Annali M Yurkevicz, Yanfeng Liu, Samuel G Katz, Peter M Glazer
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In vitro, treatment of melanoma tumor cells with pHLIP-SIINFEKL resulted in recognition by SIINFEKL-specific T cells (OT1), leading to T cell activation and effector function. Mechanistically, we show that this recognition by OT1 cells was abrogated by siRNA/shRNA knockdown of multiple components within the MHC class I pathway in the target tumor cells, indicating that an intact antigen processing pathway in the cancer cells is necessary to mediate the effect of pHLIP-directed SIINFEKL delivery. In vivo, pHLIP-SIINFEKL treatment of tumor-bearing mice resulted in recruitment of OT1 T cells and suppression of tumor growth in two syngeneic tumor models in immunocompetent mice, with no effect when mutating either the pHLIP or SIINFEKL components of the conjugate. 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In vivo, pHLIP-SIINFEKL treatment of tumor-bearing mice resulted in recruitment of OT1 T cells and suppression of tumor growth in two syngeneic tumor models in immunocompetent mice, with no effect when mutating either the pHLIP or SIINFEKL components of the conjugate. 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引用次数: 0
摘要
为癌症靶向治疗确定最佳抗原具有挑战性,因为癌症组织上的抗原结构与健康组织的抗原结构相似,在患者个体中几乎没有发现独特的肿瘤特异性抗原。pH低插入肽(pHLIPs)是一种独特的递送平台,可特异性地靶向肿瘤的酸性微环境,在此过程中不会损伤健康组织。我们开发了一种pHLIP-肽共轭物,用于在体内向肿瘤细胞递送卵清蛋白的免疫原性片段SIINFEKL肽。SIINFEKL在细胞内经过处理后,可通过主要组织相容性复合体(MHC)I类途径进行免疫识别。我们使用荧光标记的构建体观察到了 pHLIP-SIINFEKL 在体外和体内的选择性递送。在体外,用pHLIP-SIINFEKL处理黑色素瘤肿瘤细胞会导致SIINFEKL特异性T细胞(OT1)的识别,从而导致T细胞的活化和效应功能。从机理上讲,我们的研究表明,靶肿瘤细胞中 MHC I 类通路中的多种成分被 siRNA/shRNA 敲除后,OT1 细胞的这种识别作用就会减弱,这表明癌细胞中完整的抗原处理通路是 pHLIP 引导的 SIINFEKL 递送产生作用的必要条件。在体内,pHLIP-SIINFEKL 对携带肿瘤的小鼠进行处理后,可招募 OT1 T 细胞,并抑制免疫功能正常小鼠的两种合成肿瘤模型中的肿瘤生长。这些结果表明,pHLIP 介导的多肽递送可用于递送新型人工抗原,细胞疗法可将其作为靶标。
Tumor-specific antigen delivery for T-cell therapy via a pH-sensitive peptide conjugate.
Identifying an optimal antigen for targeted cancer therapy is challenging as the antigen landscape on cancerous tissues mimics that of healthy tissues, with few unique tumor-specific antigens identified in individual patients. pH low insertion peptides (pHLIPs) act as a unique delivery platform that can specifically target the acidic microenvironment of tumors, sparing healthy tissue in the process. We developed a pHLIP-peptide conjugate to deliver the SIINFEKL peptide, an immunogenic fragment of ovalbumin, to tumor cells in vivo. When processed intracellularly, SIINFEKL is presented for immune recognition through the major histocompatibility complex (MHC) class I pathway. We observed selective delivery of pHLIP-SIINFEKL both in vitro and in vivo using fluorescently labeled constructs. In vitro, treatment of melanoma tumor cells with pHLIP-SIINFEKL resulted in recognition by SIINFEKL-specific T cells (OT1), leading to T cell activation and effector function. Mechanistically, we show that this recognition by OT1 cells was abrogated by siRNA/shRNA knockdown of multiple components within the MHC class I pathway in the target tumor cells, indicating that an intact antigen processing pathway in the cancer cells is necessary to mediate the effect of pHLIP-directed SIINFEKL delivery. In vivo, pHLIP-SIINFEKL treatment of tumor-bearing mice resulted in recruitment of OT1 T cells and suppression of tumor growth in two syngeneic tumor models in immunocompetent mice, with no effect when mutating either the pHLIP or SIINFEKL components of the conjugate. These results suggest that pHLIP-mediated peptide delivery can be used to deliver novel artificial antigens that can be targeted by cell-based therapies.
期刊介绍:
Molecular Cancer Therapeutics will focus on basic research that has implications for cancer therapeutics in the following areas: Experimental Cancer Therapeutics, Identification of Molecular Targets, Targets for Chemoprevention, New Models, Cancer Chemistry and Drug Discovery, Molecular and Cellular Pharmacology, Molecular Classification of Tumors, and Bioinformatics and Computational Molecular Biology. The journal provides a publication forum for these emerging disciplines that is focused specifically on cancer research. Papers are stringently reviewed and only those that report results of novel, timely, and significant research and meet high standards of scientific merit will be accepted for publication.