Expression of a voltage‐dependent potassium current precedes fusion of human muscle satelite cells (myoblasts)

Abstract

Using the whole-cell recording patch clamp tehnique in clonal cultures of human muscle satellite cells (SC), we studied a voltage-gated potassium current analogous to the delayed rectifier current (I_kdr) described in adult human skeletal muscle. This current was absent in proliferating SC cultured in a growth medium containing 15% serum, except when the SC approached the end of their replicative life (between 77 and 124 days in culture); at that time, approximately 50% of the SC possessed I_kdr In contrast, I_kdr was expressed within less than 4 days in approximately 70% of the SC cultured in a serum-free medium (SFM) and within 24 h in differetiating medium. We belive that I_kdr may be a characteristic feature of fusion-component SC and that it may be involved in the fusion process for the following resons: (1) after the transfer in differentiating medium, cultures of SC in which the expression of I_kdr was previously promoted by exposure to SFM were found to fuse immediately, without the initial 24 h lag time observed in control sister cultures; (2) in the latter “naive” SC, I_kdr was expressed during the first day in differentiating medium, before SC began to fuse; (3) most of the SC that did not fuse even after weeks of exposure to differentiating medium did not express I_kdr; (4) TEA, at a concentration of 3 mM, reduces the amplitude of I_kdr by 55% and the fusion index by 55–67%.