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mRNA 疫苗增效剂:肿瘤治疗的潜在多面手。

Amplifying mRNA vaccines: potential versatile magicians for oncotherapy.

机构信息

Division of Hepatitis and Enterovirus Vaccines, National Institutes for Food and Drug Control, Beijing, China.

National Health Commission (NHC), Key Laboratory of Research on Quality and Standardization of Biotech Products, National Institutes for Food and Drug Control, Beijing, China.

出版信息

Front Immunol. 2023 Oct 23;14:1261243. doi: 10.3389/fimmu.2023.1261243. eCollection 2023.

DOI:10.3389/fimmu.2023.1261243
PMID:37936701
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10626473/
Abstract

Cancer vaccines drive the activation and proliferation of tumor-reactive immune cells, thereby eliciting tumor-specific immunity that kills tumor cells. Accordingly, they possess immense potential in cancer treatment. However, such vaccines are also faced with challenges related to their design and considerable differences among individual tumors. The success of messenger RNA (mRNA) vaccines against coronavirus disease 2019 has prompted the application of mRNA vaccine technology platforms to the field of oncotherapy. These platforms include linear, circular, and amplifying mRNA vaccines. In particular, amplifying mRNA vaccines are characterized by high-level and prolonged antigen gene expression at low doses. They can also stimulate specific cellular immunity, making them highly promising in cancer vaccine research. In this review, we summarize the research progress in amplifying mRNA vaccines and provide an outlook of their prospects and future directions in oncotherapy.

摘要

癌症疫苗可驱动肿瘤反应性免疫细胞的激活和增殖,从而引发杀伤肿瘤细胞的肿瘤特异性免疫。因此,它们在癌症治疗中具有巨大的潜力。然而,这些疫苗也面临着与设计相关的挑战,以及个体肿瘤之间的显著差异。信使 RNA(mRNA)疫苗在 2019 年冠状病毒病中的成功应用促使 mRNA 疫苗技术平台在肿瘤治疗领域得到应用。这些平台包括线性、环状和扩增 mRNA 疫苗。特别是,扩增 mRNA 疫苗的特点是在低剂量下高水平、长时间表达抗原基因。它们还可以刺激特异性细胞免疫,因此在癌症疫苗研究中具有广阔的前景。在这篇综述中,我们总结了扩增 mRNA 疫苗的研究进展,并对其在肿瘤治疗中的前景和未来方向进行了展望。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3e58/10626473/0f683fe7ff67/fimmu-14-1261243-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3e58/10626473/edc989a15ad4/fimmu-14-1261243-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3e58/10626473/0f683fe7ff67/fimmu-14-1261243-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3e58/10626473/edc989a15ad4/fimmu-14-1261243-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3e58/10626473/0f683fe7ff67/fimmu-14-1261243-g002.jpg

相似文献

[1]
Amplifying mRNA vaccines: potential versatile magicians for oncotherapy.

Front Immunol. 2023

[2]
Self-amplifying mRNA-Based Vaccine Technology and Its Mode of Action.

Curr Top Microbiol Immunol. 2022

[3]
In Vitro Transcribed RNA-Based Platform Vaccines: Past, Present, and Future.

Vaccines (Basel). 2023-10-16

[4]
Advances and applications of RNA vaccines in tumor treatment.

Mol Cancer. 2024-10-9

[5]
The Rapid Development and Early Success of Covid 19 Vaccines Have Raised Hopes for Accelerating the Cancer Treatment Mechanism.

Arch Razi Inst. 2021-3

[6]
Messenger RNA-based vaccines with dual activity induce balanced TLR-7 dependent adaptive immune responses and provide antitumor activity.

J Immunother. 2011-1

[7]
COVID-19 mRNA vaccines: Platforms and current developments.

Mol Ther. 2022-5-4

[8]
[New Hopes in Vaccine Technology: mRNA Vaccines].

Mikrobiyol Bul. 2021-4

[9]
Self-amplifying mRNA vaccines.

Adv Genet. 2015

[10]
Cancer vaccines as promising immuno-therapeutics: platforms and current progress.

J Hematol Oncol. 2022-3-18

引用本文的文献

[1]
mRNA vaccines in the context of cancer treatment: from concept to application.

J Transl Med. 2025-1-6

[2]
mRNA cancer vaccines from bench to bedside: a new era in cancer immunotherapy.

Biomark Res. 2024-12-18

[3]
Progress and prospects of mRNA-based drugs in pre-clinical and clinical applications.

Signal Transduct Target Ther. 2024-11-14

[4]
Effect of electrical and chemical (activation versus inactivation) stimulation of the infralimbic division of the medial prefrontal cortex in rats with chronic neuropathic pain.

Exp Brain Res. 2023-12

本文引用的文献

[1]
Personalized RNA neoantigen vaccines stimulate T cells in pancreatic cancer.

Nature. 2023-6

[2]
Algorithm for optimized mRNA design improves stability and immunogenicity.

Nature. 2023-9

[3]
Simultaneous targeting of PD-1 and IL-2Rβγ with radiation therapy inhibits pancreatic cancer growth and metastasis.

Cancer Cell. 2023-5-8

[4]
Research progress on circular RNA vaccines.

Front Immunol. 2022

[5]
An engineered T7 RNA polymerase that produces mRNA free of immunostimulatory byproducts.

Nat Biotechnol. 2023-4

[6]
An OX40L mRNA vaccine inhibits the growth of hepatocellular carcinoma.

Front Oncol. 2022-10-13

[7]
Psychrophilic phage VSW-3 RNA polymerase reduces both terminal and full-length dsRNA byproducts in transcription.

RNA Biol. 2022-1

[8]
Clinical advances and ongoing trials on mRNA vaccines for cancer treatment.

Lancet Oncol. 2022-10

[9]
A Novel Single-Stranded RNA-Based Adjuvant Improves the Immunogenicity of the SARS-CoV-2 Recombinant Protein Vaccine.

Viruses. 2022-8-24

[10]
B.1.351 SARS-CoV-2 Variant Exhibits Higher Virulence but Less Viral Shedding than That of the Ancestral Strain in Young Nonhuman Primates.

Microbiol Spectr. 2022-10-26

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