Protein Kinase C and Acute Respiratory Distress Syndrome

ABSTRACTThe acute respiratory distress syndrome (ARDS) is a major public health problem and a leading source of morbidity in intensive care units. Lung tissue in patients with ARDS is characterized by inflammation, with exuberant neutrophil infiltration, activation, and degranulation that is thought...

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Bibliographic Details
Published in:Shock (Augusta, Ga.) Ga.), 2013-06, Vol.39 (6), p.467-479
Main Authors: Mondrinos, Mark J, Kennedy, Paul A, Lyons, Melanie, Deutschman, Clifford S, Kilpatrick, Laurie E
Format: Article
Language:English
Subjects:
Acute Lung Injury - drug therapy
Animals
Disease Models, Animal
Humans
Inflammation Mediators - physiology
Neutrophil Infiltration - immunology
Protein Kinase C - antagonists & inhibitors
Protein Kinase C - physiology
Protein Kinase Inhibitors - therapeutic use
Respiratory Distress Syndrome, Adult - enzymology
Respiratory Distress Syndrome, Adult - etiology
Respiratory Distress Syndrome, Adult - therapy
Translational Medical Research - methods
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Summary:ABSTRACTThe acute respiratory distress syndrome (ARDS) is a major public health problem and a leading source of morbidity in intensive care units. Lung tissue in patients with ARDS is characterized by inflammation, with exuberant neutrophil infiltration, activation, and degranulation that is thought to initiate tissue injury through the release of proteases and oxygen radicals. Treatment of ARDS is supportive primarily because the underlying pathophysiology is poorly understood. This gap in knowledge must be addressed to identify urgently needed therapies. Recent research efforts in anti-inflammatory drug development have focused on identifying common control points in multiple signaling pathways. The protein kinase C (PKC) serine-threonine kinases are master regulators of proinflammatory signaling hubs, making them attractive therapeutic targets. Pharmacological inhibition of broad-spectrum PKC activity and, more importantly, of specific PKC isoforms (as well as deletion of PKCs in mice) exerts protective effects in various experimental models of lung injury. Furthermore, PKC isoforms have been implicated in inflammatory processes that may be involved in the pathophysiologic changes that result in ARDS, including activation of innate immune and endothelial cells, neutrophil trafficking to the lung, regulation of alveolar epithelial barrier functions, and control of neutrophil proinflammatory and prosurvival signaling. This review focuses on the mechanistic involvement of PKC isoforms in the pathogenesis of ARDS and highlights the potential of developing new therapeutic paradigms based on the selective inhibition (or activation) of specific PKC isoforms.
ISSN:1073-2322
1540-0514
DOI:10.1097/SHK.0b013e318294f85a