Department of Pathology, The University of Chicago, Chicago, Illinois.
Department of Medicine, Section of Hematology/Oncology, The University of Chicago, Chicago, Illinois.
Immunol Rev. 2019 Jul;290(1):24-38. doi: 10.1111/imr.12765.
The fact that a subset of human cancers showed evidence for a spontaneous adaptive immune response as reflected by the T cell-inflamed tumor microenvironment phenotype led to the search for candidate innate immune pathways that might be driving such endogenous responses. Preclinical studies indicated a major role for the host STING pathway, a cytosolic DNA sensing pathway, as a proximal event required for optimal type I interferon production, dendritic cell activation, and priming of CD8 T cells against tumor-associated antigens. STING agonists are therefore being developed as a novel cancer therapeutic, and a greater understanding of STING pathway regulation is leading to a broadened list of candidate immune regulatory targets. Early phase clinical trials of intratumoral STING agonists are already showing promise, alone and in combination with checkpoint blockade. Further advancement will derive from a deeper understanding of STING pathway biology as well as mechanisms of response vs resistance in individual cancer patients.
事实上,一部分人类癌症表现出了自发适应性免疫反应的证据,这反映在 T 细胞浸润的肿瘤微环境表型上,这促使人们寻找可能驱动这种内源性反应的候选先天免疫途径。临床前研究表明,宿主 STING 途径(一种细胞质 DNA 感应途径)作为产生最佳 I 型干扰素、树突状细胞激活和针对肿瘤相关抗原的 CD8 T 细胞启动的必需近端事件,起着主要作用。因此,STING 激动剂被开发为一种新型癌症治疗方法,对 STING 途径调节的更深入了解导致了候选免疫调节靶点的广泛列表。局部 STING 激动剂的早期临床试验已经显示出希望,单独使用和与检查点阻断联合使用都有希望。进一步的进展将来自对 STING 途径生物学以及个体癌症患者的反应与耐药机制的更深入了解。