摘要
背景:全球肺癌发病率呈上升趋势。主要危险因素是烟草暴露量增加,被动吸烟,蔬菜和水果消耗减少以及职业接触石棉,砷和铬。肺癌的病理生理学是复杂的,不是很清楚。各种微RNA,基因和通路与肺癌有关。涉及肺癌的基因产生涉及细胞生长,分化,不同细胞周期,凋亡,免疫调节,肿瘤扩散和进展的蛋白质。河马途径(也被称为Salvador-Warts-Hippo途径)是癌症中最新出现的概念。 Hippo途径通过其对细胞增殖和凋亡的作用在控制组织和器官的大小方面起着重要的作用。 目的:在本文中,我们重点介绍了哺乳动物Hippo通路,其核心成员,上游调节因子,下游效应物和肺癌耐药情况。 结果:Mer与细胞表面乙酰透明质酸受体CD44的特异性相互作用在细胞接触抑制中是至关重要的,从而激活Hippo通路。转录辅激活物YAP和TAZ(也称为WWTR1,是果蝇Yki的同系物)是增殖和凋亡的重要调节剂,并且作为Hippo途径的主要下游效应物。 Hippo通路上游调节因子NF2的突变与癌症有关。 结论:靶向YAP和TAZ可能对未来的药物输送和治疗非常重要
关键词: 细胞增殖,凋亡,河马途径,肺癌,基因,药物输送
图形摘要
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