Protein kinase C-α and arginase I mediate pneumolysin-induced pulmonary endothelial hyperpermeability

Rudolf Lucas; Guang Yang; Boris A Gorshkov; Evgeny Alexandrovich Zemskov; Supriya Sridhar; Umapathy N Siddaramappa; Agnieszka Jezierska-Drutel; Irina B. Alieva; Martin Leustik; Hamid Hossain; Bernhard Fischer; John D. Catravas; Alexander Dmitriyevich Verin; Jean François Pittet; Ruth B Caldwell; Timothy J. Mitchell; Stephen D. Cederbaum; David J Fulton; Michael A. Matthay; Robert William Caldwell; Maritza Josefina Romero Lucas; Trinad Chakraborty

doi:10.1165/rcmb.2011-0332OC

Protein kinase C-α and arginase I mediate pneumolysin-induced pulmonary endothelial hyperpermeability

Rudolf Lucas, Guang Yang, Boris A Gorshkov, Evgeny Alexandrovich Zemskov, Supriya Sridhar, Umapathy N Siddaramappa, Agnieszka Jezierska-Drutel, Irina B. Alieva, Martin Leustik, Hamid Hossain, Bernhard Fischer, John D. Catravas, Alexander Dmitriyevich Verin, Jean François Pittet, Ruth B Caldwell, Timothy J. Mitchell, Stephen D. Cederbaum, David J Fulton, Michael A. Matthay, Robert William CaldwellMaritza Josefina Romero Lucas, Trinad Chakraborty

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49 Scopus citations

Abstract

Antibiotics-induced release of the pore-forming virulence factor pneumolysin (PLY) in patients with pneumococcal pneumonia results in its presence days after lungs are sterile and is a major factor responsible for the induction of permeability edema. Here we sought to identify major mechanisms mediating PLY-induced endothelial dysfunction. We evaluated PLY-induced endothelial hyperpermeability in human lung microvascular endothelial cells (HL-MVECs) and human lung pulmonary artery endothelial cells in vitro and in mice instilled intratracheally with PLY. PLY increases permeability in endothelial monolayers by reducing stable and dynamic microtubule content and modulating VE-cadherin expression. These events, dependent upon an increased calcium influx, are preceded by protein kinase C (PKC)-α activation, perturbation of the RhoA/Rac1 balance, and an increase in myosin light chain phosphorylation. At later time points, PLY treatment increases the expression and activity of arginase in HL-MVECs. Arginase inhibition abrogates and suppresses PLY-induced endothelial barrier dysfunction by restoring NO generation. Consequently, a specific PKC-α inhibitor and the TNF-derived tonoplast intrinsic protein peptide, which blunts PLY-induced PKC-α activation, are able to prevent activation of arginase in HL-MVECs and to reduce PLY-induced endothelial hyperpermeability in mice. Arginase I (AI) ^+/-/arginase II (AII)^-/- C57BL/6 mice, displaying a significantly reduced arginase I expression in the lungs, are significantly less sensitive to PLY-induced capillary leak than their wild-type or AI ^+/+/AII^-/- counterparts, indicating an important role for arginase I in PLY-induced endothelial hyperpermeability. These results identify PKC-α and arginase I as potential upstream and downstream therapeutic targets in PLY-induced pulmonary endothelial dysfunction.

Original language	English (US)
Pages (from-to)	445-453
Number of pages	9
Journal	American journal of respiratory cell and molecular biology
Volume	47
Issue number	4
DOIs	https://doi.org/10.1165/rcmb.2011-0332OC
State	Published - Oct 2012

Keywords

Arginase
PKC
Pneumococcus
Pneumolysin
TNF

ASJC Scopus subject areas

Molecular Biology
Pulmonary and Respiratory Medicine
Clinical Biochemistry
Cell Biology

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10.1165/rcmb.2011-0332OC

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Lucas, R., Yang, G., Gorshkov, B. A., Zemskov, E. A., Sridhar, S., Siddaramappa, U. N., Jezierska-Drutel, A., Alieva, I. B., Leustik, M., Hossain, H., Fischer, B., Catravas, J. D., Verin, A. D., Pittet, J. F., Caldwell, R. B., Mitchell, T. J., Cederbaum, S. D., Fulton, D. J., Matthay, M. A., ... Chakraborty, T. (2012). Protein kinase C-α and arginase I mediate pneumolysin-induced pulmonary endothelial hyperpermeability. American journal of respiratory cell and molecular biology, 47(4), 445-453. https://doi.org/10.1165/rcmb.2011-0332OC

Lucas, R, Yang, G, Gorshkov, BA, Zemskov, EA, Sridhar, S, Siddaramappa, UN, Jezierska-Drutel, A, Alieva, IB, Leustik, M, Hossain, H, Fischer, B, Catravas, JD, Verin, AD, Pittet, JF, Caldwell, RB, Mitchell, TJ, Cederbaum, SD, Fulton, DJ, Matthay, MA, Caldwell, RW , Romero Lucas, MJ & Chakraborty, T 2012, 'Protein kinase C-α and arginase I mediate pneumolysin-induced pulmonary endothelial hyperpermeability', American journal of respiratory cell and molecular biology, vol. 47, no. 4, pp. 445-453. https://doi.org/10.1165/rcmb.2011-0332OC

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title = "Protein kinase C-α and arginase I mediate pneumolysin-induced pulmonary endothelial hyperpermeability",

abstract = "Antibiotics-induced release of the pore-forming virulence factor pneumolysin (PLY) in patients with pneumococcal pneumonia results in its presence days after lungs are sterile and is a major factor responsible for the induction of permeability edema. Here we sought to identify major mechanisms mediating PLY-induced endothelial dysfunction. We evaluated PLY-induced endothelial hyperpermeability in human lung microvascular endothelial cells (HL-MVECs) and human lung pulmonary artery endothelial cells in vitro and in mice instilled intratracheally with PLY. PLY increases permeability in endothelial monolayers by reducing stable and dynamic microtubule content and modulating VE-cadherin expression. These events, dependent upon an increased calcium influx, are preceded by protein kinase C (PKC)-α activation, perturbation of the RhoA/Rac1 balance, and an increase in myosin light chain phosphorylation. At later time points, PLY treatment increases the expression and activity of arginase in HL-MVECs. Arginase inhibition abrogates and suppresses PLY-induced endothelial barrier dysfunction by restoring NO generation. Consequently, a specific PKC-α inhibitor and the TNF-derived tonoplast intrinsic protein peptide, which blunts PLY-induced PKC-α activation, are able to prevent activation of arginase in HL-MVECs and to reduce PLY-induced endothelial hyperpermeability in mice. Arginase I (AI) +/-/arginase II (AII)-/- C57BL/6 mice, displaying a significantly reduced arginase I expression in the lungs, are significantly less sensitive to PLY-induced capillary leak than their wild-type or AI +/+/AII-/- counterparts, indicating an important role for arginase I in PLY-induced endothelial hyperpermeability. These results identify PKC-α and arginase I as potential upstream and downstream therapeutic targets in PLY-induced pulmonary endothelial dysfunction.",

keywords = "Arginase, PKC, Pneumococcus, Pneumolysin, TNF",

author = "Rudolf Lucas and Guang Yang and Gorshkov, {Boris A} and Zemskov, {Evgeny Alexandrovich} and Supriya Sridhar and Siddaramappa, {Umapathy N} and Agnieszka Jezierska-Drutel and Alieva, {Irina B.} and Martin Leustik and Hamid Hossain and Bernhard Fischer and Catravas, {John D.} and Verin, {Alexander Dmitriyevich} and Pittet, {Jean Fran{\c c}ois} and Caldwell, {Ruth B} and Mitchell, {Timothy J.} and Cederbaum, {Stephen D.} and Fulton, {David J} and Matthay, {Michael A.} and Caldwell, {Robert William} and {Romero Lucas}, {Maritza Josefina} and Trinad Chakraborty",

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AU - Gorshkov, Boris A

AU - Zemskov, Evgeny Alexandrovich

AU - Sridhar, Supriya

AU - Siddaramappa, Umapathy N

AU - Jezierska-Drutel, Agnieszka

AU - Alieva, Irina B.

AU - Leustik, Martin

AU - Hossain, Hamid

AU - Fischer, Bernhard

AU - Catravas, John D.

AU - Verin, Alexander Dmitriyevich

AU - Pittet, Jean François

AU - Caldwell, Ruth B

AU - Mitchell, Timothy J.

AU - Cederbaum, Stephen D.

AU - Fulton, David J

AU - Matthay, Michael A.

AU - Caldwell, Robert William

AU - Romero Lucas, Maritza Josefina

AU - Chakraborty, Trinad

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N2 - Antibiotics-induced release of the pore-forming virulence factor pneumolysin (PLY) in patients with pneumococcal pneumonia results in its presence days after lungs are sterile and is a major factor responsible for the induction of permeability edema. Here we sought to identify major mechanisms mediating PLY-induced endothelial dysfunction. We evaluated PLY-induced endothelial hyperpermeability in human lung microvascular endothelial cells (HL-MVECs) and human lung pulmonary artery endothelial cells in vitro and in mice instilled intratracheally with PLY. PLY increases permeability in endothelial monolayers by reducing stable and dynamic microtubule content and modulating VE-cadherin expression. These events, dependent upon an increased calcium influx, are preceded by protein kinase C (PKC)-α activation, perturbation of the RhoA/Rac1 balance, and an increase in myosin light chain phosphorylation. At later time points, PLY treatment increases the expression and activity of arginase in HL-MVECs. Arginase inhibition abrogates and suppresses PLY-induced endothelial barrier dysfunction by restoring NO generation. Consequently, a specific PKC-α inhibitor and the TNF-derived tonoplast intrinsic protein peptide, which blunts PLY-induced PKC-α activation, are able to prevent activation of arginase in HL-MVECs and to reduce PLY-induced endothelial hyperpermeability in mice. Arginase I (AI) +/-/arginase II (AII)-/- C57BL/6 mice, displaying a significantly reduced arginase I expression in the lungs, are significantly less sensitive to PLY-induced capillary leak than their wild-type or AI +/+/AII-/- counterparts, indicating an important role for arginase I in PLY-induced endothelial hyperpermeability. These results identify PKC-α and arginase I as potential upstream and downstream therapeutic targets in PLY-induced pulmonary endothelial dysfunction.

AB - Antibiotics-induced release of the pore-forming virulence factor pneumolysin (PLY) in patients with pneumococcal pneumonia results in its presence days after lungs are sterile and is a major factor responsible for the induction of permeability edema. Here we sought to identify major mechanisms mediating PLY-induced endothelial dysfunction. We evaluated PLY-induced endothelial hyperpermeability in human lung microvascular endothelial cells (HL-MVECs) and human lung pulmonary artery endothelial cells in vitro and in mice instilled intratracheally with PLY. PLY increases permeability in endothelial monolayers by reducing stable and dynamic microtubule content and modulating VE-cadherin expression. These events, dependent upon an increased calcium influx, are preceded by protein kinase C (PKC)-α activation, perturbation of the RhoA/Rac1 balance, and an increase in myosin light chain phosphorylation. At later time points, PLY treatment increases the expression and activity of arginase in HL-MVECs. Arginase inhibition abrogates and suppresses PLY-induced endothelial barrier dysfunction by restoring NO generation. Consequently, a specific PKC-α inhibitor and the TNF-derived tonoplast intrinsic protein peptide, which blunts PLY-induced PKC-α activation, are able to prevent activation of arginase in HL-MVECs and to reduce PLY-induced endothelial hyperpermeability in mice. Arginase I (AI) +/-/arginase II (AII)-/- C57BL/6 mice, displaying a significantly reduced arginase I expression in the lungs, are significantly less sensitive to PLY-induced capillary leak than their wild-type or AI +/+/AII-/- counterparts, indicating an important role for arginase I in PLY-induced endothelial hyperpermeability. These results identify PKC-α and arginase I as potential upstream and downstream therapeutic targets in PLY-induced pulmonary endothelial dysfunction.

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KW - PKC

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Protein kinase C-α and arginase I mediate pneumolysin-induced pulmonary endothelial hyperpermeability

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Keywords

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