Literature DB >> 31882535

Pulmonary surfactant lipids inhibit infections with the pandemic H1N1 influenza virus in several animal models.

Mari Numata1, James R Mitchell1, Jennifer L Tipper2, Jeffrey D Brand2, John E Trombley2, Yoji Nagashima3, Pitchaimani Kandasamy1, Hong Wei Chu1, Kevin S Harrod2, Dennis R Voelker4.   

Abstract

The influenza A (H1N1)pdm09 outbreak in 2009 exemplified the problems accompanying the emergence of novel influenza A virus (IAV) strains and their unanticipated virulence in populations with no pre-existing immunity. Neuraminidase inhibitors (NAIs) are currently the drugs of choice for intervention against IAV outbreaks, but there are concerns that NAI-resistant viruses can transmit to high-risk populations. These issues highlight the need for new approaches that address the annual influenza burden. In this study, we examined whether palmitoyl-oleoyl-phosphatidylglycerol (POPG) and phosphatidylinositol (PI) effectively antagonize (H1N1)pdm09 infection. POPG and PI markedly suppressed cytopathic effects and attenuated viral gene expression in (H1N1)pdm09-infected Madin-Darby canine kidney cells. POPG and PI bound to (H1N1)pdm09 with high affinity and disrupted viral spread from infected to noninfected cells in tissue culture and also reduced (H1N1)pdm09 propagation by a factor of 102 after viral infection was established in vitro In a mouse infection model of (H1N1)pdm09, POPG and PI significantly reduced lung inflammation and viral burden. Of note, when mice were challenged with a typically lethal dose of 1000 plaque-forming units of (H1N1)pdm09, survival after 10 days was 100% (14 of 14 mice) with the POPG treatment compared with 0% (0 of 14 mice) without this treatment. POPG also significantly reduced inflammatory infiltrates and the viral burden induced by (H1N1)pdm09 infection in a ferret model. These findings indicate that anionic phospholipids potently and efficiently disrupt influenza infections in animal models.
© 2020 Numata et al.

Entities:  

Keywords:  antiviral agent; host defense; inflammation; influenza; innate immunity; phosphatidylglycerol; phosphatidylinositol; phospholipids; pulmonary surfactant; treatments; virology

Mesh:

Substances:

Year:  2019        PMID: 31882535      PMCID: PMC7008372          DOI: 10.1074/jbc.RA119.012053

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  35 in total

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Journal:  Science       Date:  2012-06-22       Impact factor: 47.728

Review 2.  Immunoregulatory functions of surfactant proteins.

Authors:  Jo Rae Wright
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Authors:  Young-A Heo
Journal:  Drugs       Date:  2018-04       Impact factor: 9.546

5.  Pulmonary surfactant phosphatidylglycerol inhibits Mycoplasma pneumoniae-stimulated eicosanoid production from human and mouse macrophages.

Authors:  Pitchaimani Kandasamy; Simona Zarini; Edward D Chan; Christina C Leslie; Robert C Murphy; Dennis R Voelker
Journal:  J Biol Chem       Date:  2011-01-04       Impact factor: 5.157

6.  In Vitro and In Vivo Characterization of Novel Neuraminidase Substitutions in Influenza A(H1N1)pdm09 Virus Identified Using Laninamivir-Mediated In Vitro Selection.

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7.  Structural analogs of pulmonary surfactant phosphatidylglycerol inhibit toll-like receptor 2 and 4 signaling.

Authors:  Pitchaimani Kandasamy; Mari Numata; Karin Zemski Berry; Rachel Fickes; Christina C Leslie; Robert C Murphy; Dennis R Voelker
Journal:  J Lipid Res       Date:  2016-04-19       Impact factor: 5.922

8.  Triple-reassortant swine influenza A (H1) in humans in the United States, 2005-2009.

Authors:  Vivek Shinde; Carolyn B Bridges; Timothy M Uyeki; Bo Shu; Amanda Balish; Xiyan Xu; Stephen Lindstrom; Larisa V Gubareva; Varough Deyde; Rebecca J Garten; Meghan Harris; Susan Gerber; Susan Vagasky; Forrest Smith; Neal Pascoe; Karen Martin; Deborah Dufficy; Kathy Ritger; Craig Conover; Patricia Quinlisk; Alexander Klimov; Joseph S Bresee; Lyn Finelli
Journal:  N Engl J Med       Date:  2009-05-07       Impact factor: 91.245

9.  Antigenic and genetic characteristics of swine-origin 2009 A(H1N1) influenza viruses circulating in humans.

Authors:  Rebecca J Garten; C Todd Davis; Colin A Russell; Bo Shu; Stephen Lindstrom; Amanda Balish; Wendy M Sessions; Xiyan Xu; Eugene Skepner; Varough Deyde; Margaret Okomo-Adhiambo; Larisa Gubareva; John Barnes; Catherine B Smith; Shannon L Emery; Michael J Hillman; Pierre Rivailler; James Smagala; Miranda de Graaf; David F Burke; Ron A M Fouchier; Claudia Pappas; Celia M Alpuche-Aranda; Hugo López-Gatell; Hiram Olivera; Irma López; Christopher A Myers; Dennis Faix; Patrick J Blair; Cindy Yu; Kimberly M Keene; P David Dotson; David Boxrud; Anthony R Sambol; Syed H Abid; Kirsten St George; Tammy Bannerman; Amanda L Moore; David J Stringer; Patricia Blevins; Gail J Demmler-Harrison; Michele Ginsberg; Paula Kriner; Steve Waterman; Sandra Smole; Hugo F Guevara; Edward A Belongia; Patricia A Clark; Sara T Beatrice; Ruben Donis; Jacqueline Katz; Lyn Finelli; Carolyn B Bridges; Michael Shaw; Daniel B Jernigan; Timothy M Uyeki; Derek J Smith; Alexander I Klimov; Nancy J Cox
Journal:  Science       Date:  2009-05-22       Impact factor: 47.728

10.  Exhaled aerosol transmission of pandemic and seasonal H1N1 influenza viruses in the ferret.

Authors:  Frederick Koster; Kristine Gouveia; Yue Zhou; Kristin Lowery; Robert Russell; Heather MacInnes; Zemmie Pollock; R Colby Layton; Jennifer Cromwell; Denise Toleno; John Pyle; Michael Zubelewicz; Kevin Harrod; Rangarajan Sampath; Steven Hofstadler; Peng Gao; Yushi Liu; Yung-Sung Cheng
Journal:  PLoS One       Date:  2012-04-03       Impact factor: 3.240
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  16 in total

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Review 2.  Mechanistic Understanding of Lung Inflammation: Recent Advances and Emerging Techniques.

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6.  Influenza Causes MLKL-Driven Cardiac Proteome Remodeling During Convalescence.

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Review 7.  Anti-inflammatory and anti-viral actions of anionic pulmonary surfactant phospholipids.

Authors:  Mari Numata; Dennis R Voelker
Journal:  Biochim Biophys Acta Mol Cell Biol Lipids       Date:  2022-02-28       Impact factor: 5.228

Review 8.  Lipid-Protein and Protein-Protein Interactions in the Pulmonary Surfactant System and Their Role in Lung Homeostasis.

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9.  Phosphatidylglycerol and surfactant: A potential treatment for COVID-19?

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10.  Surfactant-based prophylaxis and therapy against COVID-19: A possibility.

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