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1. HMGB1 Accelerates Alveolar Epithelial Repair via an IL-1β- and αvβ6 Integrin-dependent Activation of TGF-β1

Author

Matthay, Michael, Pittet, JF, Koh, H, Fang, X, Iles, K, Christiaans, S, Anjun, N, Wagener, BM, Park, DW, Zmijewski, JW, and Matthay, MA

Abstract

High mobility group box 1 (HMGB1) protein is a danger-signaling molecule, known to activate an inflammatory response via TLR4 and RAGE. HMGB1 can be either actively secreted or passively released from damaged alveolar epithelial cells. Previous studies hav

Published
2013

2. Association of cystathionine beta synthase polymorphisms and functional outcome following aneurysmal subarachnoid hemorrhage

Author

Hendrix, P, Foreman, PM, Harrigan, MR, Pittet, JF, Mathru, M, and Griessenauer, CJ

Subjects
inorganic chemicals, congenital, hereditary, and neonatal diseases and abnormalities, ddc: 610, organic chemicals, nutritional and metabolic diseases, 610 Medical sciences, Medicine, equipment and supplies
Abstract

Objective: Cystathionine β-synthase (CBS) is an enzyme of the transsulfuration pathway and is involved in homocysteine metabolism and hydrogen sulfide (H2S) formation. Polymorphism of CBS may alter CBS activity and subsequently homocysteine and H2S levels. CBS genostatus with decreased CBS activity[for full text, please go to the a.m. URL], 68. Jahrestagung der Deutschen Gesellschaft für Neurochirurgie (DGNC), 7. Joint Meeting mit der Society of British Neurological Surgeons (SBNS)

Published
2017
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13. Sevoflurane but not propofol increases interstitial glycolysis metabolites availability during tourniquet-induced ischaemia-reperfusion.

Author

Carles M, Dellamonica J, Roux J, Lena D, Levraut J, Pittet JF, Boileau P, Raucoules-Aime M, Carles, M, Dellamonica, J, Roux, J, Lena, D, Levraut, J, Pittet, J F, Boileau, P, and Raucoules-Aime, M

Abstract

Background: Ischaemia/reperfusion (I/R) is one of the main pathophysiological phenomena involved in the anaesthetic practice. The authors hypothesized that anaesthetic regimens can influence skeletal muscle tolerance to tourniquet-induced I/R that should be reflected by the interstitial metabolite levels of anaerobic glycolysis.Methods: Microdialysis probes were implanted in three groups of 10 patients each receiving either sevoflurane (SEVO), propofol (PRO), or spinal (SA) anaesthesia (for induction and maintenance). SA group was considered as a control group. Interstitial fluid was obtained during tourniquet-induced I/R and was analysed for interstitial glucose, lactate, pyruvate, and glycerol.Results: The microdialysis flow rate was 0.5 microl min(-1). Compared with the control group, the SEVO group had a higher level of both lactate and pyruvate and an increase in glucose during ischaemia. In contrast, the PRO group had a lower level of pyruvate, resulting in a significant higher increase (eight times from baseline) of the lactate pyruvate ratio. Glucose level remained low in this group. During reperfusion, lactate, pyruvate, and glucose remained at a significantly higher level in the SEVO group. In the PRO group, there was no difference in lactate, pyruvate, and glucose levels compared with the control group. The interstitial level of glycerol exhibits only few and comparable changes during I/R between the groups.Conclusions: Our results indicate that there is a better availability of interstitial glycolysis metabolites (glucose, lactate, and pyruvate) in the skeletal muscle during ischaemia and reperfusion after sevoflurane exposure than after propofol, suggesting a potential preconditioning effect of sevoflurane on tourniquet-induced skeletal muscle I/R. [ABSTRACT FROM AUTHOR]

Published
2008
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14. METABOLIC AND BIOENERGETIC ALTERATIONS ARE ASSOCIATED WITH INFECTION SUSCEPTIBILITY IN SURVIVORS OF SEVERE TRAUMA: AN EXPLORATORY STUDY.

Author

Smith SR, Becker EJ Jr, Bone NB, Kerby JD, Nowak JI, Tadié JM, Darley-Usmar VM, Pittet JF, and Zmijewski JW

Subjects
Humans, Male, Female, Adult, Middle Aged, Monocytes metabolism, Survivors, Aged, Disease Susceptibility, Wounds and Injuries blood, Wounds and Injuries metabolism, Wounds and Injuries complications, Energy Metabolism
Abstract

Abstract: Background : Trauma and blood loss are frequently associated with organ failure, immune dysfunction, and a high risk of secondary bacterial lung infections. We aim to test if plasma metabolomic flux and monocyte bioenergetics are altered in association with trauma and related secondary infections. Methods : Plasma samples were collected from trauma patients at three time points: days 0, 3, and 7 postadmission. Metabolites (140) were measured in plasma from trauma survivors ( n = 24) and healthy control individuals (HC, n = 10). Further analysis within the trauma cohort included subsets of trauma/infection-negative (TIneg, n = 12) and trauma/infection-positive patients (TIpos, n = 12). The bioenergetic profile in monocytes was determined using mitochondrial and glycolytic stress tests. Results : In the trauma cohort, significant alterations were observed in 29 metabolites directly affecting 11 major metabolic pathways, while 34 metabolite alterations affected 8 pathways in 9, versus TIneg patients. The most altered metabolic pathways included protein synthesis, the urea cycle/arginine metabolism, phenylalanine, tyrosine, tryptophan biosynthesis, and carnitine compound family. In monocytes from trauma patients, reduced mitochondrial indices and loss of glycolytic plasticity were consistent with an altered profile of plasma metabolites in the tricarboxylic acid cycle and glycolysis. Conclusions : Our study highlights that the metabolic profile is significantly and persistently affected by trauma and related infections. Among trauma survivors, metabolic alterations in plasma were associated with reduced monocyte bioenergetics. These exploratory findings establish a groundwork for future clinical studies aimed at enhancing our understanding of the interplay between metabolic/bioenergetic alterations associated with trauma and secondary bacterial infections., Competing Interests: The authors report no conflicts of interest., (Copyright © 2024 by the Shock Society.)

Published
2024
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16. Incidence of Concurrent Cerebral Desaturation and Electroencephalographic Burst Suppression in Cardiac Surgery Patients.

Author

Ramachandran RV, Behera A, Hussain Z, Peck J, Ananthakrishanan A, Mathur P, Banner-Goodspeed V, Muehlschlegel JD, Pittet JF, Bardia A, Schonberger R, Marcantonio ER, Kveraga K, and Subramaniam B

Abstract

Background: Increased intraoperative electroencephalographic (EEG) burst suppression is associated with postoperative delirium. Cerebral desaturation is considered as one of the factors associated with burst suppression. Our study investigates the association between cerebral desaturation and burst suppression by analyzing their concurrence. Additionally, we aim to examine their association with cardiac surgical phases to identify potential for targeted interventions., Methods: We retrospectively analyzed intraoperative 1-minute interval observations in 51 patients undergoing cardiac surgery. Processed EEG and cerebral oximetry were collected, with the anesthesiologists blinded to the information. The associations between cerebral desaturation (defined as a 10% decrease from baseline) and burst suppression, as well as with phase of cardiac surgery, were analyzed using the Generalized Logistic Mixed Effect Model. The results were presented as odds ratio and 95% confidence intervals (CIs). A value of P < .05 was considered statistically significant., Results: The odds of burst suppression increased 1.5 times with cerebral desaturation (odds ratio [OR], 1.52, 95% CI, 1.11-2.07; P = .009). Compared to precardiopulmonary bypass (pre-CPB), the odds of cerebral desaturation were notably higher during CPB (OR, 22.1, 95% CI, 12.4-39.2; P < .001) and post-CPB (OR, 18.2, 95% CI, 12.2-27.3; P < .001). However, the odds of burst suppression were lower during post-CPB (OR, 0.69, 95% CI, 0.59-0.81; P < .001) compared to pre-CPB. Compared to pre-CPB, the odds of concurrent cerebral desaturation and burst suppression were notably higher during CPB (OR, 52.3, 95% CI, 19.5-140; P < .001) and post-CPB (OR, 12.7, 95% CI, 6.39-25.2; P < .001). During CPB, the odds of cerebral desaturation (OR, 6.59, 95% CI, 3.62-12; P < .001) and concurrent cerebral desaturation and burst suppression (OR, 10, 95% CI, 4.01-25.1; P < .001) were higher in the period between removal of aortic cross-clamp and end of CPB. During the entire surgery, the odds of burst suppression increased 8 times with higher inhalational anesthesia concentration (OR, 7.81, 95% CI, 6.26-9.74; P < .001 per 0.1% increase)., Conclusions: Cerebral desaturation is associated with intraoperative burst suppression during cardiac surgery, most significantly during CPB, especially during the period between the removal of the aortic cross-clamp and end of CPB. Further exploration with simultaneous cerebral oximetry and EEG monitoring is required to determine the causes of burst suppression. Targeted interventions to address cerebral desaturation may assist in mitigating burst suppression and consequently enhance postoperative cognitive function., Competing Interests: Conflicts of Interest, Funding: Please see DISCLOSURES at the end of this article., (Copyright © 2024 International Anesthesia Research Society.)

Published
2024
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19. Sepsis-Induced Coagulopathy: A Comprehensive Narrative Review of Pathophysiology, Clinical Presentation, Diagnosis, and Management Strategies.

Author

Williams B, Zou L, Pittet JF, and Chao W

Subjects
Humans, Thrombin metabolism, Hemostasis, Anticoagulants therapeutic use, Blood Coagulation Disorders diagnosis, Blood Coagulation Disorders etiology, Blood Coagulation Disorders therapy, Sepsis complications, Sepsis diagnosis, Sepsis therapy
Abstract

Physiological hemostasis is a balance between pro- and anticoagulant pathways, and in sepsis, this equilibrium is disturbed, resulting in systemic thrombin generation, impaired anticoagulant activity, and suppression of fibrinolysis, a condition termed sepsis-induced coagulopathy (SIC). SIC is a common complication, being present in 24% of patients with sepsis and 66% of patients with septic shock, and is often associated with poor clinical outcomes and high mortality. 1 , 2 Recent preclinical and clinical studies have generated new insights into the molecular pathogenesis of SIC. In this article, we analyze the complex pathophysiology of SIC with a focus on the role of procoagulant innate immune signaling in hemostatic activation--tissue factor production, thrombin generation, endotheliopathy, and impaired antithrombotic functions. We also review clinical presentations of SIC, the diagnostic scoring system and laboratory tests, the current standard of care, and clinical trials evaluating the efficacies of anticoagulant therapies., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2024 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the International Anesthesia Research Society.)

Published
2024
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20. Lung endothelium, tau, and amyloids in health and disease.

Author

Balczon R, Lin MT, Voth S, Nelson AR, Schupp JC, Wagener BM, Pittet JF, and Stevens T

Subjects
Humans, Endothelium, Vascular metabolism, Amyloid chemistry, Amyloid metabolism, Amyloid beta-Peptides metabolism, Multiple Organ Failure metabolism, Lung metabolism
Abstract

Lung endothelia in the arteries, capillaries, and veins are heterogeneous in structure and function. Lung capillaries in particular represent a unique vascular niche, with a thin yet highly restrictive alveolar-capillary barrier that optimizes gas exchange. Capillary endothelium surveys the blood while simultaneously interpreting cues initiated within the alveolus and communicated via immediately adjacent type I and type II epithelial cells, fibroblasts, and pericytes. This cell-cell communication is necessary to coordinate the immune response to lower respiratory tract infection. Recent discoveries identify an important role for the microtubule-associated protein tau that is expressed in lung capillary endothelia in the host-pathogen interaction. This endothelial tau stabilizes microtubules necessary for barrier integrity, yet infection drives production of cytotoxic tau variants that are released into the airways and circulation, where they contribute to end-organ dysfunction. Similarly, beta-amyloid is produced during infection. Beta-amyloid has antimicrobial activity, but during infection it can acquire cytotoxic activity that is deleterious to the host. The production and function of these cytotoxic tau and amyloid variants are the subject of this review. Lung-derived cytotoxic tau and amyloid variants are a recently discovered mechanism of end-organ dysfunction, including neurocognitive dysfunction, during and in the aftermath of infection.

Published
2024
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21. Tau and Aβ42 in lavage fluid of pneumonia patients are associated with end-organ dysfunction: A prospective exploratory study.

Author

Renema P, Pittet JF, Brandon AP, Leal SM Jr, Gu S, Promer G, Hackney A, Braswell P, Pickering A, Rafield G, Voth S, Balczon R, Lin MT, Morrow KA, Bell J, Audia JP, Alvarez D, Stevens T, and Wagener BM

Subjects
Male, Animals, Humans, Adult, Middle Aged, Aged, Female, Prospective Studies, Critical Illness, Endothelial Cells, Multiple Organ Failure, Therapeutic Irrigation, Bronchoalveolar Lavage Fluid microbiology, Amyloid, Cytotoxins, Amyloid beta-Peptides, tau Proteins, Pneumonia, Bacterial microbiology, Sepsis
Abstract

Background: Bacterial pneumonia and sepsis are both common causes of end-organ dysfunction, especially in immunocompromised and critically ill patients. Pre-clinical data demonstrate that bacterial pneumonia and sepsis elicit the production of cytotoxic tau and amyloids from pulmonary endothelial cells, which cause lung and brain injury in naïve animal subjects, independent of the primary infection. The contribution of infection-elicited cytotoxic tau and amyloids to end-organ dysfunction has not been examined in the clinical setting. We hypothesized that cytotoxic tau and amyloids are present in the bronchoalveolar lavage fluid of critically ill patients with bacterial pneumonia and that these tau/amyloids are associated with end-organ dysfunction., Methods: Bacterial culture-positive and culture-negative mechanically ventilated patients were recruited into a prospective, exploratory observational study. Levels of tau and Aβ42 in, and cytotoxicity of, the bronchoalveolar lavage fluid were measured. Cytotoxic tau and amyloid concentrations were examined in comparison with patient clinical characteristics, including measures of end-organ dysfunction., Results: Tau and Aβ42 were increased in culture-positive patients (n = 49) compared to culture-negative patients (n = 50), independent of the causative bacterial organism. The mean age of patients was 52.1 ± 16.72 years old in the culture-positive group and 52.78 ± 18.18 years old in the culture-negative group. Males comprised 65.3% of the culture-positive group and 56% of the culture-negative group. Caucasian culture-positive patients had increased tau, boiled tau, and Aβ42 compared to both Caucasian and minority culture-negative patients. The increase in cytotoxins was most evident in males of all ages, and their presence was associated with end-organ dysfunction., Conclusions: Bacterial infection promotes the generation of cytotoxic tau and Aβ42 within the lung, and these cytotoxins contribute to end-organ dysfunction among critically ill patients. This work illuminates an unappreciated mechanism of injury in critical illness., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Renema et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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22. Acute kidney disease beyond day 7 after major surgery: a secondary analysis of the EPIS-AKI trial.

Author

Meersch M, Weiss R, Strauß C, Albert F, Booke H, Forni L, Pittet JF, Kellum JA, Rosner M, Mehta R, Bellomo R, Rosenberger P, and Zarbock A

Subjects
Humans, Prospective Studies, Acute Disease, Kidney, Acute Kidney Injury epidemiology, Acute Kidney Injury etiology, Renal Insufficiency, Chronic epidemiology, Renal Insufficiency, Chronic etiology
Abstract

Purpose: Acute kidney disease (AKD) is a significant health care burden worldwide. However, little is known about this complication after major surgery., Methods: We conducted an international prospective, observational, multi-center study among patients undergoing major surgery. The primary study endpoint was the incidence of AKD (defined as new onset of estimated glomerular filtration rate (eCFR) < 60 ml/min/1.73 m 2 present on day 7 or later) among survivors. Secondary endpoints included the relationship between early postoperative acute kidney injury (AKI) (within 72 h after major surgery) and subsequent AKD, the identification of risk factors for AKD, and the rate of chronic kidney disease (CKD) progression in patients with pre-existing CKD., Results: We studied 9510 patients without pre-existing CKD. Of these, 940 (9.9%) developed AKD after 7 days of whom 34.1% experiencing an episode of early postoperative-AKI. Rates of AKD after 7 days significantly increased with the severity (19.1% Kidney Disease Improving Global Outcomes [KDIGO] 1, 24.5% KDIGO2, 34.3% KDIGO3; P < 0.001) and duration (15.5% transient vs 38.3% persistent AKI; P < 0.001) of early postoperative-AKI. Independent risk factors for AKD included early postoperative-AKI, exposure to perioperative nephrotoxic agents, and postoperative pneumonia. Early postoperative-AKI carried an independent odds ratio for AKD of 2.64 (95% confidence interval [CI] 2.21-3.15). Of 663 patients with pre-existing CKD, 42 (6.3%) had worsening CKD at day 90. In patients with CKD and an episode of early AKI, CKD progression occurred in 11.6%., Conclusion: One in ten major surgery patients developed AKD beyond 7 days after surgery, in most cases without an episode of early postoperative-AKI. However, early postoperative-AKI severity and duration were associated with an increased rate of AKD and early postoperative-AKI was strongly associated with AKD independent of all other potential risk factors., (© 2024. The Author(s).)

Published
2024
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23. PFKFB3 Inhibits Fructose Metabolism in Pulmonary Microvascular Endothelial Cells.

Author

Lee JY, Stevens RP, Pastukh VV, Pastukh VM, Kozhukhar N, Alexeyev MF, Reisz JA, Nerguizian D, D'Alessandro A, Koloteva A, Gwin MS, Roberts JT, Borchert GM, Wagener BM, Pittet JF, Graham BB, Stenmark KR, and Stevens T

Subjects
Animals, Mice, Glucose metabolism, Lactates, Lung metabolism, Endothelial Cells metabolism, Hexokinase, Fructose metabolism
Abstract

Pulmonary microvascular endothelial cells contribute to the integrity of the lung gas exchange interface, and they are highly glycolytic. Although glucose and fructose represent discrete substrates available for glycolysis, pulmonary microvascular endothelial cells prefer glucose over fructose, and the mechanisms involved in this selection are unknown. 6-Phosphofructo-2-kinase/fructose-2, 6-bisphosphatase 3 (PFKFB3) is an important glycolytic enzyme that drives glycolytic flux against negative feedback and links glycolytic and fructolytic pathways. We hypothesized that PFKFB3 inhibits fructose metabolism in pulmonary microvascular endothelial cells. We found that PFKFB3 knockout cells survive better than wild-type cells in fructose-rich medium under hypoxia. Seahorse assays, lactate and glucose measurements, and stable isotope tracing showed that PFKFB3 inhibits fructose-hexokinase-mediated glycolysis and oxidative phosphorylation. Microarray analysis revealed that fructose upregulates PFKFB3, and PFKFB3 knockout cells increase fructose-specific GLUT5 (glucose transporter 5) expression. Using conditional endothelial-specific PFKFB3 knockout mice, we demonstrated that endothelial PFKFB3 knockout increases lung tissue lactate production after fructose gavage. Last, we showed that pneumonia increases fructose in BAL fluid in mechanically ventilated ICU patients. Thus, PFKFB3 knockout increases GLUT5 expression and the hexokinase-mediated fructose use in pulmonary microvascular endothelial cells that promotes their survival. Our findings indicate that PFKFB3 is a molecular switch that controls glucose versus fructose use in glycolysis and help better understand lung endothelial cell metabolism during respiratory failure.

Published
2023
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24. Volatile anesthetic and outcome in acute trauma care: planned secondary analysis of the PROPPR study.

Author

Livingston CE, Levy DT, Saroukhani S, Fox EE, Wade CE, Holcomb JB, Gumbert SD, Galvagno SM, Kaslow OY, Pittet JF, and Pivalizza EP

Abstract

Background: This retrospective analysis of prospectively collected data from the PROPPR study describes volatile anesthetic use in severely injured trauma patients undergoing anesthesia., Methods: After exclusions, 402 subjects were reviewed of the original 680, and 292 had complete data available for analysis. Anesthesia was not protocolized, so analysis was of contemporary practice., Results: The small group who received no volatile anesthetic (n = 25) had greater injury burden (Glasgow Coma Scale P  = 0.05, Injury Severity Score P  = 0.001, Revised Trauma Score P  = 0.03), higher 6- and 24-hour mortality ( P  < 0.001), and higher incidence of systemic inflammatory response syndrome ( P  = 0.003) and ventilator-associated pneumonia ( P  = 0.02) than those receiving any volatile (n = 267). There were no differences in mortality between volatile agents at 6 hours ( P  = 0.51) or 24 hours ( P  = 0.35). The desflurane group was less severely injured than the isoflurane group. Mean minimum alveolar concentration was < 0.6 and lowest in the isoflurane group compared to the sevoflurane and desflurane groups (both P  < 0.01). The incidence of systemic inflammatory response syndrome was lower in the desflurane group than in the isoflurane group ( P  = 0.007)., Conclusion: In this acutely injured trauma population, choice of volatile anesthetic did not appear to influence short-term mortality and morbidity. Subjects who received no volatile were more severely injured with greater mortality, representing hemodynamic compromise where volatile agent was limited until stable. As anesthetic was not protocolized, these findings that choice of specific volatile was not associated with short-term survival require prospective, randomized evaluation., Competing Interests: No commercial funding was received for this work. DL and CL were recipients of a summer research scholarship from McGovern Medical School to initiate the project. SS is supported by the Biostatistics/Epidemiology/Research Design component of the Center for Clinical and Translational Sciences, currently funded through a National Center for Advancing Translational Sciences grant awarded to the University of Texas Health Science Center at Houston. This content does not represent the official views of the NCATS. EGP serves as a medical consultant for Lucid Lane, which offers virtual assistance to postsurgical patients with opioid management, and as a speaker for Haemonetics, Inc., neither of which have any relationship to the current study. None of the other authors have conflicts of interest to declare., (Copyright © 2023 Baylor University Medical Center.)

Published
2023
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25. Association of Opioid Administration During General Anesthesia and Survival for Severely Injured Trauma Patients: A Preplanned Secondary Analysis of the PROPPR Study.

Author

Levy DT, Livingston CE, Saroukhani S, Fox EE, Wade CE, Holcomb JB, Gumbert SD, Galvagno SM Jr, Kaslow OY, Pittet JF, and Pivalizza EG

Subjects
Humans, Anesthesia, General, Blood Component Transfusion, Blood Platelets, Analgesics, Opioid adverse effects, Hemorrhage
Abstract

Background: There is a lack of reported clinical outcomes after opioid use in acute trauma patients undergoing anesthesia. Data from the Pragmatic, Randomized, Optimal Platelet and Plasma Ratios (PROPPR) study were analyzed to examine opioid dose and mortality. We hypothesized that higher dose opioids during anesthesia were associated with lower mortality in severely injured patients., Methods: PROPPR examined blood component ratios in 680 bleeding trauma patients at 12 level 1 trauma centers in North America. Subjects undergoing anesthesia for an emergency procedure were identified, and opioid dose was calculated (morphine milligram equivalents [MMEs])/h. After separation of those who received no opioid (group 1), remaining subjects were divided into 4 groups of equal size with low to high opioid dose ranges. A generalized linear mixed model was used to assess impact of opioid dose on mortality (primary outcome, at 6 hours, 24 hours, and 30 days) and secondary morbidity outcomes, controlling for injury type, severity, and shock index as fixed effect factors and site as a random effect factor., Results: Of 680 subjects, 579 had an emergent procedure requiring anesthesia, and 526 had complete anesthesia data. Patients who received any opioid had lower mortality at 6 hours (odds ratios [ORs], 0.02-0.04; [confidence intervals {CIs}, 0.003-0.1]), 24 hours (ORs, 0.01-0.03; [CIs, 0.003-0.09]), and 30 days (ORs, 0.04-0.08; [CIs, 0.01-0.18]) compared to those who received none (all P < .001) after adjusting for fixed effect factors. The lower mortality at 30 days in any opioid dose group persisted after analysis of those patients who survived >24 hours (P < .001). Adjusted analyses demonstrated an association with higher ventilator-associated pneumonia (VAP) incidence in the lowest opioid dose group compared to no opioid (P = .02), and lung complications were lower in the third opioid dose group compared to no opioid in those surviving 24 hours (P = .03). There were no other consistent associations of opioid dose with other morbidity outcomes., Conclusions: These results suggest that opioid administration during general anesthesia for severely injured patients is associated with improved survival, although the no-opioid group was more severely injured and hemodynamically unstable. Since this was a preplanned post hoc analysis and opioid dose not randomized, prospective studies are required. These findings from a large, multi-institutional study may be relevant to clinical practice., Competing Interests: Conflicts of Interest: See Disclosures at the end of the article., (Copyright © 2023 International Anesthesia Research Society.)

Published
2023
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26. Developing a National Trauma Research Action Plan: Results from the postadmission critical care research gap Delphi survey.

Author

Brasel KJ, Braverman MA, Phuong J, Price MA, Kaplan LJ, Kozar R, Michetti CP, Callcut R, Bulger EM, Callcut R, Codner P, Evans S, Kaplan LJ, Kim D, Kozar R, Lipsett P, Lissauer M, Maier RV, Martin ND, May AK, Michetti CP, Murray MJ, Napolitano L, Nirula R, Pittet JF, Robinson B, Rodgers RB, Thakkar R, Tisherman SA, West M, and Zonies D

Subjects
Humans, Delphi Technique, Consensus, Surveys and Questionnaires, Research Design, Critical Care
Abstract

Introduction: The 2016 National Academies of Science, Engineering and Medicine report included a proposal to establish a National Trauma Research Action Plan. In response, the Department of Defense funded the Coalition for National Trauma Research to generate a comprehensive research agenda spanning the continuum of trauma and burn care from prehospital care to rehabilitation as part of an overall strategy to achieve zero preventable deaths and disability after injury. The Postadmission Critical Care Research panel was 1 of 11 panels constituted to develop this research agenda., Methods: We recruited interdisciplinary experts in surgical critical care and recruited them to identify current gaps in clinical critical care research, generate research questions, and establish the priority of these questions using a consensus-driven Delphi survey approach. The first of four survey rounds asked participants to generate key research questions. On subsequent rounds, we asked survey participants to rank the priority of each research question on a 9-point Likert scale, categorized to represent low-, medium-, and high-priority items. Consensus was defined as ≥60% of panelists agreeing on the priority category., Results: Twenty-five subject matter experts generated 595 questions. By Round 3, 249 questions reached ≥60% consensus. Of these, 22 questions were high, 185 were medium, and 42 were low priority. The clinical states of hypovolemic shock and delirium were most represented in the high-priority questions. Traumatic brain injury was the only specific injury pattern with a high-priority question., Conclusion: The National Trauma Research Action Plan critical care research panel identified 22 high-priority research questions, which, if answered, would reduce preventable death and disability after injury., Level of Evidence: Diagnostic Tests or Criteria; Level IV., (Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.)

Published
2022
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28. The Editors-in-Chief of Anesthesia & Analgesia Over 100 Years: Creating the Voice of the Global Anesthesiology Community.

Author

Moon JS, Bacon DR, and Pittet JF

Subjects
Head, Leadership, Analgesia, Anesthesia, Anesthesiology history
Abstract

The year 2022 marks the 100th anniversary of Anesthesia & Analgesia, the longest-running anesthesiology publication in the world. Founded in 1922 as Current Researches in Anesthesia & Analgesia by the visionary and charismatic Francis McMechan, MD, the journal served as a reliable mirror for the key scientific and political issues facing the nascent specialty of anesthesiology. Under the leadership of 6 subsequent Editors-in-Chief over the ensuing century-Howard Dittrick, MD; T. Harry Seldon, MD; Nicholas M. Greene, MD; Ronald D. Miller, MD; Steven L. Shafer, MD; and Jean-Francois Pittet, MD-Anesthesia & Analgesia has grown in size, circulation, and impact. Today, it remains a formidable voice in the global anesthesia community., Competing Interests: Conflicts of Interest: See Disclosures at the end of the article., (Copyright © 2022 International Anesthesia Research Society.)

Published
2022
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29. The Pathogenesis of Ischemia-Reperfusion Induced Acute Kidney Injury Depends on Renal Neutrophil Recruitment Whereas Sepsis-Induced AKI Does Not.

Author

Li Z, Ludwig N, Thomas K, Mersmann S, Lehmann M, Vestweber D, Pittet JF, Gomez H, Kellum JA, Rossaint J, and Zarbock A

Subjects
Animals, Creatinine, Female, Humans, Ischemia pathology, Kidney pathology, Male, Mice, Neutrophil Infiltration, Reperfusion adverse effects, Acute Kidney Injury pathology, Reperfusion Injury complications, Reperfusion Injury pathology, Sepsis pathology
Abstract

Acute kidney injury (AKI) may be induced by different causes, including renal ischemia-reperfusion injury and sepsis, which represent the most common reasons for AKI in hospitalized patients. AKI is defined by reduced urine production and/or increased plasma creatinine. However, this definition does not address the molecular mechanisms of different AKI entities, and uncertainties remain regarding distinct pathophysiological events causing kidney injury in the first place. In particular, sepsis-induced AKI is considered not to be associated with leukocyte infiltration into the kidney, but a direct investigation of this process is missing to this date. In this study, we used two murine AKI models induced by either renal ischemia-reperfusion injury (IRI) or cecal ligation and puncture (CLP) to investigate the contribution of neutrophils to tissue injury and kidney function. By using VEC-Y731F mice, in which neutrophil recruitment is impaired, we analyzed the specific contribution of neutrophil recruitment to the pathogenesis of IRI- and CLP-induced AKI. We observed that the degree of renal injury evaluated by plasma creatinine, urinary biomarkers and histological analyses, following IRI-induction was dependent on neutrophil migration into the kidney, whereas the pathogenesis of CLP-induced AKI was independent of neutrophil recruitment. Furthermore, plasma transfer experiments suggest that the pathogenesis of CLP-induced AKI relies on circulating inflammatory mediators. These results extend our knowledge of the AKI pathogenesis and may help in the development of prophylactic and therapeutic treatments for AKI patients., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Li, Ludwig, Thomas, Mersmann, Lehmann, Vestweber, Pittet, Gomez, Kellum, Rossaint and Zarbock.)

Published
2022
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30. ExoU Induces Lung Endothelial Cell Damage and Activates Pro-Inflammatory Caspase-1 during Pseudomonas aeruginosa Infection.

Author

Hardy KS, Tuckey AN, Renema P, Patel M, Al-Mehdi AB, Spadafora D, Schlumpf CA, Barrington RA, Alexeyev MF, Stevens T, Pittet JF, Wagener BM, Simmons JD, Alvarez DF, and Audia JP

Subjects
Caspase 1 metabolism, Genetic Variation, Genotype, Humans, Inflammation chemically induced, Inflammation physiopathology, Pseudomonas Infections genetics, Bacterial Proteins toxicity, Caspase 1 drug effects, Cell Death drug effects, Chemical and Drug Induced Liver Injury physiopathology, Endothelial Cells drug effects, Pseudomonas Infections physiopathology, Pseudomonas aeruginosa genetics
Abstract

The Gram-negative, opportunistic pathogen Pseudomonas aeruginosa utilizes a type III secretion system to inject exoenzyme effectors into a target host cell. Of the four best-studied exoenzymes, ExoU causes rapid cell damage and death. ExoU is a phospholipase A 2 (PLA 2 ) that hydrolyses host cell membranes, and P. aeruginosa strains expressing ExoU are associated with poor outcomes in critically ill patients with pneumonia. While the effects of ExoU on lung epithelial and immune cells are well studied, a role for ExoU in disrupting lung endothelial cell function has only recently emerged. Lung endothelial cells maintain a barrier to fluid and protein flux into tissue and airspaces and regulate inflammation. Herein, we describe a pulmonary microvascular endothelial cell (PMVEC) culture infection model to examine the effects of ExoU. Using characterized P. aeruginosa strains and primary clinical isolates, we show that strains expressing ExoU disrupt PMVEC barrier function by causing substantial PMVEC damage and lysis, in a PLA 2 -dependent manner. In addition, we show that strains expressing ExoU activate the pro-inflammatory caspase-1, in a PLA 2 -dependent manner. Considering the important roles for mitochondria and oxidative stress in regulating inflammatory responses, we next examined the effects of ExoU on reactive oxygen species production. Infection of PMVECs with P. aeruginosa strains expressing ExoU triggered a robust oxidative stress compared to strains expressing other exoenzyme effectors. We also provide evidence that, intriguingly, ExoU PLA 2 activity was detectable in mitochondria and mitochondria-associated membrane fractions isolated from P. aeruginosa -infected PMVECs. Interestingly, ExoU-mediated activation of caspase-1 was partially inhibited by reactive oxygen species scavengers. Together, these data suggest ExoU exerts pleiotropic effects on PMVEC function during P. aeruginosa infection that may inhibit endothelial barrier and inflammatory functions.

Published
2022
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31. Cytotoxic tau released from lung microvascular endothelial cells upon infection with Pseudomonas aeruginosa promotes neuronal tauopathy.

Author

Choi CS, Gwin M, Voth S, Kolb C, Zhou C, Nelson AR, deWeever A, Koloteva A, Annamdevula NS, Murphy JM, Wagener BM, Pittet JF, Lim SS, Balczon R, Stevens T, and Lin MT

Subjects
Animals, Cognitive Dysfunction metabolism, Cognitive Dysfunction microbiology, Cognitive Dysfunction pathology, Endothelial Cells metabolism, Endothelial Cells microbiology, Endothelial Cells pathology, Humans, Lung blood supply, Mice, Protein Isoforms, Pseudomonas aeruginosa, Lung Diseases metabolism, Lung Diseases microbiology, Lung Diseases pathology, Pneumonia, Bacterial metabolism, Pneumonia, Bacterial microbiology, Pneumonia, Bacterial pathology, Tauopathies genetics, Tauopathies metabolism, Tauopathies pathology, tau Proteins chemistry, tau Proteins genetics, tau Proteins metabolism
Abstract

Patients who recover from nosocomial pneumonia oftentimes exhibit long-lasting cognitive impairment comparable with what is observed in Alzheimer's disease patients. We previously hypothesized that the lung endothelium contributes to infection-related neurocognitive dysfunction, because bacteria-exposed endothelial cells release a form(s) of cytotoxic tau that is sufficient to impair long-term potentiation in the hippocampus. However, the full-length lung and endothelial tau isoform(s) have yet to be resolved and it remains unclear whether the infection-induced endothelial cytotoxic tau triggers neuronal tau aggregation. Here, we demonstrate that lung endothelial cells express a big tau isoform and three additional tau isoforms that are similar to neuronal tau, each containing four microtubule-binding repeat domains, and that tau is expressed in lung capillaries in vivo. To test whether infection elicits endothelial tau capable of causing transmissible tau aggregation, the cells were infected with Pseudomonas aeruginosa. The infection-induced tau released from endothelium into the medium-induced neuronal tau aggregation in reporter cells, including reporter cells that express either the four microtubule-binding repeat domains or the full-length tau. Infection-induced release of pathological tau variant(s) from endothelium, and the ability of the endothelial-derived tau to cause neuronal tau aggregation, was abolished in tau knockout cells. After bacterial lung infection, brain homogenates from WT mice, but not from tau knockout mice, initiated tau aggregation. Thus, we conclude that bacterial pneumonia initiates the release of lung endothelial-derived cytotoxic tau, which is capable of propagating a neuronal tauopathy., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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32. Anesthesia & Analgesia Enters Its Second Century: Reflections on the Past, Present, and Future of the Journal.

Author

Vetter TR and Pittet JF

Subjects
Analgesia history, Analgesia methods, Anesthesia history, Anesthesia methods, Anesthesiology history, Anesthesiology methods, Anesthesiology trends, History, 20th Century, History, 21st Century, Humans, Analgesia trends, Anesthesia trends, Publications trends, Publishing trends
Abstract

Competing Interests: The authors declare no conflicts of interest.

Published
2022
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33. Carbonic Anhydrase IX and Hypoxia Promote Rat Pulmonary Endothelial Cell Survival during Infection.

Author

Lee JY, Stevens RP, Kash M, Alexeyev MF, Balczon R, Zhou C, Renema P, Koloteva A, Kozhukhar N, Pastukh V, Gwin MS, Voth S, deWeever A, Wagener BM, Pittet JF, Eslaamizaad Y, Siddiqui W, Nawaz T, Clarke C, Fouty BW, Audia JP, Alvarez DF, and Stevens T

Subjects
Animals, Antigens, Neoplasm metabolism, Cell Hypoxia, Humans, Male, Rats, Rats, Inbred F344, Carbonic Anhydrase IX metabolism, Endothelial Cells enzymology, Lung enzymology, Pneumonia, Bacterial enzymology, Pseudomonas Infections enzymology, Pseudomonas aeruginosa metabolism
Abstract

Low tidal volume ventilation protects the lung in mechanically ventilated patients. The impact of the accompanying permissive hypoxemia and hypercapnia on endothelial cell recovery from injury is poorly understood. CA (carbonic anhydrase) IX is expressed in pulmonary microvascular endothelial cells (PMVECs), where it contributes to CO 2 and pH homeostasis, bioenergetics, and angiogenesis. We hypothesized that CA IX is important for PMVEC survival and that CA IX expression and release from PMVECs are increased during infection. Although the plasma concentration of CA IX was unchanged in human and rat pneumonia, there was a trend toward increasing CA IX in the bronchoalveolar fluid of mechanically ventilated critically ill patients with pneumonia and a significant increase in CA IX in the lung tissue lysates of pneumonia rats. To investigate the functional implications of the lung CA IX increase, we generated PMVEC cell lines harboring domain-specific CA IX mutations. By using these cells, we found that infection promotes intracellular (IC) expression, release, and MMP (metalloproteinase)-mediated extracellular cleavage of CA IX in PMVECs. IC domain deletion uniquely impaired CA IX membrane localization. Loss of the CA IX IC domain promoted cell death after infection, suggesting that the IC domain has an important role in PMVEC survival. We also found that hypoxia improves survival, whereas hypercapnia reverses the protective effect of hypoxia, during infection. Thus, we report 1 ) that CA IX increases in the lungs of pneumonia rats and 2 ) that the CA IX IC domain and hypoxia promote PMVEC survival during infection.

Published
2021
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34. The Role of Pseudomonas aeruginosa Virulence Factors in Cytoskeletal Dysregulation and Lung Barrier Dysfunction.

Author

Wagener BM, Hu R, Wu S, Pittet JF, Ding Q, and Che P

Subjects
Bacteremia microbiology, Edema metabolism, Humans, Cytoskeleton pathology, Lung physiopathology, Pseudomonas Infections physiopathology, Pseudomonas aeruginosa physiology, Virulence Factors physiology
Abstract

Pseudomonas (P.) aeruginosa is an opportunistic pathogen that causes serious infections and hospital-acquired pneumonia in immunocompromised patients. P. aeruginosa accounts for up to 20% of all cases of hospital-acquired pneumonia, with an attributable mortality rate of ~30-40%. The poor clinical outcome of P. aeruginosa -induced pneumonia is ascribed to its ability to disrupt lung barrier integrity, leading to the development of lung edema and bacteremia. Airway epithelial and endothelial cells are important architecture blocks that protect the lung from invading pathogens. P. aeruginosa produces a number of virulence factors that can modulate barrier function, directly or indirectly, through exploiting cytoskeleton networks and intercellular junctional complexes in eukaryotic cells. This review summarizes the current knowledge on P. aeruginosa virulence factors, their effects on the regulation of the cytoskeletal network and associated components, and molecular mechanisms regulating barrier function in airway epithelial and endothelial cells. A better understanding of these processes will help to lay the foundation for new therapeutic approaches against P. aeruginosa -induced pneumonia.

Published
2021
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35. Pneumonia initiates a tauopathy.

Author

Balczon R, Lin MT, Lee JY, Abbasi A, Renema P, Voth SB, Zhou C, Koloteva A, Michael Francis C, Sodha NR, Pittet JF, Wagener BM, Bell J, Choi CS, Ventetuolo CE, and Stevens T

Subjects
Adult, Aged, Alzheimer Disease etiology, Alzheimer Disease metabolism, Amyloid metabolism, Animals, Cognitive Dysfunction etiology, Cognitive Dysfunction metabolism, Disease Models, Animal, Female, Hippocampus metabolism, Humans, Long-Term Potentiation physiology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Middle Aged, Pneumonia metabolism, Rats, Tauopathies metabolism, Young Adult, tau Proteins metabolism, Pneumonia complications, Tauopathies etiology
Abstract

Pneumonia causes short- and long-term cognitive dysfunction in a high proportion of patients, although the mechanism(s) responsible for this effect are unknown. Here, we tested the hypothesis that pneumonia-elicited cytotoxic amyloid and tau variants: (1) are present in the circulation during infection; (2) lead to impairment of long-term potentiation; and, (3) inhibit long-term potentiation dependent upon tau. Cytotoxic amyloid and tau species were recovered from the blood and the hippocampus following pneumonia, and they were present in the extracorporeal membrane oxygenation oxygenators of patients with pneumonia, especially in those who died. Introduction of immunopurified blood-borne amyloid and tau into either the airways or the blood of uninfected animals acutely and chronically impaired hippocampal information processing. In contrast, the infection did not impair long-term potentiation in tau knockout mice and the amyloid- and tau-dependent disruption in hippocampal signaling was less severe in tau knockout mice. Moreover, the infection did not elicit cytotoxic amyloid and tau variants in tau knockout mice. Therefore, pneumonia initiates a tauopathy that contributes to cognitive dysfunction., (© 2021 The Authors. The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.)

Published
2021
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36. NETosis in the pathogenesis of acute lung injury following cutaneous chemical burns.

Author

Surolia R, Li FJ, Wang Z, Kashyap M, Srivastava RK, Traylor AM, Singh P, Dsouza KG, Kim H, Pittet JF, Zmijewski JW, Agarwal A, Athar M, Ahmad A, and Antony VB

Subjects
Animals, Disease Models, Animal, Female, Male, Mice, Mice, Inbred C57BL, Protein-Arginine Deiminase Type 4 antagonists & inhibitors, Protein-Arginine Deiminase Type 4 metabolism, Acute Lung Injury etiology, Acute Lung Injury metabolism, Acute Lung Injury pathology, Burns, Chemical complications, Extracellular Traps metabolism
Abstract

Despite the high morbidity and mortality among patients with extensive cutaneous burns in the intensive care unit due to the development of acute respiratory distress syndrome, effective therapeutics remain to be determined. This is primarily because the mechanisms leading to acute lung injury (ALI) in these patients remain unknown. We test the hypothesis that cutaneous chemical burns promote lung injury due to systemic activation of neutrophils, in particular, toxicity mediated by the deployment of neutrophil extracellular traps (NETs). We also demonstrate the potential benefit of a peptidyl arginine deiminase 4 (PAD4) inhibitor to prevent NETosis and to preserve microvascular endothelial barrier function, thus reducing the severity of ALI in mice. Our data demonstrated that phenylarsine oxide (PAO) treatment of neutrophils caused increased intracellular Ca2+-associated PAD4 activity. A dermal chemical burn by lewisite or PAO resulted in PAD4 activation, NETosis, and ALI. NETs disrupted the barrier function of endothelial cells in human lung microvascular endothelial cell spheroids. Citrullinated histone 3 alone caused ALI in mice. Pharmacologic or genetic abrogation of PAD4 inhibited lung injury following cutaneous chemical burns. Cutaneous burns by lewisite and PAO caused ALI by PAD4-mediated NETosis. PAD4 inhibitors may have potential as countermeasures to suppress detrimental lung injury after chemical burns.

Published
2021
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37. End-of-Procedure Volume Responsiveness Defined by the Passive Leg Raise Test Is Not Associated With Acute Kidney Injury After Cardiopulmonary Bypass.

Author

Zaky A, Younan DS, Meers B, Davies J, Pereira S, Melvin RL, Kidd B, Morgan C, Tolwani A, and Pittet JF

Subjects
Cardiopulmonary Bypass adverse effects, Humans, Leg, Postoperative Complications diagnostic imaging, Postoperative Complications epidemiology, Prospective Studies, Risk Factors, Acute Kidney Injury diagnosis, Acute Kidney Injury epidemiology, Acute Kidney Injury etiology, Cardiac Surgical Procedures adverse effects
Abstract

Objectives: Renal hypoperfusion is a common mechanism of cardiac surgery-related acute kidney injury (CS-AKI). However, the optimal amount of volume resuscitation to correct systemic hypoperfusion and prevent the postoperative development of CS-AKI has been a subject of debate. The goal of this study was to assess the association of volume responsiveness determined by stroke volume variation using the passive leg raise test (PLRT) at chest closure, with the development of CS-AKI according to the Kidney Disease Improving Global Outcomes criteria., Design: Single-center, prospective observational study., Setting: Tertiary hospital., Interventions: None., Measurements and Main Results: A total of 131 patients were studied from January 2015 until May 2017. All patients underwent cardiac surgery that required cardiopulmonary bypass. Volume responsiveness was assessed at chest closure using the PRLT. Stroke volume variation from the sitting to the recumbent positions was measured by transesophageal echocardiography. Fluid responsiveness was defined as an increase of >12% of stroke volume from sitting to recumbent positions. A total of 82 (68.3%) patients were fluid-responsive versus 38 (31.6%) who were fluid-unresponsive. CS-AKI occurred in 30% of patients. There was no difference in CS-AKI between fluid-responsive and fluid-nonresponsive groups. However, CS-AKI was associated independently with an increases in body mass index and preoperative diastolic blood pressure. CS-AKI also was associated with prolonged intensive care unit length of stay., Conclusion: End-of-procedure volume responsiveness is not associated with a high risk for postoperative CS-AKI., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2021
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38. Estrogen Alleviates Sex-Dependent Differences in Lung Bacterial Clearance and Mortality Secondary to Bacterial Pneumonia after Traumatic Brain Injury.

Author

Pittet JF, Hu PJ, Honavar J, Brandon AP, Evans CA, Muthalaly R, Ding Q, and Wagener BM

Subjects
Animals, Brain Injuries, Traumatic metabolism, Brain Injuries, Traumatic mortality, Cell Line, Estradiol pharmacology, Female, Lung metabolism, Lung microbiology, Male, Mice, Mice, Inbred C57BL, Pneumonia, Bacterial metabolism, Pneumonia, Bacterial mortality, Pseudomonas Infections mortality, Pseudomonas aeruginosa isolation & purification, Tumor Necrosis Factor-alpha metabolism, Brain Injuries, Traumatic drug therapy, Estradiol therapeutic use, Lung drug effects, Pneumonia, Bacterial drug therapy, Pseudomonas Infections drug therapy, Sex Characteristics
Abstract

Traumatic brain injury (TBI) is the leading cause of injury-related death and disability in patients under the age of 46 years. Survivors of the initial injury often endure systemic complications such as pulmonary infection, and Pseudomonas aeruginosa is one of the most common causes of nosocomial pneumonia in intensive care units. Female patients are less likely to develop secondary pneumonia after TBI, and pre-clinical studies have revealed a salutary role for estrogen after trauma. Therefore, we hypothesized that female mice would experience less mortality after post-TBI pneumonia with P. aeruginosa . We employed a mouse model of TBI followed by P. aeruginosa pneumonia. Male mice had greater mortality and impaired lung bacterial clearance after post-TBI pneumonia compared with female mice. This was confirmed as a difference in sex hormones, as oophorectomized wild-type mice had mortality and lung bacterial clearance similar to male mice. There were differences in tumor necrosis factor-α secretion in male and female alveolar macrophages after P. aeruginosa infection. Finally, injection of male or oophorectomized wild-type female mice with estrogen restored lung bacterial clearance and prevented mortality. Our model of TBI followed by P. aeruginosa pneumonia is among the first to reveal sex dimorphism in secondary, long-term TBI complications.

Published
2021
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39. Autonomic nervous system activity and the risk of nosocomial infection in critically ill patients with brain injury.

Author

Wirtz MR, Moekotte J, Balvers K, Admiraal MM, Pittet JF, Colombo J, Wagener BM, Goslings JC, and Juffermans N

Abstract

Purpose: Nosocomial infection contributes to adverse outcome after brain injury. This study investigates whether autonomic nervous system activity is associated with a decreased host immune response in patients following stroke or traumatic brain injury (TBI)., Methods: A prospective study was performed in adult patients with TBI or stroke who were admitted to the Intensive Care Unit of our tertiary university hospital between 2013 and 2016. Heart rate variability (HRV) was recorded daily and assessed for autonomic nervous system activity. Outcomes were nosocomial infections and immunosuppression, which was assessed ex vivo using whole blood stimulations with plasma of patients with infections, matched non-infected patients and healthy controls., Results: Out of 64 brain injured patients, 23 (36%) developed an infection during their hospital stay. The ability of brain injured patients to generate a host response to the bacterial endotoxin lipopolysaccharides (LPS) was diminished compared to healthy controls (p < 0.001). Patients who developed an infection yielded significantly lower TNF-α values (86 vs 192 pg/mL, p = 0.030) and a trend towards higher IL-10 values (122 vs 84 pg/mL, p = 0.071) following ex vivo whole blood stimulations when compared to patients not developing an infection. This decreased host immune response was associated with altered admission HRV values. Brain injured patients who developed an infection showed increased normalized high-frequency power compared to patients not developing an infection (0.54 vs 0.36, p = 0.033), whereas normalized low-frequency power was lower in infected patients (0.46 vs 0.64, p = 0.033)., Conclusion: Brain injured patients developing a nosocomial infection show parasympathetic predominance in the acute phase following brain injury, reflected by alterations in HRV, which parallels a decreased ability to generate an immune response to stimulation with LPS.

Published
2020
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40. The bio-sonographic index. A novel modality for early detection of acute kidney injury after complex vascular surgery. A protocol for an exploratory prospective study.

Author

Zaky A, Beck AW, Bae S, Sturdivant A, Liwo A, Zdenek N, McAnally N, Ahmad S, Meers B, Robbin M, Pittet JF, Tolwani A, and Berkowitz D

Subjects
Biomarkers urine, Cell Cycle Checkpoints physiology, Elasticity Imaging Techniques, Endovascular Procedures, Humans, Insulin-Like Growth Factor Binding Proteins urine, Lipocalin-2 urine, Prospective Studies, Tissue Inhibitor of Metalloproteinase-2 urine, Acute Kidney Injury urine
Abstract

Objective: Acute kidney injury (AKI) is a common complication of complex aortic surgery with high mortality, morbidity and health care expense. The current definition of AKI does not allow for structural characterization of the kidneys and utilizes functional indices with substantial limitations leading to delayed diagnosis and ineffective interventions. The aim of this study is to develop a method of early detection of structural renal abnormalities that can precede and predict the occurrence of AKI in this population. We propose a novel combined index of ultrasonography (shear wave elastography), biomarkers of renal stress (urinary insulin growth factor binding protein-7, IGFBP-7 and inhibitor of tissue metalloproteinase-2, TIMP-2) and renal injury markers (urinary neutrophil gelatinase-associated lipocalin -NGAL)- the bio-sonographic index (BSI)., Methods: A prospective observational study at a tertiary referral center will be performed enrolling 80 patients undergoing elective open and endovascular repair of the visceral aorta. The BSI will be evaluated at baseline, and at 6 and 24 hours after the procedure. The primary outcome is the occurrence of AKI according to the Kidney Disease Improving Global Outcomes (KDIGO) criteria. Each patient will be his/her own control. A reference group of 15 healthy volunteers who are not undergoing interventions will be enrolled to test the feasibility of and to refine the novel SWE protocol. The BSI will be tested for its predictability of the occurrence of AKI. Comparisons will be made between individual and combined components of the BSI and traditional markers used in the KDIGO definition; serum creatinine and urine output in terms of baseline status of the kidney. Correlations will be made between the BSI and conventional indices of AKI and exploratory analyses will be conducted to identify individual disease patterns using the BSI., Discussion: We hypothesize that the BSI will be a sensitive index of early structural abnormalities that precede and predict the occurrence of AKI as defined by KDIGO in complex vascular surgery., Trial Registration: ClinicalTrials.gov NCT04144894. Registered 1/6/2020., Competing Interests: The authors have declared that no competing interests exist.

Published
2020
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42. Associations of Plasma Angiopoietins-1 and -2 and Angiopoietin-2/-1 Ratios With Measures of Organ Injury and Clinical Outcomes in Children With Sepsis: A Preliminary Report.

Author

Richter RP, Zheng L, Ashtekar AR, Walker SC, Pittet JF, and Richter JR

Subjects
Adolescent, Adult, Angiopoietin-1, Child, Humans, Plasma, Prospective Studies, Angiopoietin-2, Sepsis diagnosis
Abstract

Objectives: Results from preclinical and adult sepsis studies suggest that the balance of circulating angiopoietin-1 and -2 levels, represented as angiopoietin-2/-1 ratios, plays a pivotal role in mediating vascular dysfunction and organ injury during sepsis. However, the relationship of plasma angiopoietins with organ injury and clinical outcomes in children with sepsis remains unknown. We sought to determine whether plasma angiopoietin-1 and -2 levels and angiopoietin-2/-1 ratios in the acute phase of sepsis correlated with measures of organ injury and clinical outcomes in children with sepsis., Design: Prospective observational cohort study., Setting: PICU within a tertiary freestanding children's hospital., Patients: Children 18 years old or less and greater than 3 kg admitted to the PICU for sepsis., Interventions: None., Measurements and Main Results: Plasma angiopoietin-1 and -2 levels were measured in 38 children with sepsis 0-6, 24, 48, and 72 hours following PICU admission. Children with elevated pediatric Sequential Organ Failure Assessment scores on the third day after PICU admission demonstrated significantly higher 24-72-hour angiopoietin-2/-1 ratios predominantly as a function of higher angiopoietin-2 levels. In children with sepsis-induced organ dysfunction, angiopoietin-2/-1 ratios correlated with oxygenation indices and serum levels of creatinine and bilirubin. Forty-eight- and 72-hour angiopoietin-2/-1 ratios correlated with PICU length of stay (Spearman rho = 0.485, p = 0.004 and rho = 0.440, p = 0.015, respectively)., Conclusions: In the acute phase of sepsis in children, plasma angiopoietin-2/-1 ratios rise significantly above control levels and correlate with measures of organ injury and worse clinical outcomes after 24 hours. Our findings suggest that angiopoietin dysregulation begins early in sepsis and, if sustained, may promote greater organ injury that can lead to worse clinical outcomes.

Published
2020
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43. NOX2 decoy peptides disrupt trauma-mediated neutrophil immunosuppression and protect against lethal peritonitis.

Author

Husain M, Becker EJ Jr, Bone NB, Schmitt A, Pittet JF, and Zmijewski JW

Subjects
Animals, Humans, Immunosuppression Therapy, Mice, NADPH Oxidase 2 genetics, NADPH Oxidases genetics, Peptides, Neutrophils, Peritonitis
Abstract

Trauma and sepsis are frequent causes of immunosuppression and risk of secondary bacterial infections and mortality among critically ill patients. Reduced activity of neutrophil NADPH oxidase 2 (NOX2) and impaired bacterial killing are among the major indices of immunosuppression. We hypothesize that NOX2-decoy peptides disrupt the inhibition of neutrophil NOX2 by plasma of patients with severe trauma and immunosuppression, thereby preserving the neutrophil respiratory burst that is a central antimicrobial mechanism. We demonstrate that plasma from trauma/hemorrhage (T/H) patients, but not healthy donors (HD), significantly reduced the activity of neutrophil NOX2 and impaired bacterial killing. The inhibitory action of plasma was associated with an increase in bacterial infections among trauma survivors. High Mobility Group Box 1 (HMGB1) is a mediator of lethality in trauma and sepsis and our mechanistic studies revealed that disulfide and oxidized forms of HMGB1 bind to the gp91 phox subunit of NOX2, and thus decrease the neutrophil respiratory burst and bacterial killing. NOX2 decoy Anti-Immunosuppression (Ai) Peptides 1 and 3 effectively disrupted the immunosuppressive action of T/H plasma. HMGB1 selectively binds to Ai-Peptide 3, supporting the possibility for direct interaction between HMGB1 and the third external loop of gp91 phox . In vivo, Ai-Peptides improved survival of mice subjected to lethal peritonitis. Taken together, plasma-dependent inhibition of neutrophil NOX2 appeared to be a suitable indicator of immunosuppression in patients with severe trauma. Given that gp91 phox decoys protected the neutrophil respiratory burst, selected Ai-Peptides have therapeutic potential to reduce bacterial infections and end-organ injury associated with sepsis/trauma-induced immunosuppression., (Copyright © 2020 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published
2020
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44. α-Tocopherol Attenuates the Severity of Pseudomonas aeruginosa -induced Pneumonia.

Author

Wagener BM, Anjum N, Evans C, Brandon A, Honavar J, Creighton J, Traber MG, Stuart RL, Stevens T, and Pittet JF

Subjects
Animals, Bacterial Proteins metabolism, Cells, Cultured, Disease Models, Animal, Endothelium drug effects, Endothelium metabolism, Humans, Lung, Mice, Mice, Inbred C57BL, Plasminogen Activator Inhibitor 1 metabolism, Pseudomonas aeruginosa metabolism, Rats, Type III Secretion Systems drug effects, rhoA GTP-Binding Protein metabolism, Pneumonia drug therapy, Pseudomonas Infections drug therapy, Pseudomonas aeruginosa drug effects, alpha-Tocopherol pharmacology
Abstract

Pseudomonas aeruginosa is a lethal pathogen that causes high mortality and morbidity in immunocompromised and critically ill patients. The type III secretion system (T3SS) of P. aeruginosa mediates many of the adverse effects of infection with this pathogen, including increased lung permeability in a Toll-like receptor 4/RhoA/PAI-1 (plasminogen activator inhibitor-1)-dependent manner. α-Tocopherol has antiinflammatory properties that may make it a useful adjunct in treatment of this moribund infection. We measured transendothelial and transepithelial resistance, RhoA and PAI-1 activation, stress fiber formation, P. aeruginosa T3SS exoenzyme (ExoY) intoxication into host cells, and survival in a murine model of pneumonia in the presence of P. aeruginosa and pretreatment with α-tocopherol. We found that α-tocopherol alleviated P. aeruginosa -mediated alveolar endothelial and epithelial paracellular permeability by inhibiting RhoA, in part, via PAI-1 activation, and increased survival in a mouse model of P. aeruginosa pneumonia. Furthermore, we found that α-tocopherol decreased the activation of RhoA and PAI-1 by blocking the injection of T3SS exoenzymes into alveolar epithelial cells. P. aeruginosa is becoming increasingly antibiotic resistant. We provide evidence that α-tocopherol could be a useful therapeutic agent for individuals who are susceptible to infection with P. aeruginosa , such as those who are immunocompromised or critically ill.

Published
2020
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45. Damage to red blood cells during whole blood storage.

Author

Oh JY, Marques MB, Xu X, Li J, Genschmer K, Gaggar A, Jansen JO, Holcomb JB, Pittet JF, and Patel RP

Subjects
Blood Preservation methods, Carbon Dioxide blood, Cell-Derived Microparticles metabolism, Citrates, Erythrocytes metabolism, Glucose, Hemoglobins metabolism, Hemolysis, Humans, Nitric Oxide metabolism, Oxidation-Reduction, Oxidative Stress, Oxygen blood, Peroxiredoxins metabolism, Blood Preservation adverse effects, Erythrocytes pathology, Erythrocytes physiology
Abstract

Background: Transfusion with stored whole blood (WB) is increasingly routine practice to resuscitate bleeding trauma patients. Storage of packed red blood cells (pRBC) results in multiple biochemical, structural, and metabolic changes, referred to as to the storage lesion that may mediate adverse effects associated with transfusion of older RBC units. These include increased hemolysis, oxidative stress, and accelerated scavenging of nitric oxide (NO). Whether similar changes occur to stored WB is unclear and are characterized in this study., Methods: Ten WB units, in citrate-phosphate-dextrose, were purchased from the American Red Cross and changes in hemolysis (increased free hemoglobin, heme, and microparticles), oxidative stress indexed by redox cycling of peroxiredoxin-2 (Prx-2) and NO-scavenging kinetics were determined at different storage times until expiration., Results: Microparticle number and free hemoglobin, but not heme, increased in a storage time-dependent manner. When normalized to the initial number of RBCs in stored WB units, hemolysis rates were similar to those reported for pRBCs. Prx-2 recycling kinetics were slower at expiration compared with earlier storage times. Rates of NO dioxygenation did not change with storage, but were decreased compared with freshly isolated RBCs., Conclusion: Storage of WB results in changes associated with the pRBC storage lesion but not for all parameters tested. The relative rate of hemolysis (indexed by free hemoglobin and microparticles) and oxidative stress was similar to that of pRBCs. However, the absolute level of hemolysis products were lower due to lower hematocrit of stored WB units. The clinical significance of these findings requires further investigation.

Published
2020
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47. Virulent Pseudomonas aeruginosa infection converts antimicrobial amyloids into cytotoxic prions.

Author

Voth S, Gwin M, Francis CM, Balczon R, Frank DW, Pittet JF, Wagener BM, Moser SA, Alexeyev M, Housley N, Audia JP, Piechocki S, Madera K, Simmons A, Crawford M, and Stevens T

Subjects
Animals, Bacterial Proteins immunology, Cytotoxins pharmacology, Endothelial Cells immunology, Endothelial Cells microbiology, Female, Host-Pathogen Interactions, Humans, Lung immunology, Lung microbiology, Male, Pseudomonas Infections immunology, Pseudomonas Infections microbiology, Rats, Rats, Inbred F344, Rats, Sprague-Dawley, Virulence drug effects, Amyloid chemistry, Anti-Bacterial Agents pharmacology, Endothelial Cells drug effects, Lung drug effects, Prions pharmacology, Pseudomonas Infections drug therapy, Pseudomonas aeruginosa isolation & purification
Abstract

Pseudomonas aeruginosa infection elicits the production of cytotoxic amyloids from lung endothelium, yet molecular mechanisms of host-pathogen interaction that underlie the amyloid production are not well understood. We examined the importance of type III secretion system (T3SS) effectors in the production of cytotoxic amyloids. P aeruginosa possessing a functional T3SS and effectors induced the production and release of cytotoxic amyloids from lung endothelium, including beta amyloid, and tau. T3SS effector intoxication was sufficient to generate cytotoxic amyloid release, yet intoxication with exoenzyme Y (ExoY) alone or together with exoenzymes S and T (ExoS/T/Y) generated the most virulent amyloids. Infection with lab and clinical strains engendered cytotoxic amyloids that were capable of being propagated in endothelial cell culture and passed to naïve cells, indicative of a prion strain. Conversely, T3SS-incompetent P aeruginosa infection produced non-cytotoxic amyloids with antimicrobial properties. These findings provide evidence that (1) endothelial intoxication with ExoY is sufficient to elicit self-propagating amyloid cytotoxins during infection, (2) pulmonary endothelium contributes to innate immunity by generating antimicrobial amyloids in response to bacterial infection, and (3) ExoY contributes to the virulence arsenal of P aeruginosa through the subversion of endothelial amyloid host-defense to promote a lung endothelial-derived cytotoxic proteinopathy., (© 2020 The Authors. The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.)

Published
2020
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48. Exoenzyme Y Contributes to End-Organ Dysfunction Caused by Pseudomonas aeruginosa Pneumonia in Critically Ill Patients: An Exploratory Study.

Author

Wagener BM, Anjum N, Christiaans SC, Banks ME, Parker JC, Threet AT, Walker RR, Isbell KD, Moser SA, Stevens T, Alexeyev MF, Audia JP, Richter W, Hardy KS, Saleh LA, Morgan C, and Pittet JF

Subjects
Animals, Bacterial Proteins genetics, Bacterial Toxins genetics, Cells, Cultured, Critical Illness, Cross Infection diagnosis, Cross Infection mortality, Female, Glucosyltransferases genetics, Humans, Male, Middle Aged, Multiple Organ Failure diagnosis, Multiple Organ Failure mortality, Pneumonia, Bacterial diagnosis, Pneumonia, Bacterial mortality, Prospective Studies, Pseudomonas Infections diagnosis, Pseudomonas Infections mortality, Pseudomonas aeruginosa genetics, Pseudomonas aeruginosa pathogenicity, Rats, Respiration, Artificial adverse effects, Risk Factors, Virulence, Virulence Factors genetics, Bacterial Proteins metabolism, Bacterial Toxins metabolism, Cross Infection microbiology, Glucosyltransferases metabolism, Multiple Organ Failure microbiology, Pneumonia, Bacterial microbiology, Pseudomonas Infections microbiology, Pseudomonas aeruginosa enzymology, Virulence Factors metabolism
Abstract

Pseudomonas aeruginosa is an opportunistic pathogen that causes pneumonia in immunocompromised and intensive care unit (ICU) patients. During host infection, P. aeruginosa upregulates the type III secretion system (T3SS), which is used to intoxicate host cells with exoenzyme (Exo) virulence factors. Of the four known Exo virulence factors (U, S, T and Y), ExoU has been shown in prior studies to associate with high mortality rates. Preclinical studies have shown that ExoY is an important edema factor in lung infection caused by P. aeruginosa , although its importance in clinical isolates of P. aeruginosa is unknown. We hypothesized that expression of ExoY would be highly prevalent in clinical isolates and would significantly contribute to patient morbidity secondary to P. aeruginosa pneumonia. A single-center, prospective observational study was conducted at the University of Alabama at Birmingham Hospital. Mechanically ventilated ICU patients with a bronchoalveolar lavage fluid culture positive for P. aeruginosa were included. Enrolled patients were followed from ICU admission to discharge and clinical P. aeruginosa isolates were genotyped for the presence of exoenzyme genes. Ninety-nine patients were enrolled in the study. ExoY was present in 93% of P. aeruginosa clinical isolates. Moreover, ExoY alone (ExoY + /ExoU - ) was present in 75% of P. aeruginosa isolates, compared to 2% ExoU alone (ExoY - /ExoU + ). We found that bacteria isolated from human samples expressed active ExoY and ExoU, and the presence of ExoY in clinical isolates was associated with end-organ dysfunction. This is the first study we are aware of that demonstrates that ExoY is important in clinical outcomes secondary to nosocomial pneumonia.

Published
2020
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49. Extracellular nucleic acid scavenging rescues rats from sulfur mustard analog-induced lung injury and mortality.

Author

Mariappan N, Husain M, Zafar I, Singh V, Smithson KG, Crowe DR, Pittet JF, Ahmad S, and Ahmad A

Subjects
Animals, Lung, Lung Injury, Male, Mustard Gas toxicity, Rats, Chemical Warfare Agents toxicity, Mustard Gas analogs & derivatives, Nucleic Acids metabolism, Toxicity Tests
Abstract

Sulfur mustard (SM) is a highly toxic war chemical that causes significant morbidity and mortality and lacks any effective therapy. Rats exposed to aerosolized CEES (2-chloroethyl ethyl sulfide; 10% in ethanol), an analog of SM, developed acute respiratory distress syndrome (ARDS), which is characterized by increased inflammation, hypoxemia and impaired gas exchange. We observed elevated levels of extracellular nucleic acids (eNA) in the bronchoalveolar lavage fluid (BALF) of CEES-exposed animals. eNA can induce inflammation, coagulation and barrier dysfunction. Treatment with hexadimethrine bromide (HDMBr; 10 mg/kg), an eNA neutralizing agent, 2 h post-exposure, reduced lung injury, inhibited disruption of alveolar-capillary barrier, improved blood oxygenation (PaO 2 /FiO 2 ratio), thus reversing ARDS symptoms. HDMBr treatment also reduced lung inflammation in the CEES-exposed animals by decreasing IL-6, IL-1A, CXCL-1 and CCL-2 mRNA levels in lung tissues and HMGB1 protein in BALF. Furthermore, HDMBr treatment also reduced levels of lung tissue factor and plasminogen activator inhibitor-1 indicating reduction in clot formation and increased fibrinolysis. Fibrin was reduced in BALF of the HDMBr-treated animals. This was further confirmed by histology that revealed diminished airway fibrin, epithelial sloughing and hyaline membrane in the lungs of HDMBr-treated animals. HDMBr completely rescued the CEES-associated mortality 12 h post-exposure when the survival rate in CEES-only group was just 50%. Experimental eNA treatment of cells caused increased inflammation that was reversed by HDMBr. These results demonstrate a role of eNA in the pathogenesis of CEES/SM-induced injury and that its neutralization can serve as a potential therapeutic approach in treating SM toxicity.

Published
2020
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50. Neuronal Wiskott-Aldrich syndrome protein regulates Pseudomonas aeruginosa-induced lung vascular permeability through the modulation of actin cytoskeletal dynamics.

Author

Che P, Wagener BM, Zhao X, Brandon AP, Evans CA, Cai GQ, Zhao R, Xu ZX, Han X, Pittet JF, and Ding Q

Subjects
Adherens Junctions metabolism, Animals, Antigens, Neoplasm metabolism, Cadherins metabolism, Cells, Cultured, Focal Adhesion Protein-Tyrosine Kinases metabolism, Humans, Integrins metabolism, Lung microbiology, Mice, Pseudomonas aeruginosa pathogenicity, Rats, Transforming Growth Factor beta metabolism, Wiskott-Aldrich Syndrome Protein genetics, beta Catenin metabolism, rho GTP-Binding Proteins metabolism, Actin Cytoskeleton metabolism, Capillary Permeability, Lung metabolism, Pneumonia metabolism, Pseudomonas Infections metabolism, Wiskott-Aldrich Syndrome Protein metabolism
Abstract

Pulmonary edema associated with increased vascular permeability is a severe complication of Pseudomonas (P.) aeruginosa-induced acute lung injury. The mechanisms underlying P aeruginosa-induced vascular permeability are not well understood. In the present study, we investigated the role of neuronal Wiskott Aldrich syndrome protein (N-WASP) in modulating P aeruginosa-induced vascular permeability. Using lung microvascular endothelial and alveolar epithelial cells, we demonstrated that N-WASP downregulation attenuated P aeruginosa-induced actin stress fiber formation and prevented paracellular permeability. P aeruginosa-induced dissociation between VE-cadherin and β-catenin, but increased association between N-WASP and VE-cadherin, suggesting a role for N-WASP in promoting P aeruginosa-induced adherens junction rupture. P aeruginosa increased N-WASP-Y256 phosphorylation, which required the activation of Rho GTPase and focal adhesion kinase. Increased N-WASP-Y256 phosphorylation promotes N-WASP and integrin αVβ6 association as well as TGF-β-mediated permeability across alveolar epithelial cells. Inhibition of N-WASP-Y256 phosphorylation by N-WASP-Y256F overexpression blocked N-WASP effects in P aeruginosa-induced actin stress fiber formation and increased paracellular permeability. In vivo, N-WASP knockdown attenuated the development of pulmonary edema and improved survival in a mouse model of P aeruginosa pneumonia. Together, our data demonstrate that N-WASP plays an essential role in P aeruginosa-induced vascular permeability and pulmonary edema through the modulation of actin cytoskeleton dynamics., (© 2020 Federation of American Societies for Experimental Biology.)

Published
2020
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