Department of Regenerative Medicine and Advanced Cardiac Therapeutics, Keio University School of Medicine, Shinjuku-ku, Tokyo, Japan.
J Clin Invest. 2010 Feb;120(2):408-21. doi: 10.1172/JCI39778. Epub 2010 Jan 4.
Although several cytokines and neurotrophic factors induce sympathetic neurons to transdifferentiate into cholinergic neurons in vitro, the physiological and pathophysiological roles of this remain unknown. During congestive heart failure (CHF), sympathetic neural tone is upregulated, but there is a paradoxical reduction in norepinephrine synthesis and reuptake in the cardiac sympathetic nervous system (SNS). Here we examined whether cholinergic transdifferentiation can occur in the cardiac SNS in rodent models of CHF and investigated the underlying molecular mechanism(s) using genetically modified mice. We used Dahl salt-sensitive rats to model CHF and found that, upon CHF induction, the cardiac SNS clearly acquired cholinergic characteristics. Of the various cholinergic differentiation factors, leukemia inhibitory factor (LIF) and cardiotrophin-1 were strongly upregulated in the ventricles of rats with CHF. Further, LIF and cardiotrophin-1 secreted from cultured failing rat cardiomyocytes induced cholinergic transdifferentiation in cultured sympathetic neurons, and this process was reversed by siRNAs targeting Lif and cardiotrophin-1. Consistent with the data in rats, heart-specific overexpression of LIF in mice caused cholinergic transdifferentiation in the cardiac SNS. Further, SNS-specific targeting of the gene encoding the gp130 subunit of the receptor for LIF and cardiotrophin-1 in mice prevented CHF-induced cholinergic transdifferentiation. Cholinergic transdifferentiation was also observed in the cardiac SNS of autopsied patients with CHF. Thus, CHF causes target-dependent cholinergic transdifferentiation of the cardiac SNS via gp130-signaling cytokines secreted from the failing myocardium.
虽然有几种细胞因子和神经营养因子可以在体外诱导交感神经元向胆碱能神经元转化,但其生理和病理生理作用尚不清楚。在充血性心力衰竭(CHF)期间,交感神经张力上调,但心脏交感神经系统(SNS)中的去甲肾上腺素合成和再摄取却出现反常性减少。在这里,我们在 CHF 的啮齿动物模型中检查了心脏 SNS 中是否会发生胆碱能转化,并使用基因修饰小鼠研究了潜在的分子机制。我们使用 Dahl 盐敏感大鼠来建立 CHF 模型,发现 CHF 诱导后,心脏 SNS 明显获得了胆碱能特征。在各种胆碱能分化因子中,白血病抑制因子(LIF)和心营养素-1在心力衰竭大鼠的心室中强烈上调。此外,来自培养的衰竭大鼠心肌细胞分泌的 LIF 和心营养素-1在培养的交感神经元中诱导胆碱能转化,而针对 Lif 和 cardiotrophin-1 的 siRNA 逆转了这一过程。与大鼠数据一致,在小鼠中特异性过表达 LIF 导致心脏 SNS 中的胆碱能转化。此外,在小鼠中特异性靶向 LIF 和心营养素-1 的受体 gp130 亚基编码基因可预防 CHF 诱导的胆碱能转化。在 CHF 患者尸检的心脏 SNS 中也观察到胆碱能转化。因此,CHF 通过来自衰竭心肌的 gp130 信号细胞因子引起心脏 SNS 的靶依赖性胆碱能转化。
