Wilkinson Legh, Verhoog Nicolette J D, Louw Ann
Department of Biochemistry, Stellenbosch University, Stellenbosch, South Africa.
Endocr Connect. 2018 Dec;7(12):R328-R349. doi: 10.1530/EC-18-0421.
The development of resistance to glucocorticoids (GCs) in therapeutic regimens poses a major threat. Generally, GC resistance is congenital or acquired over time as a result of disease progression, prolonged GC treatment or, in some cases, both. Essentially, disruptions in the function and/or pool of the glucocorticoid receptor α (GRα) underlie this resistance. Many studies have detailed how alterations in GRα function lead to diminished GC sensitivity; however, the current review highlights the wealth of data concerning reductions in the GRα pool, mediated by disease-associated and treatment-associated effects, which contribute to a significant decrease in GC sensitivity. Additionally, the current understanding of the molecular mechanisms involved in driving reductions in the GRα pool is discussed. After highlighting the importance of maintaining the level of the GRα pool to combat GC resistance, we present current strategies and argue that future strategies to prevent GC resistance should involve biased ligands with a predisposition for reduced GR dimerization, a strategy originally proposed as the SEMOGRAM-SEDIGRAM concept to reduce the side-effect profile of GCs.
在治疗方案中,对糖皮质激素(GCs)产生耐药性是一个重大威胁。一般来说,GC耐药性是先天性的,或者随着疾病进展、长期GC治疗,或在某些情况下两者兼而有之,随时间逐渐获得。本质上,糖皮质激素受体α(GRα)的功能和/或数量的破坏是这种耐药性的基础。许多研究详细阐述了GRα功能改变如何导致GC敏感性降低;然而,本综述强调了大量有关GRα数量减少的数据,这些数据由疾病相关和治疗相关效应介导,这导致GC敏感性显著下降。此外,还讨论了目前对驱动GRα数量减少的分子机制的理解。在强调维持GRα数量水平以对抗GC耐药性的重要性之后,我们介绍了当前的策略,并认为未来预防GC耐药性的策略应包括倾向于减少GR二聚化的偏向性配体,这一策略最初作为减少GC副作用的SEMOGRAM-SEDIGRAM概念提出。