The flavonoid scaffold as a template for the design of modulators of the vascular Ca(v) 1.2 channels

BACKGROUND AND PURPOSE

Previous studies have pointed to the plant flavonoids myricetin and quercetin as two structurally related stimulators of vascular Ca_v1.2 channel current (I_Ca1.2). Here we have tested the proposition that the flavonoid structure confers the ability to modulate Ca_v1.2 channels.

EXPERIMENTAL APPROACH

Twenty-four flavonoids were analysed for their effects on I_Ca1.2 in rat tail artery myocytes, using the whole-cell patch-clamp method.

KEY RESULTS

Most of the flavonoids stimulated or inhibited I_Ca1.2 in a concentration- and voltage-dependent manner with EC₅₀ values ranging between 4.4 µM (kaempferol) and 16.0 µM (myricetin) for the stimulators and IC₅₀ values between 13.4 µM (galangin) and 100 µM (±)-naringenin] for the inhibitors. Key structural requirements for I_Ca1.2 stimulatory activity were the double bond between C2 and C3 and the hydroxylation pattern on the flavonoid scaffold, the latter also determining the molecular charge, as shown by molecular modelling techniques. Absence of OH groups in the B ring was key in I_Ca1.2 inhibition. The functional interaction between quercetin and either the stimulator myricetin or the antagonists resokaempferol, crysin, genistein, and 5,7,2′-trihydroxyflavone revealed that quercetin expressed the highest apparent affinity, in the low µM range, for Ca_v1.2 channels. Neither protein tyrosine kinase nor protein kinase Cα were involved in quercetin-induced stimulation of I_Ca1.2.

CONCLUSIONS AND IMPLICATIONS

Quercetin-like plant flavonoids were active on vascular Ca_v1.2 channels. Thus, the flavonoid scaffold may be a template for the design of novel modulators of vascular smooth muscle Ca_v1.2 channels, valuable for the treatment of hypertension and stroke.