Literature DB >> 33020659

TREML4 receptor regulates inflammation and innate immune cell death during polymicrobial sepsis.

Christina Nedeva1, Joseph Menassa1, Mubing Duan1, Chuanxin Liu1, Marcel Doerflinger2,3, Andrew J Kueh3,4, Marco J Herold3,4, Pamali Fonseka1, Thanh Kha Phan1, Pierre Faou1, Harinda Rajapaksha1, Weisan Chen1, Mark D Hulett1, Hamsa Puthalakath5.   

Abstract

Sepsis is a biphasic disease characterized by an acute inflammatory response, followed by a prolonged immunosuppressive phase. Therapies aimed at controlling inflammation help to reduce the time patients with sepsis spend in intensive care units, but they do not lead to a reduction in overall mortality. Recently, the focus has been on addressing the immunosuppressive phase, often caused by apoptosis of immune cells. However, molecular triggers of these events are not yet known. Using whole-genome CRISPR screening in mice, we identified a triggering receptor expressed on myeloid cells (TREM) family receptor, TREML4, as a key regulator of inflammation and immune cell death in sepsis. Genetic ablation of Treml4 in mice demonstrated that TREML4 regulates calcium homeostasis, the inflammatory cytokine response, myeloperoxidase activation, the endoplasmic reticulum stress response and apoptotic cell death in innate immune cells, leading to an overall increase in survival rate, both during the acute and chronic phases of polymicrobial sepsis.

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Year:  2020        PMID: 33020659     DOI: 10.1038/s41590-020-0789-z

Source DB:  PubMed          Journal:  Nat Immunol        ISSN: 1529-2908            Impact factor:   25.606


  57 in total

Review 1.  Immune therapy in sepsis: Are we ready to try again?

Authors:  Roger Davies; Kieran O'Dea; Anthony Gordon
Journal:  J Intensive Care Soc       Date:  2018-04-04

2.  Reducing the global burden of sepsis.

Authors:  Sagar Dugani; Jeremy Veillard; Niranjan Kissoon
Journal:  CMAJ       Date:  2017-01-09       Impact factor: 8.262

Review 3.  Sepsis-induced immune dysfunction: can immune therapies reduce mortality?

Authors:  Matthew J Delano; Peter A Ward
Journal:  J Clin Invest       Date:  2016-01-04       Impact factor: 14.808

4.  Immune Response Resetting in Ongoing Sepsis.

Authors:  Alexandre E Nowill; Márcia C Fornazin; Maria C Spago; Vicente Dorgan Neto; Vitória R P Pinheiro; Simônia S S Alexandre; Edgar O Moraes; Gustavo H M F Souza; Marcos N Eberlin; Lygia A Marques; Eduardo C Meurer; Gilberto C Franchi; Pedro O de Campos-Lima
Journal:  J Immunol       Date:  2019-07-29       Impact factor: 5.422

Review 5.  Sepsis-induced immunosuppression: from cellular dysfunctions to immunotherapy.

Authors:  Richard S Hotchkiss; Guillaume Monneret; Didier Payen
Journal:  Nat Rev Immunol       Date:  2013-11-15       Impact factor: 53.106

6.  A CRISPR Dropout Screen Identifies Genetic Vulnerabilities and Therapeutic Targets in Acute Myeloid Leukemia.

Authors:  Konstantinos Tzelepis; Hiroko Koike-Yusa; Etienne De Braekeleer; Yilong Li; Emmanouil Metzakopian; Oliver M Dovey; Annalisa Mupo; Vera Grinkevich; Meng Li; Milena Mazan; Malgorzata Gozdecka; Shuhei Ohnishi; Jonathan Cooper; Miten Patel; Thomas McKerrell; Bin Chen; Ana Filipa Domingues; Paolo Gallipoli; Sarah Teichmann; Hannes Ponstingl; Ultan McDermott; Julio Saez-Rodriguez; Brian J P Huntly; Francesco Iorio; Cristina Pina; George S Vassiliou; Kosuke Yusa
Journal:  Cell Rep       Date:  2016-10-18       Impact factor: 9.423

Review 7.  Mechanisms of sepsis-induced immunosuppression and immunological modification therapies for sepsis.

Authors:  Satoshi Ono; Hironori Tsujimoto; Shuichi Hiraki; Suefumi Aosasa
Journal:  Ann Gastroenterol Surg       Date:  2018-07-24

Review 8.  Sepsis: Inflammation Is a Necessary Evil.

Authors:  Christina Nedeva; Joseph Menassa; Hamsa Puthalakath
Journal:  Front Cell Dev Biol       Date:  2019-06-20

Review 9.  The changing immune system in sepsis: is individualized immuno-modulatory therapy the answer?

Authors:  Jonathan S Boomer; Jonathan M Green; Richard S Hotchkiss
Journal:  Virulence       Date:  2013-09-25       Impact factor: 5.882

10.  Sepsis Induces Hematopoietic Stem Cell Exhaustion and Myelosuppression through Distinct Contributions of TRIF and MYD88.

Authors:  Huajia Zhang; Sonia Rodriguez; Lin Wang; Soujuan Wang; Henrique Serezani; Reuben Kapur; Angelo A Cardoso; Nadia Carlesso
Journal:  Stem Cell Reports       Date:  2016-06-02       Impact factor: 7.765
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  9 in total

Review 1.  Tumor immunology CRISPR screening: present, past, and future.

Authors:  Matthew B Dong; Kaiyuan Tang; Xiaoyu Zhou; Jingjia J Zhou; Sidi Chen
Journal:  Trends Cancer       Date:  2021-12-15

2.  Severity of Sepsis Determines the Degree of Impairment Observed in Circulatory and Tissue-Resident Memory CD8 T Cell Populations.

Authors:  Steven J Moioffer; Derek B Danahy; Stephanie van de Wall; Isaac J Jensen; Frances V Sjaastad; Scott M Anthony; John T Harty; Thomas S Griffith; Vladimir P Badovinac
Journal:  J Immunol       Date:  2021-09-03       Impact factor: 5.426

3.  m6A demethylase ALKBH5 is required for antibacterial innate defense by intrinsic motivation of neutrophil migration.

Authors:  Yang Liu; Renjie Song; Lu Zhao; Zhike Lu; Yini Li; Xinyi Zhan; Fengjiao Lu; Jiang Yang; Yamei Niu; Xuetao Cao
Journal:  Signal Transduct Target Ther       Date:  2022-06-29

4.  A novel monocyte differentiation pattern in pristane-induced lupus with diffuse alveolar hemorrhage.

Authors:  Shuhong Han; Haoyang Zhuang; Rawad Daniel Arja; Westley H Reeves
Journal:  Elife       Date:  2022-10-20       Impact factor: 8.713

5.  Microbe capture by splenic macrophages triggers sepsis via T cell-death-dependent neutrophil lifespan shortening.

Authors:  Marianna Ioannou; Dennis Hoving; Iker Valle Aramburu; Mia I Temkin; Nathalia M De Vasconcelos; Theodora-Dorita Tsourouktsoglou; Qian Wang; Stefan Boeing; Robert Goldstone; Spyros Vernardis; Vadim Demichev; Markus Ralser; Sascha David; Klaus Stahl; Christian Bode; Venizelos Papayannopoulos
Journal:  Nat Commun       Date:  2022-08-09       Impact factor: 17.694

6.  Clinical characteristics and risk factors associated with ICU-acquired infections in sepsis: A retrospective cohort study.

Authors:  Yajun He; Jiqian Xu; Xiaopu Shang; Xiangzhi Fang; Chenggang Gao; Deyi Sun; Lu Yao; Ting Zhou; Shangwen Pan; Xiaojing Zou; Huaqing Shu; Xiaobo Yang; You Shang
Journal:  Front Cell Infect Microbiol       Date:  2022-07-28       Impact factor: 6.073

Review 7.  Sepsis-induced immunosuppression: mechanisms, diagnosis and current treatment options.

Authors:  Di Liu; Si-Yuan Huang; Jian-Hui Sun; Hua-Cai Zhang; Qing-Li Cai; Chu Gao; Li Li; Ju Cao; Fang Xu; Yong Zhou; Cha-Xiang Guan; Sheng-Wei Jin; Jin Deng; Xiang-Ming Fang; Jian-Xin Jiang; Ling Zeng
Journal:  Mil Med Res       Date:  2022-10-09

8.  Long-term survivors of murine sepsis are predisposed to enhanced LPS-induced lung injury and proinflammatory immune reprogramming.

Authors:  Scott J Denstaedt; Angela C Bustamante; Michael W Newstead; Bethany B Moore; Theodore J Standiford; Rachel L Zemans; Benjamin H Singer
Journal:  Am J Physiol Lung Cell Mol Physiol       Date:  2021-06-23       Impact factor: 6.011

9.  IL-6/STAT3 Signaling Promotes Cardiac Dysfunction by Upregulating FUNDC1-Dependent Mitochondria-Associated Endoplasmic Reticulum Membranes Formation in Sepsis Mice.

Authors:  Tao Jiang; Dewei Peng; Wei Shi; Junyi Guo; Shengqi Huo; Lintong Men; Cuntai Zhang; Sheng Li; Jiagao Lv; Li Lin
Journal:  Front Cardiovasc Med       Date:  2022-01-18
  9 in total

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