Dual‐Locking Nanoparticles Disrupt the PD‐1/PD‐L1 Pathway for Efficient Cancer Immunotherapy

Zhang, Zhanzhan; Wang, Qixue; Liu, Qi; Zheng, Yadan; Zheng, Chenguang; Yi, Kaikai; Zhao, Yu; Gu, Yu; Wang, Ying; Wang, Chun; Zhao, Xinzhi; Shi, Linqi; Kang, Chunsheng; Liu, Yang

doi:10.1002/adma.201905751

Cited by 99 publications

(93 citation statements)

References 39 publications

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“…Therefore, the antitumor effect of ITs depends on several factors: the affinity of Abs for TAA expressed on the cell surface, the rate of internalization of the complex, and the inherent efficacy and specificity of the toxin 25 . Immunotoxin‐based anti‐PD‐L1 mAb is considered to be an effective tumor treatment method in theory, because: (i) the immune checkpoint protein PD‐L1 is broadly expressed in many cancers, 9,20,26,27 which is spectral in treatment; (ii) its expression is limited in tumor area but not in normal cells, the treatment is mainly aimed at tumor tissue, which makes PD‐L1‐specific treatment more accurate, and its side‐effects limited; (iii) ELISA assay showed that PD‐L1, as a transmembrane protein, was not released from the constitutively expressing PD‐L1 cell membrane; and (iv) the key is that PD‐L1 on tumor cells is glycosylated, so when anti‐PD‐L1 mAb is combined in the glycosylated domain, it will produce internalization, 28 which provides a good antitumor basis for IT‐based treatment 28,29 . At present, PD‐L1‐specific treatment, such as PDL1‐Dox 30 and PD‐L1‐AuNP‐DOX 31 in the form of an Ab‐drug conjugate, have shown some promising results.…”

Section: Discussionmentioning

confidence: 99%

Novel cucurmosin‐based immunotoxin targeting programmed cell death 1‐ligand 1 with high potency against human tumor in vitro and in vivo

et al. 2020

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Immunotoxins are Ab‐cytotoxin chimeric molecules with mighty cytotoxicity. Programmed cell death 1‐ligand 1 (PD‐L1), is a transmembrane protein expressed mainly in inflammatory tumor tissues and plays a pivotal role in immune escape and tumor progression. Although PD‐L1 immune checkpoint therapy has been successful in some cases, many patients have not benefited enough due to primary/secondary resistance. In order to optimize the therapeutic efficacy of anti‐PD‐L1 mAb, we used durvalumab as the payload and CUS245C, a type I ribosome‐inactivating protein isolated from Cucurbita moschata, as the toxin moiety, to construct PD‐L1‐specific immunotoxin (named D‐CUS245C) through the engineered cysteine residue. In vitro, D‐CUS245C selectively killed PD‐L1+ tumor cells. In vivo studies also showed that D‐CUS245C had obvious antitumor effect on PD‐L1+ human xenograft tumors in nude mice. In conclusion, in the combination of the toxin with mAb, this study developed a new immunotoxin targeting PD‐L1, emphasizing a novel and promising treatment strategy and providing a valuable way to optimize cancer immunotherapy.

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Section: Discussionmentioning

confidence: 99%

Novel cucurmosin‐based immunotoxin targeting programmed cell death 1‐ligand 1 with high potency against human tumor in vitro and in vivo

et al. 2020

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“…[11] Polymer-based materials can simultaneously deliver agents with different hydrophilic and hydrophobic properties to enhance conventional therapies such as chemotherapy,p hotodynamic therapy (PDT), radiotherapy,a nd gene editing, highlighting their potential to induce immunogenic cell death and antitumor immunity. [12] Forinstance,F eng et al reported the use of alight-activatable prodrug of oxaliplatin, aphotosensitizer pheophorbide Ac ombined with an indoleamine 2,3-dioxygenase1 (IDO-1) inhibitor to efficiently elicit an immune response and to promote intratumor infiltration of cytotoxic Tlymphocytes. [12c] ICG-loaded PLGA nanospheres can enhance efficacy of CAR T-cell therapy by modulating the tumor microenvironment.…”

Section: Polymer-based Materialsmentioning

confidence: 99%

Improving Cancer Immunotherapy Outcomes Using Biomaterials

Yan

Luo

et al. 2020

Angewandte Chemie

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Immunotherapy has made great strides in improving clinical outcomes in cancer treatment. However, few patients exhibit adequate response rates for key outcome measures and desired long‐term responses, and they often suffer systemic side effects due to the dynamic nature of the immune system. This has motivated a search for alternative strategies to improve unsatisfactory immunotherapeutic outcomes. In recent years, biomaterial‐assisted immunotherapy has shown promise in cancer treatment with improved therapeutic efficacy and reduced side effects. These biomaterials have illuminated fundamental mechanisms underlying the immunoediting process, while greatly improving the efficacy of chimeric antigen receptor (CAR) T‐cell therapy, cancer vaccine therapy, and immune checkpoint blockade therapy. This Minireview discusses recent advances in engineered biomaterials that address limitations associated with conventional cancer immunotherapies.

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“…The results showed that DLNP successfully killed PD-L1 positive cancer cells, accurately regulated the activation of CRISPR/Cas13a, and further improved anti-tumor immunotherapy. [31] (Figure 3)…”

Section: Nano Drug Delivery Systemmentioning

confidence: 99%

Combined Application of Nanotechnology and Multiple Therapies with Tumor Immune Checkpoints

Sun

et al. 2020

ChemistrySelect

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Tumor immunotherapy has received worldwide attention in cancer treatment owing to its apparent advantages, such as strong specificity and long curative effect. Among them, significant progress has been made on the immune checkpoint therapy in recent years. FDA approved PD‐L1/PD‐1 and CTLA‐4 immune checkpoint inhibitors have been broadly used in a variety of malignant tumors. However, because of the low response rate of immune checkpoint drugs, its clinical application has been greatly hindered. With the prominence of nanotechnology in bio‐medicine, the application of nanotechnology in immune checkpoints has also gained more and more attention. The combination of radiotherapy, chemotherapy, phototherapy, magnetic therapy and other methods in nanotechnology makes an excellent promoting effect in the treatment of immune checkpoint drugs. This article reviews the recent breakthroughs of nanotechnology in immune checkpoint blocking therapy, mainly focusing on the significant advantages of the combination of nanotechnology‐based immune checkpoint blocking therapy with other treatment methods. In addition, we also discussed the challenges in this area and pointed out some potential directions for future development.

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Dual‐Locking Nanoparticles Disrupt the PD‐1/PD‐L1 Pathway for Efficient Cancer Immunotherapy

Cited by 99 publications

References 39 publications

Novel cucurmosin‐based immunotoxin targeting programmed cell death 1‐ligand 1 with high potency against human tumor in vitro and in vivo

Novel cucurmosin‐based immunotoxin targeting programmed cell death 1‐ligand 1 with high potency against human tumor in vitro and in vivo

Improving Cancer Immunotherapy Outcomes Using Biomaterials

Combined Application of Nanotechnology and Multiple Therapies with Tumor Immune Checkpoints

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