and mechanism of action of the potassium channel activators BRL 38227 and pinacidil have been compared in guinea-pig and human airways. BRL 38227 was a potent relaxant in guinea-pig isolated trachealis (IC50 = 4.9 x 10(-7) M against spontaneous tone) and human isolated bronchi (IC50 = 4.75 x 10(-7) M against histamine-induced tone) and was eight- and six-fold more potent respectively than pinacidil. The relaxant effects of both compounds were shown to be markedly attenuated by glibenclamide (10(-5) M) and BRL 31660 (10(-5) M), with the nature of the blockade being species/tissue dependent. Glibenclamide (20 mg/kg iv) also inhibited the protective effects of BRL 38227 (50 micrograms/kg iv) and pinacidil (500 micrograms/kg iv) on histamine-induced changes in airways resistance and dynamic compliance in the anaesthetized guinea-pig, although the effects were short-lived. That both BRL 38227 and pinacidil owed their relaxant effects to potassium channel activation was supported by their ability to stimulate 42/43K efflux from guinea-pig trachealis preloaded with the radiotracer at concentrations of 10(-7) - 10(-5) M and 10(-5) M respectively. Pretreatment with either glibenclamide (10(-5) M) or BRL 31660 (10(-5) M) ablated the response to both compounds. These studies show that two mechanistically distinct potassium channel blockers, glibenclamide and BRL 31660, do not substantially differentiate between the actions of BRL 38227 and pinacidil, although differences do occur, particularly at high concentrations in vitro.

Evaluation of the potassium channel activator BRL 38227 as an inhaled bronchodilator in the guinea-pig: contrast with nifedipine and salbutamol.

The potential of the potassium channel activator cromakalim and its active enantiomer BRL 38227 as inhaled bronchodilators has been evaluated in the guinea-pig, in comparison with nifedipine, salbutamol and aminophylline. Inhaled cromakalim and BRL 38227 prolonged the time before histamine-induced collapse in conscious guinea-pigs, BRL 38227 (ED50 250 to 500 micrograms/mL, roughly 10 to 20 micrograms per animal) being twice as potent as cromakalim. In anaesthetized guinea-pigs, BRL 38227 (inhaled and i.v.) and aminophylline (i.v.) caused similar percentage inhibitions of the increase in airways resistance and decrease in dynamic lung compliance elicited by histamine, whereas salbutamol (inhaled and i.v.) was more effective against resistance. Inhaled BRL 38227 and salbutamol were more potent against inhaled than against i.v. histamine. BRL 38227 inhibited the effects of i.v. and inhaled histamine by 67-78% when nebulized from solutions of 250 and 31 micrograms/mL respectively, but the lowest concentration that lowered blood pressure significantly was 500 micrograms/mL. In contrast, nifedipine had no effect on compliance and caused only a marginal (21%) inhibition of resistance at a dose (200 micrograms/kg i.v.) which lowered blood pressure by 44%. These results show that BRL 38227 is an effective bronchodilator when given by inhalation. It differs from salbutamol in its effects on airways dynamics, and its effect on lung compliance cannot be attributed to a pulmonary vasodilator effect. Furthermore, L-type calcium channels are not significantly involved in histamine-induced bronchoconstriction or therefore in the bronchodilator effect of BRL 38227.