Department of Pathology and Laboratory Medicine, Medical University of South Carolina, Charleston, South Carolina.
Department of Pathology and Laboratory Medicine, Medical University of South Carolina, Charleston, South Carolina.
Am J Pathol. 2021 Sep;191(9):1499-1510. doi: 10.1016/j.ajpath.2021.05.008. Epub 2021 Jun 7.
The contributions that the R-Ras subfamily [R-Ras, R-Ras2/teratocarcinoma 21 (TC21), and M-Ras] of small GTP-binding proteins make to normal and aberrant cellular functions have historically been poorly understood. However, this has begun to change with the realization that all three R-Ras subfamily members are occasionally mutated in Noonan syndrome (NS), a RASopathy characterized by the development of hematopoietic neoplasms and abnormalities affecting the immune, cardiovascular, and nervous systems. Consistent with the abnormalities seen in NS, a host of new studies have implicated R-Ras proteins in physiological and pathologic changes in cellular morphology, adhesion, and migration in the cardiovascular, immune, and nervous systems. These changes include regulating the migration and homing of mature and immature immune cells, vascular stabilization, clotting, and axonal and dendritic outgrowth during nervous system development. Dysregulated R-Ras signaling has also been linked to the pathogenesis of cardiovascular disease, intellectual disabilities, and human cancers. This review discusses the structure and regulation of R-Ras proteins and our current understanding of the signaling pathways that they regulate. It explores the phenotype of NS patients and their implications for the R-Ras subfamily functions. Next, it covers recent discoveries regarding physiological and pathologic R-Ras functions in key organ systems. Finally, it discusses how R-Ras signaling is dysregulated in cancers and mechanisms by which this may promote neoplasia.
小 GTP 结合蛋白 R-Ras 亚家族(R-Ras、R-Ras2/畸胎瘤 21(TC21)和 M-Ras)对正常和异常细胞功能的贡献在历史上一直被人们所误解。然而,随着人们意识到所有三种 R-Ras 亚家族成员在诺南综合征(NS)中偶尔发生突变,这种情况开始发生变化,NS 是一种 RAS 病,其特征是造血肿瘤的发展和影响免疫、心血管和神经系统的异常。与 NS 中观察到的异常一致,大量新的研究表明 R-Ras 蛋白参与了心血管、免疫和神经系统中细胞形态、黏附和迁移的生理和病理变化。这些变化包括调节成熟和未成熟免疫细胞的迁移和归巢、血管稳定、凝血以及神经系统发育过程中的轴突和树突生长。R-Ras 信号的失调也与心血管疾病、智力障碍和人类癌症的发病机制有关。这篇综述讨论了 R-Ras 蛋白的结构和调节以及我们对它们调节的信号通路的现有认识。它探讨了 NS 患者的表型及其对 R-Ras 亚家族功能的影响。接下来,它涵盖了关于 R-Ras 在关键器官系统中的生理和病理功能的最新发现。最后,它讨论了 R-Ras 信号是如何失调的以及这种失调如何促进肿瘤发生的机制。