Blockade by NNC 55-0396, mibefradil, and nickel of calcium and exocytotic signals in chromaffin cells: implications for the regulation of hypoxia-induced secretion at early life.

Adrenal chromaffin cells (CCs) express high-voltage activated calcium channels (high-VACCs) of the L, N and PQ subtypes; in addition, T-type low-VACCs are also expressed during embryo and neonatal life. Effects of the more frequently used T channel blockers NNC 55-0396 (NNC), mibefradil, and Ni2+ on the whole-cell Ba2+ current (IBa), the K+-elicited [Ca2+]c transients and catecholamine secretion have been studied in adult bovine CCs (BCCs) and rat embryo CCs (RECCs). NNC, mibefradil, and Ni2+ blocked BCC IBa with IC50 of 1.8, 4.9 and 70 μM, while IC50 to block IBa in RECCs were 2.1, 4.4 and 41 μM. Pronounced blockade of K+-elicited [Ca2+]c transients and secretion was also elicited by the three agents. However, the hypoxia-induced secretion (HIS) of catecholamine in RECCs was blocked substantially (75%) with thresholds concentrations of NCC (IC20 to block IBa); this was not the case for mibefradil and Ni2+ that required higher concentrations to block the HIS response. Thus, out of the three compounds, NNC seemed to be an adequate pharmacological tool to discern the contribution of T channels to the HIS response, without a contamination with high-VACC blockade.