Literature DB >> 33122306

Lipopolysaccharide-Mediated Chronic Inflammation Promotes Tobacco Carcinogen-Induced Lung Cancer and Determines the Efficacy of Immunotherapy.

Chia-Hsin Liu1,2, Zhong Chen3, Kong Chen4, Fu-Tien Liao1, Chia-En Chung1, Xiaoping Liu1,5, Yu-Chun Lin6, Phouthone Keohavong1, George D Leikauf1, Yuanpu Peter Di7.   

Abstract

Chronic obstructive pulmonary disease (COPD) is an inflammatory disease that is associated with increased risk of lung cancer. Pseudomonas aeruginosa (PA) infections are frequent in patients with COPD, which increase lung inflammation and acute exacerbations. However, the influences of PA-induced inflammation on lung tumorigenesis and the efficacy of immune checkpoint blockade remain unknown. In this study, we initiated a murine model of lung cancer by treating FVB/NJ female mice with tobacco carcinogen nitrosamine 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) alone or in combination with PA-lipopolysaccharide (LPS). LPS-mediated chronic inflammation induced T-cell exhaustion, increased the programmed cell death-1 (PD-1)/programmed cell death ligand-1 (PD-L1) axis, and enhanced NNK-induced lung tumorigenesis through an immunosuppressive microenvironment characterized by accumulation of myeloid-derived suppressive cells (MDSC) and regulatory T cells. Anti-PD-1 antibody treatment reduced tumors in NNK/LPS-treated mice with a 10-week LPS treatment but failed to inhibit tumor growth when LPS exposure was prolonged to 16 weeks. Anti-Ly6G antibody treatment coupled with depletion of MDSC alone reduced tumor growth; when combined with anti-PD-1 antibody, this treatment further enhanced antitumor activity in 16-week NNK/LPS-treated mice. Immune gene signatures from a human lung cancer dataset of PD-1 blockade were identified, which predicted treatment responses and survival outcome and overlapped with those from the mouse model. This study demonstrated that LPS-mediated chronic inflammation creates a favorable immunosuppressive microenvironment for tumor progression and correlates with the efficacy of anti-PD-1 treatment in mice. Immune gene signatures overlap with human and mouse lung tumors, providing potentially predictive markers for patients undergoing immunotherapy. SIGNIFICANCE: This study identifies an immune gene signature that predicts treatment responses and survival in patients with tobacco carcinogen-induced lung cancer receiving immune checkpoint blockade therapy. ©2020 American Association for Cancer Research.

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Year:  2020        PMID: 33122306      PMCID: PMC7878420          DOI: 10.1158/0008-5472.CAN-20-1994

Source DB:  PubMed          Journal:  Cancer Res        ISSN: 0008-5472            Impact factor:   13.312


  54 in total

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Review 2.  Risk factors for lung cancer worldwide.

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3.  IFN-γ-related mRNA profile predicts clinical response to PD-1 blockade.

Authors:  Mark Ayers; Jared Lunceford; Michael Nebozhyn; Erin Murphy; Andrey Loboda; David R Kaufman; Andrew Albright; Jonathan D Cheng; S Peter Kang; Veena Shankaran; Sarina A Piha-Paul; Jennifer Yearley; Tanguy Y Seiwert; Antoni Ribas; Terrill K McClanahan
Journal:  J Clin Invest       Date:  2017-06-26       Impact factor: 14.808

4.  RNA-sequencing studies identify genes differentially regulated during inflammation-driven lung tumorigenesis and targeted by chemopreventive agents.

Authors:  Xuemin Qian; Ali Khammanivong; Jung Min Song; Fitsum Teferi; Pramod Upadhyaya; Erin Dickerson; Fekadu Kassie
Journal:  Inflamm Res       Date:  2015-03-21       Impact factor: 4.575

Review 5.  Checkpoint Blockade in Lung Cancer and Mesothelioma.

Authors:  Lysanne A Lievense; Daniel H Sterman; Robin Cornelissen; Joachim G Aerts
Journal:  Am J Respir Crit Care Med       Date:  2017-08-01       Impact factor: 21.405

6.  New response evaluation criteria in solid tumours: revised RECIST guideline (version 1.1).

Authors:  E A Eisenhauer; P Therasse; J Bogaerts; L H Schwartz; D Sargent; R Ford; J Dancey; S Arbuck; S Gwyther; M Mooney; L Rubinstein; L Shankar; L Dodd; R Kaplan; D Lacombe; J Verweij
Journal:  Eur J Cancer       Date:  2009-01       Impact factor: 9.162

7.  T Cell-Inflamed versus Non-T Cell-Inflamed Tumors: A Conceptual Framework for Cancer Immunotherapy Drug Development and Combination Therapy Selection.

Authors:  Jonathan A Trujillo; Randy F Sweis; Riyue Bao; Jason J Luke
Journal:  Cancer Immunol Res       Date:  2018-09       Impact factor: 11.151

8.  Transcriptomic analysis comparing tumor-associated neutrophils with granulocytic myeloid-derived suppressor cells and normal neutrophils.

Authors:  Zvi G Fridlender; Jing Sun; Inbal Mishalian; Sunil Singhal; Guanjun Cheng; Veena Kapoor; Wenhwai Horng; Gil Fridlender; Rachel Bayuh; G Scott Worthen; Steven M Albelda
Journal:  PLoS One       Date:  2012-02-14       Impact factor: 3.240

9.  Resistance to CTLA-4 checkpoint inhibition reversed through selective elimination of granulocytic myeloid cells.

Authors:  Paul E Clavijo; Ellen C Moore; Jianhong Chen; Ruth J Davis; Jay Friedman; Young Kim; Carter Van Waes; Zhong Chen; Clint T Allen
Journal:  Oncotarget       Date:  2017-06-11

10.  A HaemAtlas: characterizing gene expression in differentiated human blood cells.

Authors:  Nicholas A Watkins; Arief Gusnanto; Bernard de Bono; Subhajyoti De; Diego Miranda-Saavedra; Debbie L Hardie; Will G J Angenent; Antony P Attwood; Peter D Ellis; Wendy Erber; Nicola S Foad; Stephen F Garner; Clare M Isacke; Jennifer Jolley; Kerstin Koch; Iain C Macaulay; Sarah L Morley; Augusto Rendon; Kate M Rice; Niall Taylor; Daphne C Thijssen-Timmer; Marloes R Tijssen; C Ellen van der Schoot; Lorenz Wernisch; Thilo Winzer; Frank Dudbridge; Christopher D Buckley; Cordelia F Langford; Sarah Teichmann; Berthold Göttgens; Willem H Ouwehand
Journal:  Blood       Date:  2009-02-19       Impact factor: 22.113
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  11 in total

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Review 2.  Epidemiology of Glioblastoma Multiforme-Literature Review.

Authors:  Szymon Grochans; Anna Maria Cybulska; Donata Simińska; Jan Korbecki; Klaudyna Kojder; Dariusz Chlubek; Irena Baranowska-Bosiacka
Journal:  Cancers (Basel)       Date:  2022-05-13       Impact factor: 6.575

3.  Integrated analysis reveals lung fibrinogen gamma chain as a biomarker for chronic obstructive pulmonary disease.

Authors:  Hai Zhang; Chenfei Li; Xiaomin Song; Lei Cheng; Qi Liu; Na Zhang; Liangyu Wei; Kianfan Chung; Ian M Adcock; Chunhua Ling; Feng Li
Journal:  Ann Transl Med       Date:  2021-12

4.  Risk factors for immune checkpoint inhibitor-related pneumonitis in non-small cell lung cancer.

Authors:  Yencheng Chao; Jiebai Zhou; Shujung Hsu; Ning Ding; Jiamin Li; Yong Zhang; Xiaobo Xu; Xinjun Tang; Tianchang Wei; Zhengfei Zhu; Qian Chu; Joel W Neal; Julie Tsu-Yu Wu; Yuanlin Song; Jie Hu
Journal:  Transl Lung Cancer Res       Date:  2022-02

5.  ZNF143 Expression is Associated with COPD and Tumor Microenvironment in Non-Small Cell Lung Cancer.

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6.  Inflammation-Driven Regulation of PD-L1 and PD-L2, and Their Cross-Interactions with Protective Soluble TNFα Receptors in Human Triple-Negative Breast Cancer.

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Journal:  Cancers (Basel)       Date:  2022-07-19       Impact factor: 6.575

7.  NNK from tobacco smoking enhances pancreatic cancer cell stemness and chemoresistance by creating a β2AR-Akt feedback loop that activates autophagy.

Authors:  Xin Chen; Weifan Zhang; Rujuan Liu; Zeen Zhu; Mengyuan Gong; Qiqi Wang; Weikun Qian; Zheng Wu; Qingyong Ma; Zheng Wang
Journal:  Mol Oncol       Date:  2022-06-05       Impact factor: 7.449

Review 8.  Unifying Different Cancer Theories in a Unique Tumour Model: Chronic Inflammation and Deaminases as Meeting Points.

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Review 9.  Potential Reasons for Unresponsiveness to Anti-PD1 Immunotherapy in Young Patients with Advanced Melanoma.

Authors:  Devayani Machiraju; Sarah Schäfer; Jessica C Hassel
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10.  Nicotine promotes chronic obstructive pulmonary disease via inducing pyroptosis activation in bronchial epithelial cells.

Authors:  Rubing Mo; Jun Zhang; Yongxing Chen; Yipeng Ding
Journal:  Mol Med Rep       Date:  2022-01-21       Impact factor: 2.952
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