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Literature DB >> 27736644

Extracellular Matrix Proteolysis by MT1-MMP Contributes to Influenza-Related Tissue Damage and Mortality.

Dalit Talmi-Frank¹, Zeev Altboum², Inna Solomonov³, Yael Udi³, Diego Adhemar Jaitin², Mordehay Klepfish³, Eyal David², Alina Zhuravlev³, Hadas Keren-Shaul², Deborah R Winter², Irit Gat-Viks⁴, Michal Mandelboim⁵, Tamar Ziv⁶, Ido Amit⁷, Irit Sagi⁸.

Abstract

Mounting an effective immune response, while also protecting tissue integrity, is critical for host survival. We used a combined genomic and proteomic approach to investigate the role of extracellular matrix (ECM) proteolysis in achieving this balance in the lung during influenza virus infection. We identified the membrane-tethered matrix metalloprotease MT1-MMP as a prominent host-ECM-remodeling collagenase in influenza infection. Selective inhibition of MT1-MMP protected the tissue from infection-related structural and compositional tissue damage. MT1-MMP inhibition did not significantly alter the immune response or cytokine expression. The available flu therapeutic Oseltamivir did not prevent lung ECM damage and was less effective than anti-MT1-MMP in influenza virus Streptococcus pneumoniae coinfection paradigms. Combination therapy of Oseltamivir with anti-MT1-MMP showed a strong synergistic effect and resulted in complete recovery of infected mice. This study highlights the importance of tissue resilience in surviving infection and the potential of such host-pathogen therapy combinations for respiratory infections.

Entities: Chemical Disease Gene Species

Keywords: ECM remodeling; Influenza virus; MT1-MMP; host-pathogen gene regulation; immune genomics; matrix metalloproteinase inhibitors; viral-bacterial coinfection

Mesh：

Substances：

Year: 2016 PMID： 27736644 DOI： 10.1016/j.chom.2016.09.005

Source DB: PubMed Journal: Cell Host Microbe ISSN： 1931-3128 Impact factor: 21.023

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Cited

35 in total

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Extracellular Matrix Proteolysis by MT1-MMP Contributes to Influenza-Related Tissue Damage and Mortality.

1. Matrix metalloproteinase-9 deficiency protects mice from severe influenza A viral infection.

Review 2. Matrix metalloproteinase collagenolysis in health and disease.

Review 3. Towards integrating extracellular matrix and immunological pathways.

Review 4. Lung Fibrosis and Fibrosis in the Lungs: Is It All about Myofibroblasts?

5. Horsing around: Escherichia coli ST1250 of equine origin harbouring epidemic IncHI1/ST9 plasmid with bla _CTX-M-1 and an operon for short-chain fructooligosaccharides metabolism.

6. Characterization and regulation of MT1-MMP cell surface-associated activity.

7. Collagenase Nanoparticles Enhance the Penetration of Drugs into Pancreatic Tumors.

Review 8. Type I Interferon-Mediated Regulation of Antiviral Capabilities of Neutrophils.

Review 9. Monoclonal antibodies against metzincin targets.

Review 10. The Extracellular Matrix in Skin Inflammation and Infection.

Extracellular Matrix Proteolysis by MT1-MMP Contributes to Influenza-Related Tissue Damage and Mortality.

1. Matrix metalloproteinase-9 deficiency protects mice from severe influenza A viral infection.

Review 2. Matrix metalloproteinase collagenolysis in health and disease.

Review 3. Towards integrating extracellular matrix and immunological pathways.

Review 4. Lung Fibrosis and Fibrosis in the Lungs: Is It All about Myofibroblasts?

5. Horsing around: Escherichia coli ST1250 of equine origin harbouring epidemic IncHI1/ST9 plasmid with bla CTX-M-1 and an operon for short-chain fructooligosaccharides metabolism.

6. Characterization and regulation of MT1-MMP cell surface-associated activity.

7. Collagenase Nanoparticles Enhance the Penetration of Drugs into Pancreatic Tumors.

Review 8. Type I Interferon-Mediated Regulation of Antiviral Capabilities of Neutrophils.

Review 9. Monoclonal antibodies against metzincin targets.

Review 10. The Extracellular Matrix in Skin Inflammation and Infection.

5. Horsing around: Escherichia coli ST1250 of equine origin harbouring epidemic IncHI1/ST9 plasmid with bla _CTX-M-1 and an operon for short-chain fructooligosaccharides metabolism.