Objective: Electrical remodeling as well as atrial contractile dysfunction after the conversion of atrial fibrillation (AF) to sinus rhythm (SR) are mainly caused by a reduction of the inward L-type Ca(2+) current (I(CaL)). We investigated whether the expression of L-type Ca2+-channel subunits was reduced in atrial myocardium of AF patients.
Methods: Right atrial appendages were obtained from patients undergoing coronary artery bypass graft surgery (CAD, n = 35) or mitral valve surgery (MVD, n = 37). Seventeen of the CAD patients and 18 of the MVD patients were in chronic (>3 months) AF, whereas the others were in SR. The protein expression of the L-type Ca2+-channel subunits alpha1C and beta2 was quantified by western blot analysis. Furthermore, we measured the density of dihydropyridine (DHP)-binding sites of the L-type Ca2+ channel using 3H-PN220-100 as radioligand.
Results: Surprisingly, the alpha1C and the beta2-subunit expression was not altered in atrial myocardium of AF patients. Also, the DHP-binding site density was unchanged.
Conclusion: The protein expression of the L-type Ca2+-channel subunits alpha1C or beta2 is not reduced in atrial myocardium of AF patients. Therefore, the reduced I(CaL) might be due to downregulation of other accessory subunits (alpha2delta), expression of aberrant subunits, changes in channel trafficking or alterations in channel function.