Effect of 4 degrees C pretreatment on the membrane current and cell polarity in human neutrophils / 生理学报

ABSTRACT

To investigate the role of ion channels in the coupling responses of neutrophils to extracellular stimulus, it is necessary to study the membrane ion channel activities using patch-clamp technique. However, little has been known about the ion channel activities in neutrophils due to the difficulties in forming giga-seal with pipettes because of small diameter of neutrophils and the easily developed polarization. Some studies indicated that favorable results could be achieved through pretreatment at low temperature before electrophysiological recordings. But it remains unclear whether the pretreatment affects the membrane current and why the seal rate increases after low temperature pretreatment. The purpose of this study was to investigate the effects of 4 degrees C pretreatment on the membrane current and cell polarity in human neutrophils. In the experiments, human neutrophils were isolated from fresh peripheral blood of healthy volunteers and divided into two groups (room temperature group and 4 degrees C pretreatment group). Voltage-dependent K(+) (Kv) currents were recorded in whole-cell voltage-clamp mode and large-conductance Ca(2+)-activated K(+) (BK(Ca)) currents were recorded using inside-out patches. The results showed that 4 degrees C pretreatment significantly inhibited cell polarity (P<0.05), and it took more time for neutrophils to form a polarity-cycle [(534+/-32) s, n=20] compared with those at room temperature [(257+/-24) s, n=20]. Meanwhile, seal rate significantly increased in 4 degrees C pretreatment group (64%) compared with that in the room temperature group (27.5%). The seal rate and cell polarity rate during 0 approximately 1 min after 4 degrees C pretreatment were significantly different from those at room temperature, while no significant difference was found during 9 approximately 10 min between the two groups. Our results suggest that 4 degrees C pretreatment can inhibit cell polarity and increase seal rate, but has no effects on membrane currents. It is also suggested that 0 approximately 1 min after 4 degrees C pretreatment is a more suitable time for electrophysiological recording in neutrophils.