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Topology-Oriented Lymph Node Drainage of Dendritic Polymer-TLR Agonist Conjugates to Enhance Vaccine Immunogenicity

  • Long Ren
  • , Bing Wang
  • , Di Miao
  • , Pan Xiang
  • , Zhen Zeng
  • , Zhiqian Li
  • , Xiaoting Chen
  • , Chenjie Xu
  • , Qiyong Gong*
  • , Kui Luo*
  • , Jing Jing*
    • *Corresponding author for this work

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

4   Link opens in a new tab Citations (Scopus)

Abstract

Strategically targeting lymph nodes (LNs) to orchestrate the initiation and regulation of adaptive immune responses is one of the most pressing challenges in the context of vaccination. Herein, a series of polymer-TLR agonist conjugates (PTACs) is developed to investigate the impact of dendritic-topological characteristics on their LN targeting activity in vivo, and their molecular weight (MW) on their pharmacokinetics in support of their LN homing. Notably, the dendritic 6-arm PTAC with a MW of 60 kDa (6A-PTAC-60k) rapidly delivered cargo to draining LNs after administration to peripheral tissues. Specifically, this topologic structure ameliorated the targeting behavior within lymphatic vessels and LNs, including an elevated amount of TLR7/8 agonist delivered to the LNs, an improved distribution pattern among barrier cells and immune cells, increased permeability, and prolonged retention. Furthermore, the 6A-PTAC-60k formulation induced broad antibody and T cell responses, enhancing vaccine immunogenicity and suppressing tumor growth. The results revealed that both the topology and MW of polymers are crucial factors for immunoadjuvant distribution and their functional activity in the draining LNs, which, in turn, enhanced the immunogenicity of the vaccine formulation. This study may provide a chemical and structural basis for optimizing the design of immunoadjuvant delivery systems. © 2025 Wiley-VCH GmbH.
Original languageEnglish
Article number2417704
JournalAdvanced Materials
Volume37
Issue number12
Online published17 Feb 2025
DOIs
Publication statusPublished - 26 Mar 2025

Funding

L.R. and B.W. contributed equally to this work. This work was supported by National Key Research and Development Program of China (2023YFB3810004, 2023ZD0502300, and 2022YFC2009900), National Natural Science Foundation of China (32271445, 32101085, and 51903173), Department of Science and Technology of Sichuan Province (2024NSFJQ0050 and 20233ZYD0167), 1·3·5 Project for Disciplines of Excellence, West China Hospital, Sichuan University (ZYGD23026). C.X. appreciates the supports from the General Research Fund (GRF) from the Research Grants Council (RGC) of the Hong Kong Special Administrative Region, China (CityU11202222, CityU11100323, and CityU11101324). The authors would like to thank Qin-Fang Zhang (College of Chemistry at Sichuan University) for sample analysis, Shanling Wang for her help of TEM images (Analysis and Testing Center of Sichuan University), Xiaojiao Wang, Hongying Chen, Jingyao Zhang, Dan Li, Jian Yang, Xuemei Chen (Research Core Facility, West China Hospital, Sichuan University) for their help in fluorescence imaging, flow cytometer, and animal experiments. The authors also acknowledge Li Li and Yang Deng (Institute of Clinical Pathology, West China Hospital) for processing histological staining and analysis of pathology slides.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

  1. SDG 3 - Good Health and Well-being
    SDG 3 Good Health and Well-being

Research Keywords

  • cancer vaccine
  • dendritic polymers
  • immunoadjuvant delivery
  • lymph node targeting
  • TLR agonist

RGC Funding Information

  • RGC-funded

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