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γ干扰素和正弦电场通过调节极化中性粒细胞中的NAD(P)H振荡来发出信号。

Interferon-gamma and sinusoidal electric fields signal by modulating NAD(P)H oscillations in polarized neutrophils.

作者信息

Rosenspire A J, Kindzelskii A L, Petty H R

机构信息

Department of Biological Sciences, Wayne State University, Detroit, Michigan 48202, USA.

出版信息

Biophys J. 2000 Dec;79(6):3001-8. doi: 10.1016/S0006-3495(00)76536-2.

DOI:10.1016/S0006-3495(00)76536-2
PMID:11106607
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1301178/
Abstract

Metabolic activity in eukaryotic cells is known to naturally oscillate. We have recently observed a 20-s period NAD(P)H oscillation in neutrophils and other polarized cells. Here we show that when polarized human neutrophils are exposed to interferon-gamma or to ultra-low-frequency electric fields with periods double that of the NAD(P)H oscillation, the amplitude of the NAD(P)H oscillations increases. Furthermore, increases in NAD(P)H amplitude, whether mediated by interferon-gamma or by an oscillating electric field, signals increased production of reactive oxygen metabolites. Hence, amplitude modulation of NAD(P)H oscillations suggests a novel signaling mechanism in polarized cells.

摘要

已知真核细胞中的代谢活动会自然振荡。我们最近在中性粒细胞和其他极化细胞中观察到了20秒周期的NAD(P)H振荡。在此我们表明,当极化的人类中性粒细胞暴露于干扰素-γ或周期为NAD(P)H振荡周期两倍的超低频电场时,NAD(P)H振荡的幅度会增加。此外,NAD(P)H幅度的增加,无论是由干扰素-γ介导还是由振荡电场介导,都表明活性氧代谢产物的产生增加。因此,NAD(P)H振荡的幅度调制提示了极化细胞中的一种新型信号传导机制。

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