Nanomaterials-Involved Tumor-Associated Macrophages’ Reprogramming for Antitumor Therapy

Li, Shu-Lan; Hou, Hua-Ying; Chu, Xu; Zhu, Yu-Ying; Zhang, Yu-Juan; Duan, Meng-Die; Liu, Junyi; Liu, Yi

doi:10.1021/acsnano.3c12387

Cited by 3 publications

(1 citation statement)

References 189 publications

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“…Macrophages have pivotal roles in tumor microenvironment and are important targets of cancer immunotherapy. Activation of anticancer function of pro-inflammatory M1 macrophages and reprograming of anti-inflammatory M2 macrophages to antitumor M1 macrophage using nanoparticles are under active development. , Cationic polymers like PEI stimulate macrophage antitumor activity via TLR-4 signaling . Additionally, PEI-covered poly(lactic- co -glycolic acid)-based nanoparticles containing methotrexate with a diameter of 100 nm promoted M2 macrophage repolarization toward the antitumor M1 macrophage .…”

Section: Discussionmentioning

confidence: 99%

Size and Surface Properties of Functionalized Organosilica Particles Impact Cell–Particle Interactions Including Mitochondrial Activity

Nakamura,

Shiohama,

Röth

et al. 2024

ACS Appl. Mater. Interfaces

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Section: Discussionmentioning

confidence: 99%

Size and Surface Properties of Functionalized Organosilica Particles Impact Cell–Particle Interactions Including Mitochondrial Activity

Nakamura,

Shiohama,

Röth

et al. 2024

ACS Appl. Mater. Interfaces

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Dual‐Responsive Shape‐Transformable Charge‐Reversible Nanoparticles Combined with Chemo‐Photodynamic‐Immunotherapy for the Treatment of Breast Cancer and Lung Metastasis

Jia,

Gong,

Chen

et al. 2024

Adv Funct Materials

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Herein, a dual‐responsive shape‐transforming charge‐reversal integrated nanomedicine system (DHP@BPP) is developed for the co‐delivery of the photosensitizer pyro pheophorbide‐α (Ppa), anti‐programmed cell death ligand 1 (PD‐L1) peptide (dPPA), and tumor‐associated macrophages (TAMs)‐regulating drug berberrubine (BBR). Hydrophobic Ppa and hydrophilic BBR are linked by matrix metalloproteinase‐2 (MMP‐2) responsive peptide (PMGMRKLVFF) to form BPP. BPP can self‐assemble into spherical nanoparticles with positive charge, which undergo shape transformation to nanofibers upon cleavage by MMP‐2 at tumor sites. The dPPA is conjugated with hexa‐histidine and polyethylene glycol to form DHP, which is then electrostatically adsorbed onto the surface of BPP to form DHP@BPP with negative surface charge. The DHP not only enhances the tumor‐targeting but also induces DHP disassociation and charge reversal of DHP@BPP due to protonation of histidine at the tumor site, thereby increasing tumor penetration while maintaining long blood circulation. Most importantly, through the combination of chemo‐photodynamic‐immunotherapy, it can repolarize TAMs from M2‐type to M1‐type while reducing PD‐L1 expression to reshape the immunosuppressive tumor microenvironment, thereby synergistically enhancing the effect of immunogenic cell death. In conclusion, this study offered a simple but effective idea for the treatment of immunosuppressive cancers through the combination of shape transformation and charge reversal, integrating chemo‐photodynamic‐immunotherapy.

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“Internal Trouble and Outside Aggression” Strategy: Energy Deprivation Synergized With cGAS‐STING Pathway Activation for Stimuli‐Responsive Photodynamic‐Metal‐Metabolic Immunotherapy

Qian,

Xie,

Zhu

et al. 2024

Adv Funct Materials

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The aberrant metabolic activities of tumor cells not only facilitate tumor proliferation but also impair immune cell function and cause an immunosuppressive tumor microenvironment (TME). Thus, reshaping the metabolic TME while activating innate immunity is highly desirable but challenging. Herein, a multifunctional immunomodulator is engineered for near‐infrared light (NIR)‐triggered photodynamic‐metal‐metabolic immunotherapy via the “internal trouble and outside aggression” strategy. Specifically, an endogenous and exogenous stimuli‐responsive nanoagent is prepared consisting of photosensitizer chlorin e6 (Ce6) modified dense silica‐coated rare earth‐doped nanoparticles (ReNPs@SiO2(Ce6)), with in situ grown ZIF‐8 on the surface for loading glucose transporter‐1 (GLUT‐1) inhibitor Fasentin and glutaminase‐1 inhibitor bis‐2‐(5‐phenylacetamido‐1,3,4‐thiadiazol‐2‐yl)ethyl sulfide (BPTES). The as‐obtained final product is denoted as ReSZ(FB). ReSZ(FB) induces‐ mitochondrial damage and releases mitochondrial DNA (mtDNA) via NIR‐mediated PDT. Subsequently, Zn2+ from ZIF‐8 collaborates with mtDNA to activate the cGAS‐STING pathway, initiating a robust tumor‐specific immune response. Concurrently, Fasentin and BPTES triggeres energy deprivation by blocking glucose uptake and inhibiting glutamine decomposition, thereby reprogramming the metabolic TME, and alleviating immunosuppression. Tumor cells are damaged and trapped into “internal trouble” by combining PDT and energy deprivation, while the sharply enhanced immune cell lethality exposes cancer cells to “outside aggression”. Overall, this photodynamic‐metal‐metabolic immunotherapy provides a promising paradigm for cancer therapy.

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Nanomaterials-Involved Tumor-Associated Macrophages’ Reprogramming for Antitumor Therapy

Cited by 3 publications

References 189 publications

Size and Surface Properties of Functionalized Organosilica Particles Impact Cell–Particle Interactions Including Mitochondrial Activity

Size and Surface Properties of Functionalized Organosilica Particles Impact Cell–Particle Interactions Including Mitochondrial Activity

Dual‐Responsive Shape‐Transformable Charge‐Reversible Nanoparticles Combined with Chemo‐Photodynamic‐Immunotherapy for the Treatment of Breast Cancer and Lung Metastasis

“Internal Trouble and Outside Aggression” Strategy: Energy Deprivation Synergized With cGAS‐STING Pathway Activation for Stimuli‐Responsive Photodynamic‐Metal‐Metabolic Immunotherapy

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