Engineering Programmed Death Ligand-1/Cytotoxic T-Lymphocyte-Associated Antigen-4 Dual-Targeting Nanovesicles for Immunosuppressive Therapy in Transplantation

Xu, Zhanxue; Tsai, Hsiang‐i; Xiao, Yi-Bin; Wu, Yingyi; Su, Dandan; Yang, Min; Zha, Hualian; Yan, Fuxia; Liu, Xiaoyan; Cheng, Fang; Chen, Hongbo

doi:10.1021/acsnano.9b09065

Cited by 43 publications

(39 citation statements)

References 35 publications

(67 reference statements)

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“…In brief, the PD-1/PD-L1 axis can induce tolerance in organ transplantation through PD-1 and CD28 gates and influence the effector T cells. Xu et al (62) reported that cellular exosome-like nanovesicles could inhibit the proliferation of mononuclear cells in peripheral blood (76% vs. 2%, P < 0.001) through the interaction of PD-1/PD-L1 and CTLA-4/CD80, which would subsequently decrease the density and activation of CD8 + T cells, downregulate cytokine production (HEK293T cells), and prolonged the survival of mouse skin and heart grafts. The blocked PD-1/PD-L1 axis could lead to a high rejection rate [37% to 80% (63)] for transplanted organs.…”

Section: Lair-1mentioning

confidence: 99%

Placental Immune Tolerance and Organ Transplantation: Underlying Interconnections and Clinical Implications

Sun

Jiang

et al. 2021

Front. Immunol.

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The immune system recognizes and attacks non-self antigens, making up the cornerstone of immunity activity against infection. However, during organ transplantation, the immune system also attacks transplanted organs and leads to immune rejection and transplantation failure. Interestingly, although the embryo and placenta are semi-allografts, like transplanted organs, they can induce maternal tolerance and be free of a vigorous immune response. Also, embryo or placenta-related antibodies might adversely affect subsequent organ transplantation despite the immune tolerance during pregnancy. Therefore, the balance between the immune tolerance in maternal-fetal interface and normal infection defense provides a possible desensitization and tolerance strategy to improve transplantation outcomes. A few studies on mechanisms and clinical applications have been performed to explore the relationship between maternal-fetal immune tolerance and organ transplantation. However, up to now, the mechanisms underlying maternal-fetal immune tolerance remain vague. In this review, we provide an overview on the current understanding of immune tolerance mechanisms underlying the maternal-fetal interface, summarize the interconnection between immune tolerance and organ transplantation, and describe the adverse effect of pregnancy alloimmunization on organ transplantation.

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Section: Lair-1mentioning

confidence: 99%

Placental Immune Tolerance and Organ Transplantation: Underlying Interconnections and Clinical Implications

Sun

Jiang

et al. 2021

Front. Immunol.

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“…The secretome including soluble proteins and extracellular vesicles are highlighted as an acellular regenerative therapy for liver disease [ 78 ]. EVs are as expected from the nature of EVs, the recent study indicates that EVs or EV-like nanovesicles will be useful for the potential therapeutic usage as a prospective immunosuppressant, and proposed the possible usage of dual-targeting vesicles, composed of programmed cell death-ligand 1/programmed cell death 1 (PD-L1/PD-1) and cytotoxic T-lymphocyte-associated protein 4/cluster of differentiation 80 (CTLA-4/CD80) [ 79 ].…”

Section: Exosomes-mediated Immunity In Pancreatic Cancermentioning

confidence: 99%

Immuno-Surgical Management of Pancreatic Cancer with Analysis of Cancer Exosomes

Takeda

Kobayashi

Kitakaze

et al. 2020

Cells

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Exosomes (EXs), a type of extracellular vesicles secreted from various cells and especially cancer cells, mesenchymal cells, macrophages and other cells in the tumor microenvironment (TME), are involved in biologically malignant behaviors of cancers. Recent studies have revealed that EXs contain microRNAs on their inside and express proteins and glycolipids on their outsides, every component of which plays a role in the transmission of genetic and/or epigenetic information in cell-to-cell communications. It is also known that miRNAs are involved in the signal transduction. Thus, EXs may be useful for monitoring the TME of tumor tissues and the invasion and metastasis, processes that are associated with patient survival. Because several solid tumors secrete immune checkpoint proteins, including programmed cell death-ligand 1, the EX-mediated mechanisms are suggested to be potent targets for monitoring patients. Therefore, a companion therapeutic approach against cancer metastasis to distant organs is proposed when surgical removal of the primary tumor is performed. However, EXs and immune checkpoint mechanisms in pancreatic cancer are not fully understood, we provide an update on the recent advances in this field and evidence that EXs will be useful for maximizing patient benefit in precision medicine.

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“…[24] Concentrating the dose on the relevant cells in place can enhance the therapeutic index and promote the effectiveness of immune checkpoint blocking therapy. [25] ( Figure 2)…”

Section: The Application Of Nanotechnology In Immune Checkpointsmentioning

confidence: 99%

“…Nanotechnology can improve the safety and effectiveness of immunomodulatory compounds by changing their spatiotemporal release profiles [24] . Concentrating the dose on the relevant cells in place can enhance the therapeutic index and promote the effectiveness of immune checkpoint blocking therapy [25] . (Figure 2)…”

Section: The Application Of Nanotechnology In Immune Checkpointsmentioning

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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Engineering Programmed Death Ligand-1/Cytotoxic T-Lymphocyte-Associated Antigen-4 Dual-Targeting Nanovesicles for Immunosuppressive Therapy in Transplantation

Cited by 43 publications

References 35 publications

Placental Immune Tolerance and Organ Transplantation: Underlying Interconnections and Clinical Implications

Placental Immune Tolerance and Organ Transplantation: Underlying Interconnections and Clinical Implications

Immuno-Surgical Management of Pancreatic Cancer with Analysis of Cancer Exosomes

Combined Application of Nanotechnology and Multiple Therapies with Tumor Immune Checkpoints

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