Department of Medicine, University of Verona, AOUI Verona, Verona, Italy.
Department of Biochemistry, Federico II University, Naples, Italy.
Am J Hematol. 2019 Jan;94(1):10-20. doi: 10.1002/ajh.25295. Epub 2018 Oct 25.
The signaling cascade induced by the interaction of erythropoietin (EPO) with its receptor (EPO-R) is a key event of erythropoiesis. We present here data indicating that Fyn, a Src-family-kinase, participates in the EPO signaling-pathway, since Fyn mice exhibit reduced Tyr-phosphorylation of EPO-R and decreased STAT5-activity. The importance of Fyn in erythropoiesis is also supported by the blunted responsiveness of Fyn mice to stress erythropoiesis. Fyn mouse erythroblasts adapt to reactive oxygen species (ROS) by activating the redox-related-transcription-factor Nrf2. However, since Fyn is a physiologic repressor of Nrf2, absence of Fyn resulted in persistent-activation of Nrf2 and accumulation of nonfunctional proteins. ROS-induced over-activation of Jak2-Akt-mTOR-pathway and repression of autophagy with perturbation of lysosomal-clearance were also noted. Treatment with Rapamycin, a mTOR-inhibitor and autophagy activator, ameliorates Fyn mouse baseline erythropoiesis and erythropoietic response to oxidative-stress. These findings identify a novel multimodal action of Fyn in the regulation of normal and stress erythropoiesis.
促红细胞生成素(EPO)与其受体(EPO-R)相互作用诱导的信号级联反应是红细胞生成的关键事件。我们在此提供的数据表明,Src 家族激酶 Fyn 参与了 EPO 信号通路,因为 Fyn 小鼠表现出 EPO-R 的 Tyr 磷酸化减少和 STAT5 活性降低。Fyn 在红细胞生成中的重要性也得到了 Fyn 小鼠对应激性红细胞生成反应迟钝的支持。Fyn 小鼠的红细胞通过激活与氧化还原相关的转录因子 Nrf2 来适应活性氧(ROS)。然而,由于 Fyn 是 Nrf2 的生理性抑制剂,因此缺乏 Fyn 会导致 Nrf2 的持续激活和无功能蛋白的积累。还注意到 ROS 诱导的 Jak2-Akt-mTOR 通路过度激活以及溶酶体清除功能障碍导致自噬抑制。用 Rapamycin(一种 mTOR 抑制剂和自噬激活剂)治疗可改善 Fyn 小鼠的基础红细胞生成和对氧化应激的红细胞生成反应。这些发现确定了 Fyn 在调节正常和应激性红细胞生成中的一种新的多模式作用。
