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MUSCLE CELL BIOLOGY AND CELL MOTILITY

Electrophysiological characterization of murine HL-5 atrial cardiomyocytes

¹Cardiac Rhythm Disease Management and ²Corporate Science and Technology, Medtronic Incorporated, Minneapolis; and ³Departments of Surgery and Physiology, University of Minnesota, Minneapolis, Minnesota

Submitted 18 January 2006 ; accepted in final form 27 March 2006

HL-5 cells are cultured murine atrial cardiomyocytes and have been used in studies to address important cellular and molecular questions. However, electrophysiological features of HL-5 cells have not been characterized. In this study, we examined such properties using whole cell patch-clamp techniques. Membrane capacitance of the HL-5 cells was from 8 to 62 pF. The resting membrane potential was –57.8 ± 1.4 mV (n = 51). Intracellular injection of depolarizing currents evoked action potentials (APs) with variable morphologies in 71% of the patched cells. Interestingly, the incidence of successful, current-induced APs positively correlated with the hyperpolarizing degrees of resting membrane potentials (r = 0.99, P < 0.001). Only a few of the patched cells (4 of 51, 7.8%) exhibited spontaneous APs. The muscarinic agonist carbachol activated the acetylcholine-activated K⁺ current and significantly shortened the duration of APs. Immunostaining confirmed the presence of the muscarinic receptor type 2 in HL-5 cells. The hyperpolarization-activated cation current (I_f) was detected in 39% of the patched cells. The voltage to activate 50% of I_f channels was –73.4 ± 1.2 mV (n = 12). Voltage-gated Na⁺, Ca²⁺, and K⁺ currents were observed in the HL-5 cells with variable incidences. Compared with the adult mouse cardiomyocytes, the HL-5 cells had prolonged APs and small outward K⁺ currents. Our data indicate that HL-5 cells display significant electrophysiological heterogeneity of morphological appearance of APs and expression of functional ion channels. Compared with adult murine cardiomyocytes, HL-5 cells show an immature phenotype of cardiac AP morphology.

action potential; ion channel; muscarinic receptor