Zifu Zhong scite author profile

Localized therapeutic modalities that subvert the tumor microenvironment from immune‐suppressive to pro‐immunogenic can elicit systemic antitumor immune responses that induce regression of directly treated as well as nontreated distal tumors. A key toward generating robust antitumor T cell responses is the activation of dendritic cells (DCs) in the tumor microenvironment. Treatment with agonists triggering various pattern recognition receptors is very efficient to activate DCs, yet suffers from the induction of serious immune‐related adverse effects, which is closely linked to their unfavorable PK/PD profile causing systemic immune activation and cytokine release. Here, it is reported that nanoparticle conjugation of a highly potent TLR7/8 agonist restricts immune activation to the tumor bed and its sentinel lymph nodes without hampering therapeutic antitumor efficacy. On a mechanistic level, it is confirmed that localized treatment with a nanoparticle‐conjugated TLR7/8 agonist leads to potent activation of DCs in the sentinel lymph nodes and promotes proliferation of tumor antigen‐specific CD8 T cells. Furthermore, therapeutic improvement upon combination with anti‐PDL1 checkpoint inhibition and Flt3L, a growth factor that expands and mobilizes DCs from the bone marrow, is demonstrated. The findings provide a rational base for localized tumor engineering by nanomedicine strategies that provide spatial control over immune‐activation.

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Lymph-Node-Targeted Immune Activation by Engineered Block Copolymer Amphiphiles–TLR7/8 Agonist Conjugates

Herck

Deswarte

Nuhn

et al. 2018

J. Am. Chem. Soc.

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Small molecule immuno-modulators such as agonists of Toll-like receptors (TLRs) are attractive compounds to stimulate innate immune cells toward potent antiviral and antitumor responses. However, small molecules rapidly enter the systemic circulation and cause "wasted inflammation". Hence, synthetic strategies to confine their radius of action to lymphoid tissue are of great relevance, to both enhance their efficacy and concomitantly limit toxicity. Here, we demonstrate that covalent conjugation of a small molecule TLR7/8 agonist immunomodulatory to a micelleforming amphiphilic block copolymer greatly alters the pharmacokinetic profile, resulting in highly efficient lymphatic delivery. Moreover, we designed amphiphilic block copolymers in such a way to form thermodynamically stable micelles through π−π stacking between aromatic moieties, and we engineered the block copolymers to undergo an irreversible amphiphilic to hydrophilic transition in response to the acidic endosomal pH.

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Potent Lymphatic Translocation and Spatial Control Over Innate Immune Activation by Polymer–Lipid Amphiphile Conjugates of Small‐Molecule TLR7/8 Agonists

et al. 2019

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Uncontrolled systemic inflammatory immune triggering has hampered the clinical translation of several classes of small‐molecule immunomodulators, such as imidazoquinoline TLR7/8 agonists for vaccine design and cancer immunotherapy. By taking advantage of the inherent serum‐protein‐binding property of lipid motifs and their tendency to accumulate in lymphoid tissue, we designed amphiphilic lipid–polymer conjugates that suppress systemic inflammation but provoke potent lymph‐node immune activation. This work provides a rational basis for the design of lipid–polymer amphiphiles for optimized lymphoid targeting.

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Zifu Zhong

mRNA therapeutics deliver a hopeful message

Nanoparticle‐Conjugate TLR7/8 Agonist Localized Immunotherapy Provokes Safe Antitumoral Responses

Lymph-Node-Targeted Immune Activation by Engineered Block Copolymer Amphiphiles–TLR7/8 Agonist Conjugates

Potent Lymphatic Translocation and Spatial Control Over Innate Immune Activation by Polymer–Lipid Amphiphile Conjugates of Small‐Molecule TLR7/8 Agonists

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