Drug-disease interactions: reduced beta-adrenergic and potassium channel antagonist activities of sotalol in the presence of acute and chronic inflammatory conditions in the rat.

Inflammation may influence response to pharmacotherapy. We investigated the effect of inflammation on response to sotalol, a beta-adrenergic receptor and potassium channel antagonist. Racemic sotalol (40 mg kg(-1)) was administered to healthy, acutely (interferonalpha 2a-induced) and chronically (Mycobacterium butyricum-induced adjuvant arthritis) inflamed male Sprague-Dawley rats (n=4 - 6/group). Another group of interferon-treated rats received 3 mg kg(-1) of anti-TNF antibody infliximab. Electrocardiogram (ECG) recorded and plasma sotalol concentration monitored for 6 h. The study was repeated in acutely inflamed rats following administration of stereochemically pure individual sotalol enantiomers [40 mg kg(-1) S (potassium channel blocker) or 20 mg kg(-1) R (beta-adrenergic/potassium channel blocker)]. Chronic arthritis was readily evident. Acute arthritis was associated with elevated segmented neutrophils and increased plasma nitrite and tumour necrosis factor (TNF) concentrations. Sotalol affected ECG in all rats. In both inflamed groups, however, response to sotalol in prolongation of QT interval (potassium channel sensitivity) was reduced. The effect of PR interval (beta-adrenergic activity) was also reduced following administration of the racemate and R-enantiomer. No significant differences in pharmacokinetics were observed between control and inflamed rats. Infliximab reduced nitrite and TNF concentrations and reversed the effect of acute inflammation on both PR and QT intervals. The reduced electrocardiographic responses to sotalol is likely due to the influence of inflammation on the action of the drug on both beta-adrenergic and potassium channel receptors secondary to over-expression of pro-inflammatory cytokines and/or nitric oxide. Our observation may have therapeutic consequences in all conditions where inflammatory mediators are increased.

Therapeutic relevance of altered cytokine expression.

Cytokines and their receptors have numerous physiological functions. Altered concentrations of these mediators are associated with various afflictions. For example, over-expression of cytokines has been associated with altered drug concentrations and activity. Greater concentrations of cardiovascular drugs have been observed in humans and laboratory animals with various types of inflammatory disorders compared to healthy controls. Interestingly, the observed higher concentrations of drugs such as propranolol and verapamil have not been associated with increased effects. Indeed, reduced response to these cardiovascular drugs is observed, suggestive of cytokine-mediated downregulation of receptors. Increased cytokine concentrations have also been associated with decreased response to drugs used in treatment of other disorders such as AIDS, asthma and psychiatric diseases. This reduced response to drug in the presence of altered cytokine concentrations is especially relevant to the elderly population which has a greater incidence of multiple diseases and elevated concentrations of various cytokines compared to younger individuals. Furthermore, inflammatory conditions and their accompanied increased over-expression of cytokines are suggested to be the main determinants of therapeutic failure in myocardial infarction and angina. Therefore, altered cytokine concentrations may influence therapeutic outcomes of pharmacotherapy and result in treatment failure.

Grapefruit juice and orange juice effects on the bioavailability of nifedipine in the rat.

Previous studies with rats indicate that nifedipine undergoes both hepatic and extrahepatic presystemic metabolism after peroral (po) administration, and that its bioavailability is increased and absorption delayed by concomitant administration of grapefruit juice concentrate (GJC). Hence, the effects of GJC could be to delay stomach emptying and inhibit nifedipine metabolism in the small-intestinal wall and liver or, alternatively, to impede nifedipine absorption until reaching the large intestine where gut wall presystemic metabolism is not a factor. The mechanism(s) of action of GJC might be partially resolved by comparison with orange juice concentrate (OJC), which has a similar consistency but lacks inhibitory effects on nifedipine presystemic metabolism, and also by giving regular-strength solutions of the two juices, both on which should not significantly affect stomach emptying. This study compared the po bioavailability of nifedipine (6 mg kg-1) in male Sprague-Dawley rats coadministered GJC, OJC, grapefruit juice regular strength (GJRS), orange juice regular strength (OJRS), or (tap) water. Nifedipine plasma concentration-time profiles in the GJRS, OJRS, and (tap) water groups displayed a single peak. Both GJC and OJC groups have double-peak profiles (indicating delayed gastric emptying); however, the majority of the nifedipine dose in both cases was absorbed during the interval of the second peak, which occurred several hours postdosing. GJC significantly increased nifedipine bioavailability (relative bioavailability 2.02, compared with (tap) water), indicating that GJC may affect both extrahepatic and hepatic first-pass metabolism, although a reduction in systemic nifedipine clearance cannot be ruled out. Surprisingly, GJRS had no significant effect on nifedipine bioavailability. OJC did not increase nifedipine bioavailability, further suggesting that the delay in nifedipine absorption by GJC or OJC results from delayed gastric emptying.