Departments of Pharmacology, The Pennsylvania State University College of Medicine, Hershey, PA, 17033, USA.
Departments of Cellular and Molecular Physiology, The Pennsylvania State University College of Medicine, Hershey, PA, 17033, USA.
Cancer Lett. 2021 May 28;506:107-119. doi: 10.1016/j.canlet.2021.01.004. Epub 2021 Feb 16.
Targeting the metastatic process to prevent disease dissemination in cancer remains challenging. One step in the metastatic cascade involves cancer cells transiting through the vascular endothelium after inflammation has increased the permeability of this cellular layer. Reducing inflammation-mediated gaps in the vascular endothelium could potentially be used to retard metastasis. This study describes the development of a novel ASR396-containing nanoparticle designed to activate the Sphingosine-1-Phosphate Receptor 1 (S1PR1) in order to tighten the junctions between the endothelial cells lining the vascular endothelium thereby inhibiting metastasis. ASR396 was derived from the S1PR1 agonist SEW2871 through chemical modification enabling the new compound to be loaded into a nanoliposome. ASR396 retained S1PR1 binding activity and the nanoliposomal formulation (nanoASR396) made it systemically bioavailable upon intravenous injection. Studies conducted in microvessels demonstrated that nanoASR396 significantly attenuated inflammatory mediator-induced permeability increase through the S1PR1 activation. Similarly, nanoASR396 inhibited gap formation mediated by inflammatory agents on an endothelial cell monolayer by decreasing levels of phosphorylated myosin light chain protein thereby inhibiting cellular contractility. In animal models, nanoASR396 inhibited lung metastasis by up to 80%, indicating its potential for retarding melanoma metastasis. Thus, a novel bioavailable nanoparticle-based S1PR1 agonist has been developed to negate the effects of inflammatory mediators on the vascular endothelium in order to reduce the metastatic dissemination of cancer cells.
靶向转移过程以防止癌症疾病传播仍然具有挑战性。转移级联中的一个步骤涉及癌细胞穿过血管内皮,在此之前炎症增加了这个细胞层的通透性。减少炎症介导的血管内皮间隙可能被用来阻止转移。本研究描述了一种新型含有 ASR396 的纳米颗粒的开发,旨在激活 1-磷酸鞘氨醇受体 1(S1PR1),以收紧血管内皮衬里的内皮细胞之间的连接,从而抑制转移。ASR396 是通过化学修饰从 S1PR1 激动剂 SEW2871 中衍生而来的,使得新化合物能够被加载到纳米脂质体中。ASR396 保留了 S1PR1 结合活性,纳米脂质体制剂(nanoASR396)使其在静脉注射后具有系统生物利用度。在微血管中进行的研究表明,nanoASR396 通过激活 S1PR1 显著减弱了炎症介质诱导的通透性增加。同样,nanoASR396 通过降低磷酸化肌球蛋白轻链蛋白的水平抑制了炎症剂在单层内皮细胞上介导的间隙形成,从而抑制了细胞收缩性。在动物模型中,nanoASR396 抑制肺转移高达 80%,表明其具有抑制黑色素瘤转移的潜力。因此,已经开发了一种新型的生物利用纳米颗粒基 S1PR1 激动剂,以抵消炎症介质对血管内皮的影响,从而减少癌细胞的转移扩散。