Nuclear Dynamics and Cancer Program, Cancer Epigenetics Institute, Institute for Cancer Research, Fox Chase Cancer Center, 333 Cottman Avenue, Philadelphia, PA, 19111, USA.
Thomas Jefferson University, 901 Walnut St, Philadelphia, PA, 19107, USA.
J Exp Clin Cancer Res. 2024 Nov 29;43(1):313. doi: 10.1186/s13046-024-03207-4.
AKT, or protein kinase B, is a central node of the PI3K signaling pathway that is pivotal for a range of normal cellular physiologies that also underlie several pathological conditions, including inflammatory and autoimmune diseases, overgrowth syndromes, and neoplastic transformation. These pathologies, notably cancer, arise if either the activity of AKT or its positive or negative upstream or downstream regulators or effectors goes unchecked, superimposed on by its intersection with a slew of other pathways. Targeting the PI3K/AKT pathway is, therefore, a prudent countermeasure. AKT inhibitors have been tested in many clinical trials, primarily in combination with other drugs. While some have recently garnered attention for their favorable profile, concern over resistance and off-target effects have continued to hinder their widespread adoption in the clinic, mandating a discussion on alternative modes of targeting. In this review, we discuss isoform-centric targeting that may be more effective and less toxic than traditional pan-AKT inhibitors and its significance for disease prevention and treatment, including immunotherapy. We also touch on the emerging mutant- or allele-selective covalent allosteric AKT inhibitors (CAAIs), as well as indirect, novel AKT-targeting approaches, and end with a briefing on the ongoing quest for more reliable biomarkers predicting sensitivity and response to AKT inhibitors, and their current state of affairs.
AKT,又称蛋白激酶 B,是 PI3K 信号通路的核心节点,对多种正常细胞生理功能至关重要,这些生理功能也是多种病理情况的基础,包括炎症和自身免疫性疾病、过度生长综合征和肿瘤转化。如果 AKT 的活性或其正、负上游或下游调节剂或效应物不受控制,或者与其他许多途径发生交叉,就会出现这些病理情况,尤其是癌症。因此,针对 PI3K/AKT 通路是一种谨慎的对策。已经在许多临床试验中测试了 AKT 抑制剂,主要是与其他药物联合使用。虽然最近有一些因其良好的特性而受到关注,但对耐药性和脱靶效应的担忧继续阻碍其在临床上的广泛应用,因此需要讨论替代的靶向模式。在这篇综述中,我们讨论了以同工型为中心的靶向治疗,这种方法可能比传统的 pan-AKT 抑制剂更有效、毒性更小,以及它在疾病预防和治疗(包括免疫治疗)中的意义。我们还提到了新兴的突变体或等位基因选择性共价别构 AKT 抑制剂(CAAIs),以及间接的、新型的 AKT 靶向方法,并以正在进行的更可靠的生物标志物的探索作为结束,这些生物标志物可预测对 AKT 抑制剂的敏感性和反应,并介绍了它们的现状。
