Nano-enabled regulation of DNA damage in tumor cells to enhance neoantigen-based pancreatic cancer immunotherapy

IF 12.8 1区医学 Q1 ENGINEERING, BIOMEDICAL Biomaterials Pub Date : 2024-07-21 DOI:10.1016/j.biomaterials.2024.122710

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Abstract

Low-expression antigens, especially neoantigens, pose a significant challenge in immunotherapy for low immunogenicity pancreatic cancer. Increasing the tumor mutation burden is crucial to enhance the expression of tumor antigens and improve tumor immunogenicity. However, the incomplete intervention in DNA stability hampers effective elevation of the tumor mutation burden, thus reducing the probability of neoantigen. To address this issue, we have developed a novel nano-regulator that intervenes in the DNA stability of tumor cells, thereby enhancing tumor mutations. This nano-regulator comprises metal-organic frameworks (MOFs) encapsulating DNA damage agent doxorubicin and DNA damage repair inhibitor siRNA-ATR, enabling simultaneous induction of DNA mutations and inhibition of their repair. Importantly, this regulator, named as MOF_DOX&siATR, can modulate the tumor gene expression profile, induce the production of neoantigens of Atp8b1, and enhance the immunogenicity of pancreatic cancer. The characteristics of DNA stability intervention by MOF_DOX&siATR hold promise for augmenting the immune response in low immunogenic tumors, making it a potential nanomedicine for the treatment of pancreatic cancer.

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通过纳米技术调节肿瘤细胞中的 DNA 损伤，加强基于新抗原的胰腺癌免疫疗法。

低表达抗原，尤其是新抗原，是低免疫原性胰腺癌免疫疗法面临的重大挑战。增加肿瘤突变负荷是提高肿瘤抗原表达和改善肿瘤免疫原性的关键。然而，对 DNA 稳定性的不完全干预阻碍了肿瘤突变负荷的有效提高，从而降低了新抗原的概率。为解决这一问题，我们开发了一种新型纳米调节剂，可干预肿瘤细胞的 DNA 稳定性，从而增强肿瘤突变。这种纳米调节剂由金属有机框架（MOFs）组成，封装了DNA损伤剂多柔比星和DNA损伤修复抑制剂siRNA-ATR，能够同时诱导DNA突变和抑制其修复。重要的是，这种被命名为 MOFDOX&siATR 的调节剂可以调节肿瘤基因表达谱，诱导 Atp8b1 新抗原的产生，增强胰腺癌的免疫原性。MOFDOX&siATR干预DNA稳定性的特性有望增强低免疫原性肿瘤的免疫反应，使其成为治疗胰腺癌的潜在纳米药物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biomaterials 工程技术-材料科学：生物材料

CiteScore

26.00

自引率

2.90%

发文量

565

审稿时长

46 days

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.