Literature DB >> 29128997

PD-1-PD-L1 immune-checkpoint blockade in malignant lymphomas.

Yi Wang1, Ling Wu1, Chen Tian2, Yizhuo Zhang3.   

Abstract

Tumor cells can evade immune surveillance through overexpressing the ligands of checkpoint receptors on tumor cells or adjacent cells, leading T cells to anergy or exhaustion. Growing evidence of the interaction between tumor cells and microenvironment promoted the emergence of immune-checkpoint blockade. By targeting programmed cell death-1 (PD-1) pathway, cytotoxic activity of T cell is enhanced significantly and tumor cell lysis is induced subsequently. Currently, various antibodies against PD-1 and programmed death-ligand 1 (PD-L1) are under clinical studies in lymphomas. In this review, we outline the rationale for investigation of PD-1-PD-L1 immune-checkpoint blockade in lymphomas and discuss their prospect of applications in clinical treatment.

Entities:  

Keywords:  Immune checkpoint; Lymphoma; Nivolumab; PD-1; PD-L1; Pembrolizumab

Mesh:

Substances:

Year:  2017        PMID: 29128997     DOI: 10.1007/s00277-017-3176-6

Source DB:  PubMed          Journal:  Ann Hematol        ISSN: 0939-5555            Impact factor:   3.673


  19 in total

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Authors:  Russell James Hubbard Ryan; Ryan Alan Wilcox
Journal:  Hematol Oncol Clin North Am       Date:  2019-05-18       Impact factor: 3.722

2.  Genetic alterations of 9p24 in lymphomas and their impact for cancer (immuno-)therapy.

Authors:  Thomas Menter; Alexandar Tzankov
Journal:  Virchows Arch       Date:  2018-08-21       Impact factor: 4.064

Review 3.  The clinicopathological and prognostic value of PD-L1 in urothelial carcinoma: a meta-analysis.

Authors:  Yaoan Wen; Yeda Chen; Xiaolu Duan; Wei Zhu; Chao Cai; Tuo Deng; Guohua Zeng
Journal:  Clin Exp Med       Date:  2019-08-12       Impact factor: 3.984

4.  A HER2 target antibody drug conjugate combined with anti-PD-(L)1 treatment eliminates hHER2+ tumors in hPD-1 transgenic mouse model and contributes immune memory formation.

Authors:  Lei Huang; Ruiqin Wang; Kun Xie; Jingming Zhang; Fei Tao; Chenyu Pi; Yan Feng; Hua Gu; Jianmin Fang
Journal:  Breast Cancer Res Treat       Date:  2021-10-16       Impact factor: 4.872

Review 5.  Dendrimers for cancer immunotherapy: Avidity-based drug delivery vehicles for effective anti-tumor immune response.

Authors:  Piper A Rawding; Jiyoon Bu; Jianxin Wang; Da Won Kim; Adam J Drelich; Youngsoo Kim; Seungpyo Hong
Journal:  Wiley Interdiscip Rev Nanomed Nanobiotechnol       Date:  2021-08-19

Review 6.  Immune Checkpoint Inhibitors in Peripheral T-Cell Lymphoma.

Authors:  Xi Chen; Wanchun Wu; Wenwen Wei; Liqun Zou
Journal:  Front Pharmacol       Date:  2022-04-26       Impact factor: 5.988

Review 7.  Platelet Metabolism and Other Targeted Drugs; Potential Impact on Immunotherapy.

Authors:  Preeti Kanikarla-Marie; Michael Lam; Alexey V Sorokin; Michael J Overman; Scott Kopetz; David G Menter
Journal:  Front Oncol       Date:  2018-04-20       Impact factor: 6.244

Review 8.  Checkpoint Inhibitors Hodgkin Lymphoma and Non-Hodgkin Lymphoma.

Authors:  Bei Hu; Ryan Jacobs; Nilanjan Ghosh
Journal:  Curr Hematol Malig Rep       Date:  2018-12       Impact factor: 4.213

Review 9.  The Role of Macrophage/B-Cell Interactions in the Pathophysiology of B-Cell Lymphomas.

Authors:  Lan V Pham; Elizabeth Pogue; Richard J Ford
Journal:  Front Oncol       Date:  2018-05-08       Impact factor: 6.244

Review 10.  The Use of the Humanized Mouse Model in Gene Therapy and Immunotherapy for HIV and Cancer.

Authors:  Mayra A Carrillo; Anjie Zhen; Scott G Kitchen
Journal:  Front Immunol       Date:  2018-04-20       Impact factor: 7.561
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