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1. Adenosine Triphosphate Release From Influenza-Infected Lungs Enhances Neutrophil Activation and Promotes Disease Progression

Author

Ledderose, Carola, Valsami, Eleftheria-Angeliki, Elevado, Mark, and Junger, Wolfgang G

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Clinical Sciences, Pneumonia & Influenza, Vaccine Related, Infectious Diseases, Influenza, Emerging Infectious Diseases, Lung, Aetiology, 2.2 Factors relating to the physical environment, 2.1 Biological and endogenous factors, Infection, ATP release, influenza, mice, neutrophil priming and activation, purinergic signaling, Biological Sciences, Medical and Health Sciences, Microbiology, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

BackgroundATP enhances neutrophil responses, but little is known about the role of ATP in influenza infections.MethodsWe used a mouse influenza model to study if ATP release is associated with neutrophil activation and disease progression.ResultsInfluenza infection increased pulmonary ATP levels 5-fold and plasma ATP levels 3-fold over the levels in healthy mice. Adding ATP at those concentrations to blood from healthy mice primed their neutrophils and enhanced CD11b and CD63 expression, CD62L shedding, and reactive oxygen species production in response to formyl peptide receptor (FPR) stimulation. Influenza infection also primed neutrophils in vivo, resulting in FPR-induced CD11b expression and CD62L shedding up to 3-times higher than that of uninfected mice. In infected mice, large numbers of neutrophils entered the lungs. These cells were significantly more activated than peripheral neutrophils of infected and pulmonary neutrophils of healthy mice. Plasma ATP levels of infected mice and influenza disease progression corresponded with the numbers and activation level of their pulmonary neutrophils.ConclusionOur findings suggest that ATP release from the lungs of infected mice promotes influenza disease progression by priming peripheral neutrophils that become strongly activated and cause pulmonary tissue damage after their recruitment to the lungs.

Published
2023

6. Adenosine Triphosphate Release From Influenza-Infected Lungs Enhances Neutrophil Activation and Promotes Disease Progression.

Author

Ledderose, Carola, Valsami, Eleftheria-Angeliki, Elevado, Mark, and Junger, Wolfgang G

Subjects
ADENOSINE triphosphate, PEPTIDE receptors, REACTIVE oxygen species, LUNGS, PEPTIDES
Abstract

Background Adenosine triphosphate (ATP) enhances neutrophil responses, but little is known about the role of ATP in influenza infections. Methods We used a mouse influenza model to study if ATP release is associated with neutrophil activation and disease progression. Results Influenza infection increased pulmonary ATP levels 5-fold and plasma ATP levels 3-fold vs healthy mice. Adding ATP at those concentrations to blood from healthy mice primed neutrophils and enhanced CD11b and CD63 expression, CD62L shedding, and reactive oxygen species production in response to formyl peptide receptor stimulation. Influenza infection also primed neutrophils in vivo, resulting in formyl peptide receptor–induced CD11b expression and CD62L shedding up to 3 times higher than that of uninfected mice. In infected mice, large numbers of neutrophils entered the lungs. These cells were significantly more activated than the peripheral neutrophils of infected mice and pulmonary neutrophils of healthy mice. Plasma ATP levels of infected mice and influenza disease progression corresponded with the numbers and activation level of their pulmonary neutrophils. Conclusions Findings suggest that ATP release from the lungs of infected mice promotes influenza disease progression by priming peripheral neutrophils, which become strongly activated and cause pulmonary tissue damage after their recruitment to the lungs. [ABSTRACT FROM AUTHOR]

Published
2024
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7. RIG-I and TLR4 responses and adverse outcomes in pediatric influenza-related critical illness

Author

Sanders, Ronald C., Jr., Irby, Olivia K., Hefley, Glenda, Tellez, David, Typpo, Katri, Markovitz, Barry, Flori, Heidi, Cvijanovich, Natalie, Anas, Nick, Schwarz, Adam, Vargas-Shiraishi, Ofelia, Sapru, Anil, McQuillen, Patrick, Czaja, Angela, Mourani, Peter, Paden, Matthew, Tarquinio, Keiko, Stone, Cheryl L., Wardenburg, Juliane Bubeck, Pinto, Neethi, Montgomery, Vicki, Sullivan, Janice E., Randolph, Adrienne G., Agan, Anna A., Ash, Stephanie, Mistry, Anushay, Newhams, Margaret, Kurachek, Stephen C., Doctor, Allan, Hartman, Mary, Truemper, Edward, Mahapatra, Sidharth, Dawson, Machelle, Ackerman, Kate, Daugherty, L. Eugene, Nofziger, Ryan, Shein, Steve, Hall, Mark W., Steele, Lisa, Hanson-Huber, Lisa, Thomas, Neal J., Spear, Debra, Fitzgerald, Julie, Weiss, Scott, Bush, Jenny L., Graham, Kathryn, Higgerson, Renee, Christie, LeeAnn, Loftis, Laura L., Jaimon, Nancy, Gedeit, Rainer, Murkowski, Kathy, Novak, Tanya, McDonald, Douglas R., Newhams, Margaret M., Mistry, Anushay J., Panoskaltsis-Mortari, Angela, Mourani, Peter M., Weiss, Scott L., Tarquinio, Keiko M., Hartman, Mary E., and Junger, Wolfgang G.

Published
2020
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8. Negative feedback control of neuronal activity by microglia

Author

Badimon, Ana, Strasburger, Hayley J., Ayata, Pinar, Chen, Xinhong, Nair, Aditya, Ikegami, Ako, Hwang, Philip, Chan, Andrew T., Graves, Steven M., Uweru, Joseph O., Ledderose, Carola, Kutlu, Munir Gunes, Wheeler, Michael A., Kahan, Anat, Ishikawa, Masago, Wang, Ying-Chih, Loh, Yong-Hwee E., Jiang, Jean X., Surmeier, D. James, Robson, Simon C., Junger, Wolfgang G., Sebra, Robert, Calipari, Erin S., Kenny, Paul J., Eyo, Ukpong B., Colonna, Marco, Quintana, Francisco J., Wake, Hiroaki, Gradinaru, Viviana, and Schaefer, Anne

Published
2020
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11. Prehospital Hypertonic Saline Resuscitation Attenuates the Activation and Promotes Apoptosis of Neutrophils in Patients With Severe Traumatic Brain Injury

Author

Junger, Wolfgang G, Rhind, Shawn G, Rizoli, Sandro B, Cuschieri, Joseph, Baker, Andrew J, Shek, Pang N, Hoyt, David B, and Bulger, Eileen M

Subjects
Traumatic Head and Spine Injury, Physical Injury - Accidents and Adverse Effects, Brain Disorders, Traumatic Brain Injury (TBI), Neurosciences, Clinical Research, Adolescent, Adult, Apoptosis, Biomarkers, Brain Injuries, Cell Adhesion Molecules, Cell Degranulation, Dextrans, Double-Blind Method, Emergency Medical Services, Female, Fluid Therapy, Humans, Leukocyte Count, Male, Middle Aged, Neutrophil Activation, Neutrophils, Plasma Substitutes, Respiratory Burst, Resuscitation, Saline Solution, Hypertonic, Treatment Outcome, Young Adult, Hypertonic saline, resuscitation fluids, hemorrhage, neutrophils, adhesion molecules, inflammation, multi-organ failure, oxidative burst, apoptosis, Clinical Sciences, Emergency & Critical Care Medicine
Abstract

BackgroundActivation of polymorphonuclear neutrophils (PMNs) is thought to contribute to traumatic brain injury (TBI). Since hypertonic fluids can inhibit PMN activation, we studied whether hypertonic fluid resuscitation can reduce excessive PMN activation in TBI patients.MethodsTrauma patients with severe TBI were resuscitated with 250 mL of either 7.5% hypertonic saline (HS; n = 22), HS + 6% dextran-70 (HSD; n = 22), or 0.9% normal saline (NS; n = 39), and blood samples were collected on hospital admission and 12 and 24 h after resuscitation. Polymorphonuclear neutrophil activation (CD11b, CD62L, CD64) and degranulation (CD63, CD66b, CD35) markers and oxidative-burst activity, as well as spontaneous PMN apoptosis were measured by flow cytometry.ResultsRelative to healthy controls, TBI patients showed increased PMN activation and decreased apoptosis of PMNs. In the HS group, but not in the HSD group, markers of PMN adhesion (CD11b, CD64) and degranulation (CD35, CD66b) were significantly lower than those in the NS group. These effects were particularly pronounced 12 h after resuscitation. Treatment with HS and HSD inhibited PMN oxidative burst responses compared with NS-treated patients. Hypertonic saline alone partially restored delayed PMN apoptosis. Despite these differences, the groups did not differ in clinical outcome parameters such as mortality and Extended Glasgow Outcome Scale.ConclusionsThis study demonstrates that prehospital resuscitation with HS can partially restore normal PMN activity and the apoptotic behavior of PMNs, whereas resuscitation with HSD was largely ineffective. Although the results are intriguing, additional research will be required to translate these effects of HS into treatment strategies that improve clinical outcome in TBI patients.

Published
2013

13. Resuscitation of Traumatic Hemorrhagic Shock Patients With Hypertonic Saline—Without Dextran—Inhibits Neutrophil and Endothelial Cell Activation

Author

Junger, Wolfgang G, Rhind, Shawn G, Rizoli, Sandro B, Cuschieri, Joseph, Shiu, Maria Y, Baker, Andrew J, Li, Linglin, Shek, Pang N, Hoyt, David B, and Bulger, Eileen M

Subjects
Physical Injury - Accidents and Adverse Effects, 2.1 Biological and endogenous factors, Aetiology, Good Health and Well Being, Adolescent, Adult, Aged, Animals, Disease Models, Animal, Endothelial Cells, Female, Humans, Hypovolemia, Male, Middle Aged, Multiple Organ Failure, Neutrophil Activation, Neutrophils, Resuscitation, Saline Solution, Hypertonic, Shock, Hemorrhagic, Wounds and Injuries, Hypertonic saline, resuscitation fluids, hemorrhage, neutrophils, adhesion molecules, inflammation, multiorgan failure, matrix metalloproteinase, myeloperoxidase, shock, Clinical Sciences, Emergency & Critical Care Medicine
Abstract

Posttraumatic inflammation and excessive neutrophil activation cause multiple organ dysfunction syndrome (MODS), a major cause of death among hemorrhagic shock patients. Traditional resuscitation strategies may exacerbate inflammation; thus, novel fluid treatments are needed to reduce such posttraumatic complications. Hypertonic resuscitation fluids inhibit inflammation and reduce MODS in animal models. Here we studied the anti-inflammatory efficacy of hypertonic fluids in a controlled clinical trial. Trauma patients in hypovolemic shock were resuscitated in a prehospital setting with 250 mL of either 7.5% hypertonic saline (HS; n = 9), 7.5% hypertonic saline + 6% dextran 70 (HSD; n = 8), or 0.9% normal saline (NS; n = 17). Blood samples were collected on hospital admission and 12 and 24 h after resuscitation. Multicolor flow cytometry was used to quantify neutrophil expression of cell-surface activation/adhesion (CD11b, CD62L, CD64) and degranulation (CD63, CD66b, CD35) markers as well as oxidative burst activity. Circulating concentrations of soluble intercellular adhesion molecule-1 (sICAM-1), vascular cell adhesion molecule-1 (sVACM-1), P- and E-selectins, myeloperoxidase (MPO), and matrix metalloproteinase 9 (MMP-9) were assessed by immunoassay. Multiple organ dysfunction syndrome, leukocytosis, and mortality were lower in the HS and HSD groups than in the NS group. However, these differences were not statistically significant. Hypertonic saline prevented priming and activation and neutrophil oxidative burst and CD11b and CD66b expression. Hypertonic saline also reduced circulating markers of neutrophil degranulation (MPO and MMP-9) and endothelial cell activation (sICAM-1, sVCAM-1, soluble E-selectin, and soluble P-selectin). Hypertonic saline + 6% dextran 70 was less capable than HS of suppressing the upregulation of most of these activation markers. This study demonstrates that initial resuscitation with HS, but neither NS nor HSD, can attenuate posttraumatic neutrophil and endothelial cell activation in hemorrhagic shock patients. These data suggest that hypertonic resuscitation without dextran may inhibit posttraumatic inflammation. However, despite this effect, neither HS nor HSD reduced MODS in trauma patients with hemorrhagic shock.

Published
2012

16. Purinergic P2X4 receptors and mitochondrial ATP production regulate T cell migration

Author

Ledderose, Carola, Liu, Kaifeng, Kondo, Yutaka, Slubowski, Christian J., Dertnig, Thomas, Denicolo, Sara, Arbab, Mona, Hubner, Johannes, Konrad, Kirstin, Fakhari, Mahtab, Lederer, James A., Robson, Simon C., Visner, Gary A., and Junger, Wolfgang G.

Subjects
Chemokines -- Research, Transplantation -- Usage, Cell migration -- Analysis, ATP (Adenosine triphosphate) -- Analysis, Mitochondria -- Research, T cells -- Research, Health care industry
Abstract

T cells must migrate In order to encounter antigen-presenting cells (APCs) and to execute their varied functions in immune defense and inflammation. ATP release and autocrine signaling through purinergic receptors contribute to T cell activation at the immune synapse that T cells form with APCs. Here, we show that T cells also require ATP release and purinergic signaling for their migration to APCs. We found that the chemokine stromal-derived factor- 1[alpha] (SDF-1[alpha]) triggered mitochondrial ATP production, rapid bursts of ATP release, and increased migration of primary human [CD4.sup.+] T cells. This process depended on pannexin-1 ATP release channels and autocrine stimulation of P2X4 receptors. SDF-1[alpha] stimulation caused localized accumulation of mitochondria with P2X4 receptors near the front of cells, resulting in a feed-forward signaling mechanism that promotes cellular [Ca.sup.2+] influx and sustains mitochondrial ATP synthesis at levels needed for pseudopod protrusion, T cell polarization, and cell migration. Inhibition of P2X4 receptors blocked the activation and migration of T cells in vitro. In a mouse lung transplant model, P2X4 receptor antagonist treatment prevented the recruitment of T cells into allograft tissue and the rejection of lung transplants. Our findings suggest that P2X4 receptors are therapeutic targets for immunomodulation in transplantation and inflammatory diseases., Introduction T cells have important roles in host immune defense and inflammation. These involve the migration of T cells into secondary lymphoid organs where they search for matching antigens that [...]

Published
2018
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30. Adrenergic receptor activation involves ATP release and feedback through purinergic receptors

Author

Sumi, Yuka, Woehrle, Tobias, Chen, Yu, Yao, Yongli, Li, Andrew, and Junger, Wolfgang G.

Subjects
ATP synthesis -- Physiological aspects, Epinephrine -- Receptors, Epinephrine -- Physiological aspects, Biological sciences
Abstract

Formyl peptide receptor-induced chemotaxis of neutrophils depends on the release of ATP and autocrine feedback through purinergic receptors. Here, we show that adrenergic receptor signaling requires similar purinergic feedback mechanisms. Real-time RT-PCR analysis revealed that human embryonic kidney (HEK)-293 cells express several subtypes of adrenergic ([[alpha].sub.1]-, [[alpha].sub.2]-, and [beta]-receptors), adenosine (P1), and nucleotide receptors (P2). Stimulation of [G.sub.q]-coupled [[alpha].sub.1]-receptors caused release of cellular ATP and MAPK activation, which was blocked by inhibiting P2 receptors with suramin. Stimulation of [G.sub.i]-coupled [[alpha].sub.2]-receptors induced weak ATP release, while [G.sub.s]-coupled [beta]-receptors caused accumulation of extracellular ADP and adenosine. [beta]-Receptors triggered intracellular cAMP signaling, which was blocked by scavenging extracellular adenosine with adenosine deaminase or by inhibiting A2a adenosine receptors with SCH58261. These findings suggest that adrenergic receptors require purinergic receptors to elicit downstream signaling responses in HEK-293 cells. We evaluated the physiological relevance of these findings using mouse aorta tissue tings. Stimulation of [[alpha].sub.1]-receptors induced ATP release and tissue contraction, which was reduced by removing extracellular ATP with apyrase or in the absence of [P2Y.sub.2] receptors in aorta rings from [P2Y.sub.2] receptor knockout mice. We conclude that, like formyl peptide receptors, adrenergic receptors require purinergic feedback mechanisms to control complex physiological processes such as smooth muscle contraction and regulation of vascular tone. phenylephrine; isoproterenol; mitogen-activated protein kinase; adenosine 3',5'-cyclic monophosphate; [P2Y.sub.2] knockout mice doi: 10.1152/ajpcell.00122.2010.

Published
2010

31. Shockwaves increase T-cell proliferation and IL-2 expression through ATP release, P2X7 receptors, and FAK activation

Author

Yu, Tiecheng, Junger, Wolfgang G., Yuan, Changji, Jin, An, Zhao, Yi, Zheng, Xueqing, Zeng, Yanjun, and Liu, Jianguo

Subjects
T cells -- Physiological aspects, Protein kinases -- Physiological aspects, Cell proliferation -- Physiological aspects, Gene expression -- Research, Cell research, Biological sciences
Abstract

Shockwaves elicited by transient pressure disturbances are used to treat musculoskeletal disorders. Previous research has shown that shockwave treatment affects T-cell function, enhancing T-cell proliferation and IL-2 expression by activating p38 mitogen-activated protein kinase (MAPK) signaling. Here we investigated the signaling pathway by which shockwaves mediate p38 MAPK phosphorylation. We found that shockwaves at an intensity of 0.18 mJ/m[m.sup.2] induce the release of extracellular ATP from human Jurkat T-cells at least in part by affecting cell viability. ATP released into the extracellular space stimulates P2X7-type purinergic receptors that induce the activation of p38 MAPK and of focal adhesion kinase (FAK) by phosphorylation on residues Tyr397 and Tyr576/577. Elimination of released ATP with apyrase or inhibition of P2X7 receptors with the antagonists KN-62 or suramin significantly weakens FAK phosphorylation, p38 MAPK activation, IL-2 expression, and T-cell proliferation. Conversely, addition of exogenous ATP causes phosphorylation of FAK and p38 MAPK. Silencing of FAK expression also reduces these cell responses to shockwave treatment. We conclude that shockwaves enhance p38 MAPK activation, IL-2 expression, and T-cell proliferation via the release of cellular ATP and feedback mechanisms that involve P2X7 receptor activation and FAK phosphorylation. p38 mitogen-activated protein kinase; ATP; focal adhesion kinase doi:10.1152/ajpcell.00342.2009

Published
2010

33. Hypertonic saline reduces neutrophil-epithelial interactions in vitro and gut tissue damage in a mouse model of colitis

Author

Tillinger, Wolfgang, McCole, Declan F., Keely, Stephen J., Bertelsen, Lone S., Wolf, Paul L., Junger, Wolfgang G., and Barrett, Kim E.

Subjects
Colorectal diseases -- Risk factors, Colorectal diseases -- Prevention, Colorectal diseases -- Research, Gastrointestinal diseases -- Risk factors, Gastrointestinal diseases -- Prevention, Gastrointestinal diseases -- Research, Neutrophils -- Health aspects, Neutrophils -- Research, Physiologic salines -- Health aspects, Physiologic salines -- Research, Biological sciences
Abstract

Transepithelial migration of polymorphonuclear neutrophils (PMN) plays a crucial role in inflammatory conditions of the intestine, such as inflammatory bowel diseases. Hypertonic saline (HS) exerts various inhibitory effects on PMN function. We hypothesized that HS could inhibit transepithelial migration of PMN and thereby prevent inflammatory events in experimental colitis. Isolated human PMN were treated with HS (40 mM), and their transmigration across a monolayer of T84 epithelial cells was induced by N-formyl-methionyl-leucyl-phenylalanine. Monolayer disruption was assessed by monitoring changes in transepithelial conductance in an Ussing chamber. Colitis in mice was induced by oral administration of dextran sulfate sodium (DSS). Animals were treated with 4 or 8 ml/kg of 7.5% saline intraperitoneally two times daily for 7 days. Controls received equivalent volumes of normal saline (NS, n = 6) or no intraperitoneal treatment (DSS, n = 12). The severity of inflammation was evaluated based on disease activity index and histology score. HS treatment of PMN in vitro significantly reduced cell migration and the disruption of T84 mono-layers compared with untreated control cells (n = 5, P < 0.05). This effect of HS was dose dependent. HS treatment in vivo also reduced colitis-induced gut tissue damage, as indicated by an improved histology score compared with the NS and DSS groups. We conclude that HS inhibits transepithelial migration of PMN in vitro and gut tissue damage in vivo in a mouse model of colitis. Thus HS may have clinical value to reduce PMN-mediated intestinal damage. neutrophil activation; inflammatory bowel disease; hypertonic saline solution; inflammation; epithelium

Published
2008

34. A novel method using fluorescence microscopy for real-time assessment of ATP release from individual cells

Author

Corriden, Ross, Insel, Paul A., and Junger, Wolfgang G.

Subjects
Adenosine triphosphate -- Physiological aspects, Adenosine triphosphate -- Analysis, Fluorescence microscopy -- Usage, NADP (Coenzyme) -- Physiological aspects, Biological sciences
Abstract

Many cell types release ATP in response to mechanical or biochemical stimulation. The mechanisms responsible for this release, however, are not well understood and may differ among different cell types. In addition, there are numerous difficulties associated with studying the dynamics of ATP release immediately outside the cell membrane. Here, we report a new method that allows the visualization and quantification of ATP release by fluorescence microscopy. Our method utilizes a two-enzyme system that generates NADPH when ATP is present. NADPH is a fluorescent molecule that can be visualized by fluorescence microscopy using an excitation wavelength of 340 nm and an emission wavelength of 450 nm. The method is capable of detecting ATP concentrations < 1 [micro]M and has a dynamic range of up to 100 [micro]M. Using this method, we visualized and quantified ATP release from human polymorphonuclear leukocytes and Jurkat T cells. We show that upon cell stimulation, the concentrations of ATP can reach levels of up to 80 [micro]M immediately outside of the cell membrane. This new method should prove useful for the study of the mechanisms of release and functional role of ATP in various cell systems, including individual cells. purinergic signaling

Published
2007

36. Hypertonic saline enhances neutrophil elastase release through activation of P2 and A3 receptors

Author

Chen, Yu, Hashiguchi, Naoyuki, Yip, Linda, and Junger, Wolfgang G.

Subjects
Hypertonic solutions -- Usage, Inflammation -- Research, Nucleotides -- Research, Resuscitation, Biological sciences
Abstract

Hypertonic saline (HS) holds promise as a novel resuscitation fluid for the treatment of trauma patients because HS inhibits polymorphonuclear neutrophil (PMN) activation and thereby prevents host tissue damage and associated posttraumatic complications. However, depending on conditions of cell activation, HS can increase PMN degranulation, which could exacerbate tissue damage in trauma victims. The cellular mechanism by which HS increases degranulation is unknown. In the present study, we tested whether HS-induced ATP release from PMN and feedback via P1 and/or P2 receptors may be involved in the enhancement of degranulation by HS. We found that HS enhances elastase release and ERK and p38 MAPK activation when HS is added after activation of PMN with formyl peptide (fMLP) or phorbol ester (PMA). Agonists of P2 nucleotide and A3 adenosine receptors mimicked these enhancing effects of HS, whereas antagonists of A3 receptors or removal of extracellular ATP with apyrase diminished the response to HS. A1 adenosine receptor antagonists increased the enhancing effect of HS, whereas A1 receptor agonists inhibited elastase release. These data suggest that HS upregulates degranulation via ATP release and positive feedback through P2 and A3 receptors. We propose that these feedback mechanisms can serve as potential pharmacological targets to fine-tune the clinical effectiveness of HS resuscitation. resuscitation; inflammation; osmotic stimulation; nucleotide receptor signaling

Published
2006

40. Hypertonicity increases cAMP in PMN and blocks oxidative burst by PKA-dependent and -independent mechanisms

Author

Orlic, Tatjana, Loomis, William H., Shreve, Amy, Namiki, Sachiko, and Junger, Wolfgang G.

Subjects
Neutrophils -- Physiological aspects, Osmoregulation -- Physiological aspects, Protein kinases -- Physiological aspects, Biological sciences
Abstract

Hypertonic stress (HS) suppresses neutrophil (PMN) functions. We studied the underlying mechanism and found that HS rapidly ( inflammation; osmotic stimulation; signal transduction

Published
2002

44. RIG-I and TLR4 responses and adverse outcomes in pediatric influenza-related critical illness

Author

Novak, Tanya, primary, Hall, Mark W., additional, McDonald, Douglas R., additional, Newhams, Margaret M., additional, Mistry, Anushay J., additional, Panoskaltsis-Mortari, Angela, additional, Mourani, Peter M., additional, Loftis, Laura L., additional, Weiss, Scott L., additional, Tarquinio, Keiko M., additional, Markovitz, Barry, additional, Hartman, Mary E., additional, Schwarz, Adam, additional, Junger, Wolfgang G., additional, Randolph, Adrienne G., additional, Sanders, Ronald C., additional, Irby, Olivia K., additional, Hefley, Glenda, additional, Tellez, David, additional, Typpo, Katri, additional, Flori, Heidi, additional, Cvijanovich, Natalie, additional, Anas, Nick, additional, Vargas-Shiraishi, Ofelia, additional, Sapru, Anil, additional, McQuillen, Patrick, additional, Czaja, Angela, additional, Mourani, Peter, additional, Paden, Matthew, additional, Tarquinio, Keiko, additional, Stone, Cheryl L., additional, Wardenburg, Juliane Bubeck, additional, Pinto, Neethi, additional, Montgomery, Vicki, additional, Sullivan, Janice E., additional, Agan, Anna A., additional, Ash, Stephanie, additional, Mistry, Anushay, additional, Newhams, Margaret, additional, Kurachek, Stephen C., additional, Doctor, Allan, additional, Hartman, Mary, additional, Truemper, Edward, additional, Mahapatra, Sidharth, additional, Dawson, Machelle, additional, Ackerman, Kate, additional, Daugherty, L. Eugene, additional, Nofziger, Ryan, additional, Shein, Steve, additional, Steele, Lisa, additional, Hanson-Huber, Lisa, additional, Thomas, Neal J., additional, Spear, Debra, additional, Fitzgerald, Julie, additional, Weiss, Scott, additional, Bush, Jenny L., additional, Graham, Kathryn, additional, Higgerson, Renee, additional, Christie, LeeAnn, additional, Jaimon, Nancy, additional, Gedeit, Rainer, additional, and Murkowski, Kathy, additional

Published
2020
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50. Purinergic P2Y2 receptors modulate endothelial sprouting

Author

Mühleder, Severin, primary, Fuchs, Christiane, additional, Basílio, José, additional, Szwarc, Dorota, additional, Pill, Karoline, additional, Labuda, Krystyna, additional, Slezak, Paul, additional, Siehs, Christian, additional, Pröll, Johannes, additional, Priglinger, Eleni, additional, Hoffmann, Carsten, additional, Junger, Wolfgang G., additional, Redl, Heinz, additional, and Holnthoner, Wolfgang, additional

Published
2019
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