Ca. Izeboud et al., Stereoselectivity at the beta(2)-adrenoceptor on macrophages is a major determinant of the anti-inflammatory effects of beta(2)-agonists, N-S ARCH PH, 362(2), 2000, pp. 184-189
Previous research has shown that beta-adrenoceptor (P-AR) agonists have pot
ent anti-inflammatory capabilities, e.g. represented by suppression of rele
ase of the proinflammatory cytokines.
Aim of this research was to determine whether the effects of beta-agonists
on LPS-induced TNF alpha and IL-10 release are influenced by their differen
t stereochemistry. In addition, the role of the beta-AR subtypes was studie
d. The effect of two stereoisomers of the selective beta(2)-AR agonist TA20
05 [(R,R)- and (S,S)-] on the LPS-induced TNFa and IL-IO release by U937 ma
crophages was compared. The (R,R)-stereoisomer was 277 times more potent in
inhibiting the TNFa release than the (S,S)-form. The (R,R)stereoisomer als
o appeared to be more potent in increasing the IL-IO release. In radioligan
d binding studies the affinity of (R,R)-TA2005 for the beta-adrenoceptor wa
s 755 times higher than the (S,S)-TA2DOS stereoisomer. In addition, the ele
vation of intracellular cAMP in U937 cells appeared to be stereoselective:
(R,R)-TA2005 was more potent in elevating intracellular cAMP. The effect of
both stereoisomers on the LPS-induced TNFa release could almost completely
be antagonized by preincubation with the selective beta(2)-AR-antagonist I
CI-118551. Further evidence that the effect of the P-agonists is mediated v
ia the beta(2)-adrenoceptor subtype exclusively was acquired by incubation
of U937 cells with selective beta(1)- and beta(3)-agonists. None of these r
eceptor subtype agonists showed significant suppressive effect on TNFa rele
ase. This study provides additional proof that the anti-inflammatory effect
s of beta(2)-agonists are mediated via the beta(2)-adrenoceptor and indicat
es that these effects are highly dependent on the stereoselectivity of the
ligand.