Endothelial ENaC-a Restrains Oxidative Stress in Lung Capillaries in Murine Pneumococcal Pneumonia–associated Acute Lung Injury

Maritza J. Romero; Qian Yue; Won Mo Ahn; Jurg Hamacher; Yusra Zaidi; Stephen Haigh; Supriya Sridhar; Joyce Gonzales; Martina Hudel; Yuqing Huo; Alexander D. Verin; Betty S. Pace; Brian K. Stansfield; Mazharul Maishan; Enid R. Neptune; Perenlei Enkhbaatar; Yunchao Su; Trinad Chakraborty; Graydon Gonsalvez; Edith Hummler; William B. Davis; Vladimir Y. Bogdanov; David J.R. Fulton; Gabor Csanyi; Michael A. Matthay; Douglas C. Eaton; Rudolf Lucas

doi:10.1165/rcmb.2023-0440OC

Endothelial ENaC-a Restrains Oxidative Stress in Lung Capillaries in Murine Pneumococcal Pneumonia–associated Acute Lung Injury

Maritza J. Romero, Qian Yue, Won Mo Ahn, Jurg Hamacher, Yusra Zaidi, Stephen Haigh, Supriya Sridhar, Joyce Gonzales, Martina Hudel, Yuqing Huo, Alexander D. Verin, Betty S. Pace, Brian K. Stansfield, Mazharul Maishan, Enid R. Neptune, Perenlei Enkhbaatar, Yunchao Su, Trinad Chakraborty, Graydon Gonsalvez, Edith HummlerWilliam B. Davis, Vladimir Y. Bogdanov, David J.R. Fulton, Gabor Csanyi, Michael A. Matthay, Douglas C. Eaton, Rudolf Lucas

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Infection of lung endothelial cells with pneumococci activates the superoxide-generating enzyme NOX2 (nicotinamide adenine dinucleotide phosphate hydrogen [NADPH] oxidase 2), involving the pneumococcal virulence factor PLY (pneumolysin). Excessive NOX2 activity disturbs capillary barriers, but its global inhibition can impair bactericidal phagocyte activity during pneumococcal pneumonia. Depletion of the a subunit of ENaC (epithelial sodium channel) in pulmonary endothelial cells increases expression and PMA-induced activity of NOX2. Direct ENaC activation by TIP peptide improves capillary barrier function—measured by electrical cell substrate impedance sensing in endothelial monolayers and by Evans blue dye incorporation in mouse lungs—after infection with pneumococci. PLY-induced hyperpermeability in human lung microvascular endothelial cell monolayers is abrogated by both NOX2 inhibitor gp91dstat and TIP peptide. Endothelial NOX2 expression is assessed by increased surface membrane presence of phosphorylated p47^phox subunit (Western blotting) in vitro and by colocalization of CD31 and gp91^phox in mouse lung slices using DuoLink, whereas NOX2-generated superoxide is measured by chemiluminescence. TIP peptide blunts PMA-induced NOX2 activity in cells expressing ENaC-a, but not in neutrophils, which lack ENaC. Conditional endothelial ENaC-a knockout (enENaC-a knockout) mice develop increased capillary leak upon intratracheal instillation with PLY or pneumococci, compared with wild-type animals. TIP peptide diminishes capillary leak in Streptococcus pneumoniae–infected wild-type mice, without significantly increasing lung bacterial load. Lung slices from S. pneumoniae–infected enENaC-a knockout mice have significantly increased endothelial NOX2 expression, compared with infected cyclization recombination mice. In conclusion, enENaC may represent a novel therapeutic target to reduce NOX2-mediated oxidative stress and capillary leak in acute respiratory distress syndrome, without impairing host defense.

Original language	English (US)
Pages (from-to)	429-440
Number of pages	12
Journal	American journal of respiratory cell and molecular biology
Volume	72
Issue number	4
DOIs	https://doi.org/10.1165/rcmb.2023-0440OC
State	Published - Apr 2025
Externally published	Yes

Keywords

acute respiratory distress syndrome
capillary leak
endothelial ENaC
NOX2
pneumococcal pneumonia

ASJC Scopus subject areas

Molecular Biology
Pulmonary and Respiratory Medicine
Clinical Biochemistry
Cell Biology

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10.1165/rcmb.2023-0440OC

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Romero, M. J., Yue, Q., Ahn, W. M., Hamacher, J., Zaidi, Y., Haigh, S., Sridhar, S., Gonzales, J., Hudel, M., Huo, Y., Verin, A. D., Pace, B. S., Stansfield, B. K., Maishan, M., Neptune, E. R., Enkhbaatar, P., Su, Y., Chakraborty, T., Gonsalvez, G., ... Lucas, R. (2025). Endothelial ENaC-a Restrains Oxidative Stress in Lung Capillaries in Murine Pneumococcal Pneumonia–associated Acute Lung Injury. American journal of respiratory cell and molecular biology, 72(4), 429-440. https://doi.org/10.1165/rcmb.2023-0440OC

Romero, MJ, Yue, Q, Ahn, WM, Hamacher, J, Zaidi, Y, Haigh, S, Sridhar, S, Gonzales, J, Hudel, M, Huo, Y, Verin, AD, Pace, BS, Stansfield, BK, Maishan, M, Neptune, ER, Enkhbaatar, P, Su, Y, Chakraborty, T, Gonsalvez, G, Hummler, E, Davis, WB, Bogdanov, VY, Fulton, DJR, Csanyi, G, Matthay, MA, Eaton, DC & Lucas, R 2025, 'Endothelial ENaC-a Restrains Oxidative Stress in Lung Capillaries in Murine Pneumococcal Pneumonia–associated Acute Lung Injury', American journal of respiratory cell and molecular biology, vol. 72, no. 4, pp. 429-440. https://doi.org/10.1165/rcmb.2023-0440OC

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title = "Endothelial ENaC-a Restrains Oxidative Stress in Lung Capillaries in Murine Pneumococcal Pneumonia–associated Acute Lung Injury",

abstract = "Infection of lung endothelial cells with pneumococci activates the superoxide-generating enzyme NOX2 (nicotinamide adenine dinucleotide phosphate hydrogen [NADPH] oxidase 2), involving the pneumococcal virulence factor PLY (pneumolysin). Excessive NOX2 activity disturbs capillary barriers, but its global inhibition can impair bactericidal phagocyte activity during pneumococcal pneumonia. Depletion of the a subunit of ENaC (epithelial sodium channel) in pulmonary endothelial cells increases expression and PMA-induced activity of NOX2. Direct ENaC activation by TIP peptide improves capillary barrier function—measured by electrical cell substrate impedance sensing in endothelial monolayers and by Evans blue dye incorporation in mouse lungs—after infection with pneumococci. PLY-induced hyperpermeability in human lung microvascular endothelial cell monolayers is abrogated by both NOX2 inhibitor gp91dstat and TIP peptide. Endothelial NOX2 expression is assessed by increased surface membrane presence of phosphorylated p47phox subunit (Western blotting) in vitro and by colocalization of CD31 and gp91phox in mouse lung slices using DuoLink, whereas NOX2-generated superoxide is measured by chemiluminescence. TIP peptide blunts PMA-induced NOX2 activity in cells expressing ENaC-a, but not in neutrophils, which lack ENaC. Conditional endothelial ENaC-a knockout (enENaC-a knockout) mice develop increased capillary leak upon intratracheal instillation with PLY or pneumococci, compared with wild-type animals. TIP peptide diminishes capillary leak in Streptococcus pneumoniae–infected wild-type mice, without significantly increasing lung bacterial load. Lung slices from S. pneumoniae–infected enENaC-a knockout mice have significantly increased endothelial NOX2 expression, compared with infected cyclization recombination mice. In conclusion, enENaC may represent a novel therapeutic target to reduce NOX2-mediated oxidative stress and capillary leak in acute respiratory distress syndrome, without impairing host defense.",

keywords = "acute respiratory distress syndrome, capillary leak, endothelial ENaC, NOX2, pneumococcal pneumonia",

author = "Romero, {Maritza J.} and Qian Yue and Ahn, {Won Mo} and Jurg Hamacher and Yusra Zaidi and Stephen Haigh and Supriya Sridhar and Joyce Gonzales and Martina Hudel and Yuqing Huo and Verin, {Alexander D.} and Pace, {Betty S.} and Stansfield, {Brian K.} and Mazharul Maishan and Neptune, {Enid R.} and Perenlei Enkhbaatar and Yunchao Su and Trinad Chakraborty and Graydon Gonsalvez and Edith Hummler and Davis, {William B.} and Bogdanov, {Vladimir Y.} and Fulton, {David J.R.} and Gabor Csanyi and Matthay, {Michael A.} and Eaton, {Douglas C.} and Rudolf Lucas",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 by the American Thoracic Society.",

year = "2025",

month = apr,

doi = "10.1165/rcmb.2023-0440OC",

language = "English (US)",

volume = "72",

pages = "429--440",

journal = "American journal of respiratory cell and molecular biology",

issn = "1044-1549",

publisher = "American Thoracic Society",

number = "4",

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TY - JOUR

T1 - Endothelial ENaC-a Restrains Oxidative Stress in Lung Capillaries in Murine Pneumococcal Pneumonia–associated Acute Lung Injury

AU - Romero, Maritza J.

AU - Yue, Qian

AU - Ahn, Won Mo

AU - Hamacher, Jurg

AU - Zaidi, Yusra

AU - Haigh, Stephen

AU - Sridhar, Supriya

AU - Gonzales, Joyce

AU - Hudel, Martina

AU - Huo, Yuqing

AU - Verin, Alexander D.

AU - Pace, Betty S.

AU - Stansfield, Brian K.

AU - Maishan, Mazharul

AU - Neptune, Enid R.

AU - Enkhbaatar, Perenlei

AU - Su, Yunchao

AU - Chakraborty, Trinad

AU - Gonsalvez, Graydon

AU - Hummler, Edith

AU - Davis, William B.

AU - Bogdanov, Vladimir Y.

AU - Fulton, David J.R.

AU - Csanyi, Gabor

AU - Matthay, Michael A.

AU - Eaton, Douglas C.

AU - Lucas, Rudolf

PY - 2025/4

Y1 - 2025/4

N2 - Infection of lung endothelial cells with pneumococci activates the superoxide-generating enzyme NOX2 (nicotinamide adenine dinucleotide phosphate hydrogen [NADPH] oxidase 2), involving the pneumococcal virulence factor PLY (pneumolysin). Excessive NOX2 activity disturbs capillary barriers, but its global inhibition can impair bactericidal phagocyte activity during pneumococcal pneumonia. Depletion of the a subunit of ENaC (epithelial sodium channel) in pulmonary endothelial cells increases expression and PMA-induced activity of NOX2. Direct ENaC activation by TIP peptide improves capillary barrier function—measured by electrical cell substrate impedance sensing in endothelial monolayers and by Evans blue dye incorporation in mouse lungs—after infection with pneumococci. PLY-induced hyperpermeability in human lung microvascular endothelial cell monolayers is abrogated by both NOX2 inhibitor gp91dstat and TIP peptide. Endothelial NOX2 expression is assessed by increased surface membrane presence of phosphorylated p47phox subunit (Western blotting) in vitro and by colocalization of CD31 and gp91phox in mouse lung slices using DuoLink, whereas NOX2-generated superoxide is measured by chemiluminescence. TIP peptide blunts PMA-induced NOX2 activity in cells expressing ENaC-a, but not in neutrophils, which lack ENaC. Conditional endothelial ENaC-a knockout (enENaC-a knockout) mice develop increased capillary leak upon intratracheal instillation with PLY or pneumococci, compared with wild-type animals. TIP peptide diminishes capillary leak in Streptococcus pneumoniae–infected wild-type mice, without significantly increasing lung bacterial load. Lung slices from S. pneumoniae–infected enENaC-a knockout mice have significantly increased endothelial NOX2 expression, compared with infected cyclization recombination mice. In conclusion, enENaC may represent a novel therapeutic target to reduce NOX2-mediated oxidative stress and capillary leak in acute respiratory distress syndrome, without impairing host defense.

AB - Infection of lung endothelial cells with pneumococci activates the superoxide-generating enzyme NOX2 (nicotinamide adenine dinucleotide phosphate hydrogen [NADPH] oxidase 2), involving the pneumococcal virulence factor PLY (pneumolysin). Excessive NOX2 activity disturbs capillary barriers, but its global inhibition can impair bactericidal phagocyte activity during pneumococcal pneumonia. Depletion of the a subunit of ENaC (epithelial sodium channel) in pulmonary endothelial cells increases expression and PMA-induced activity of NOX2. Direct ENaC activation by TIP peptide improves capillary barrier function—measured by electrical cell substrate impedance sensing in endothelial monolayers and by Evans blue dye incorporation in mouse lungs—after infection with pneumococci. PLY-induced hyperpermeability in human lung microvascular endothelial cell monolayers is abrogated by both NOX2 inhibitor gp91dstat and TIP peptide. Endothelial NOX2 expression is assessed by increased surface membrane presence of phosphorylated p47phox subunit (Western blotting) in vitro and by colocalization of CD31 and gp91phox in mouse lung slices using DuoLink, whereas NOX2-generated superoxide is measured by chemiluminescence. TIP peptide blunts PMA-induced NOX2 activity in cells expressing ENaC-a, but not in neutrophils, which lack ENaC. Conditional endothelial ENaC-a knockout (enENaC-a knockout) mice develop increased capillary leak upon intratracheal instillation with PLY or pneumococci, compared with wild-type animals. TIP peptide diminishes capillary leak in Streptococcus pneumoniae–infected wild-type mice, without significantly increasing lung bacterial load. Lung slices from S. pneumoniae–infected enENaC-a knockout mice have significantly increased endothelial NOX2 expression, compared with infected cyclization recombination mice. In conclusion, enENaC may represent a novel therapeutic target to reduce NOX2-mediated oxidative stress and capillary leak in acute respiratory distress syndrome, without impairing host defense.

KW - acute respiratory distress syndrome

KW - capillary leak

KW - endothelial ENaC

KW - NOX2

KW - pneumococcal pneumonia

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SN - 1044-1549

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EP - 440

JO - American journal of respiratory cell and molecular biology

JF - American journal of respiratory cell and molecular biology

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ER -

Endothelial ENaC-a Restrains Oxidative Stress in Lung Capillaries in Murine Pneumococcal Pneumonia–associated Acute Lung Injury

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