Seung hun Shin , Young Eun Lee , Han-Na Yoon , Chae Min Yuk , Jun Yop An , Minkoo Seo , Sangwon Yoon , Min-Suk Oh , Sang Chul Shin , Ji Hyung Kim , Yong Jun Kim , Jin-Chul Kim , Song Cheol Kim , Mihue Jang
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引用次数: 0
摘要
肿瘤微环境中的转化生长因子β1(TGFβ1)介导的自然杀伤(NK)细胞功能障碍阻碍了抗肿瘤治疗,导致临床疗效不佳。我们的研究引入了自激活嵌合抗原受体(CAR)-NK细胞,这种细胞通过释放专门设计的多肽P6阻断TGFβ1信号传导,P6靶向胰腺肿瘤中的间皮素。P6源自TGFβ1和TGFβ受体1之间的相互作用位点,能有效破坏TGFβ1在NK细胞中的抑制信号传导。我们的分析表明,P6 处理能中断 NK 细胞中的 SMAD2/3 通路,减轻 TGFβ1 介导的对 NK 细胞活性的抑制,从而增强它们的代谢功能和对胰腺肿瘤的细胞毒反应。这些 CAR-NK 细胞表现出了强大的抗肿瘤能力,这一点在球状培养物与癌症相关成纤维细胞以及体内小鼠模型中都得到了证实。我们的方法标志着在克服 TGFβ1 介导的免疫逃避方面取得了重大进展,为彻底改变癌症免疫疗法提供了一条前景广阔的途径。
An innovative strategy harnessing self-activating CAR-NK cells to mitigate TGF-β1-driven immune suppression
The dysfunction of natural killer (NK) cells, mediated by transforming growth factor β1 (TGFβ1) within the tumor microenvironment, impedes antitumor therapy and contributes to poor clinical outcomes. Our study introduces self-activating chimeric antigen receptor (CAR)-NK cells that block TGFβ1 signaling by releasing a specifically designed peptide, P6, which targets mesothelin in pancreatic tumors. P6 originates from the interaction sites between TGFβ1 and TGFβ receptor 1 and effectively disrupts TGFβ1's inhibitory signaling in NK cells. Our analysis demonstrates that P6 treatment interrupts the SMAD2/3 pathway in NK cells, mitigating TGFβ1-mediated suppression of NK cell activity, thereby enhancing their metabolic function and cytotoxic response against pancreatic tumors. These CAR-NK cells exhibit potent antitumor capabilities, as evidenced in spheroid cultures with cancer-associated fibroblasts and in vivo mouse models. Our approach marks a substantial advancement in overcoming TGFβ1-mediated immune evasion, offering a promising avenue for revolutionizing cancer immunotherapy.
期刊介绍:
Biomaterials is an international journal covering the science and clinical application of biomaterials. A biomaterial is now defined as a substance that has been engineered to take a form which, alone or as part of a complex system, is used to direct, by control of interactions with components of living systems, the course of any therapeutic or diagnostic procedure. It is the aim of the journal to provide a peer-reviewed forum for the publication of original papers and authoritative review and opinion papers dealing with the most important issues facing the use of biomaterials in clinical practice. The scope of the journal covers the wide range of physical, biological and chemical sciences that underpin the design of biomaterials and the clinical disciplines in which they are used. These sciences include polymer synthesis and characterization, drug and gene vector design, the biology of the host response, immunology and toxicology and self assembly at the nanoscale. Clinical applications include the therapies of medical technology and regenerative medicine in all clinical disciplines, and diagnostic systems that reply on innovative contrast and sensing agents. The journal is relevant to areas such as cancer diagnosis and therapy, implantable devices, drug delivery systems, gene vectors, bionanotechnology and tissue engineering.
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