Carbonic anhydrase inhibitors are specific openers of skeletal muscle BK channel of K+-deficient rats.

Carbonic-anhydrase (CA) inhibitors are used in the treatment of hypokalaemic periodic paralysis (hypoPP) and related channelopathies but their mechanism of action is unknown. Patch-clamp experiments and molecular modeling investigations were performed to evaluate the mechanism of actions of CA inhibitors on skeletal muscle Ca2+-activated-K+ (BK) channel of K+-deficient rats used as animal model of hypoPP. CA inhibitors showing different degree of CA inhibition such as acetazolamide (ACTZ), dichlorphenamide (DCP), hydrochlorthiazide (HCT), etoxzolamide (ETX), methazolamide (MTZ), and bendroflumethiazide (BFT), which lacks inhibitory effects on CA enzymes, were tested in vitro on BK channels.

Dualistic actions of cromakalim and new potent 2H-1,4-benzoxazine derivatives on the native skeletal muscle K ATP channel.

1 New 2H-1,4-benzoxazine derivatives were synthesized and tested for their agonist properties on the ATP-sensitive K(+) channels (K(ATP)) of native rat skeletal muscle fibres by using the patch-clamp technique. The novel modifications involved the introduction at position 2 of the benzoxazine ring of alkyl substituents such as methyl (-CH(3)), ethyl (-C(2)H(5)) or propyl (-C(3)H(7)) groups, while maintaining pharmacophore groups critical for conferring agonist properties. 2 The effects of these molecules were compared with those of cromakalim in the presence or absence of internal ATP (10(-4) M).