Kulkarni Ashish, Natarajan Siva Kumar, Chandrasekar Vineethkrishna, Pandey Prithvi Raj, Sengupta Shiladitya
Department of Medicine, Harvard Medical School , Boston, Massachusetts 02115, United States.
Harvard-MIT Division of Health Sciences and Technology , Cambridge, Massachusetts 02139, United States.
ACS Nano. 2016 Oct 25;10(10):9227-9242. doi: 10.1021/acsnano.6b01600. Epub 2016 Sep 29.
A major limitation of immune checkpoint inhibitors is that only a small subset of patients achieve durable clinical responses. This necessitates the development of combinatorial regimens with immunotherapy. However, some combinations, such as MEK- or PI3K-inhibitors with a PD1-PDL1 checkpoint inhibitor, are pharmacologically challenging to implement. We rationalized that such combinations can be enabled using nanoscale supramolecular targeted therapeutics, which spatially home into tumors and exert temporally sustained inhibition of the target. Here we describe two case studies where nanoscale MEK- and PI3K-targeting supramolecular therapeutics were engineered using a quantum mechanical all-atomistic simulation-based approach. The combinations of nanoscale MEK- and PI3K-targeting supramolecular therapeutics with checkpoint PDL1 and PD1 inhibitors exert enhanced antitumor outcome in melanoma and breast cancers in vivo, respectively. Additionally, the temporal sequence of administration impacts the outcome. The combination of supramolecular therapeutics and immunotherapy could emerge as a paradigm shift in the treatment of cancer.
免疫检查点抑制剂的一个主要局限性在于,只有一小部分患者能实现持久的临床反应。这就需要开发免疫疗法的联合治疗方案。然而,一些联合疗法,如MEK或PI3K抑制剂与PD1-PDL1检查点抑制剂的联合,在药理学上实施起来具有挑战性。我们推断,使用纳米级超分子靶向疗法可以实现这种联合,这种疗法能在空间上靶向肿瘤并对靶点产生持续的时间性抑制作用。在此,我们描述两个案例研究,其中使用基于量子力学全原子模拟的方法设计了纳米级靶向MEK和PI3K的超分子疗法。纳米级靶向MEK和PI3K的超分子疗法与检查点PDL1和PD1抑制剂的联合,分别在体内对黑色素瘤和乳腺癌产生了增强的抗肿瘤效果。此外,给药的时间顺序会影响治疗结果。超分子疗法与免疫疗法的联合可能会成为癌症治疗的一种范式转变。