Aims: Thyrotropin-releasing hormone (TRH) induces biphasic changes in electrical activity, cytosolic free Ca(2+) level ([Ca(2+)](i)), and prolactin secretion from both clonal GH cells and native lactotrophs. The first phase of the TRH response is characterized by hyperpolarization because of activation of Ca(2+)-activated K(+) channels (K(Ca)). In the present study, the relative contribution of BK, SK, and IK channels to the first phase of the TRH response in GH(4) cells was assessed.
Methods: The expression of IK channels was confirmed by PCR with specific primers for SK4 (IK). The response to TRH was studied using the perforated patch technique and Ca(2+) microfluoromety (fura-2). The involvement of different K(Ca) channels was estimated by employing the specific channel blockers iberiotoxin (BK), apamin (SK) and clotrimazole (IK).
Results: Application of 100 nM iberiotoxin, 1 microM apamin, and 10 microM clotrimazole reduced the peak value of the outward K(+) current during the first phase of the TRH response by 33, 26, and 33%, respectively. Clotrimazole also shortened the duration of the outward current response by 60%, causing a reduction of total charge movement by 73%. All these toxin-induced reductions were significant (P < 0.05). A combination of all three toxins abolished the current response almost completely.
Conclusion: All the three main types of K(Ca) channels are involved in the first phase of the TRH response, with IK as the major contributor. This is the first demonstration of a dominant role of IK compared with BK and SK channels in excitable cells.