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17 results on '"Araujo, Claudia V."'

1. Preserving Vascular Integrity Protects Mice against Multidrug-Resistant Gram-Negative Bacterial Infection

Author

Gebremariam, Teclegiorgis, Zhang, Lina, Alkhazraji, Sondus, Gu, Yiyou, Youssef, Eman G, Tong, Zongzhong, Kish-Trier, Erik, Bajji, Ashok, de Araujo, Claudia V, Rich, Bianca, French, Samuel W, Li, Dean Y, Mueller, Alan L, Odelberg, Shannon J, Zhu, Weiquan, and Ibrahim, Ashraf S

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Clinical Sciences, Antimicrobial Resistance, Biodefense, Hematology, Rare Diseases, Pneumonia, Infectious Diseases, Pneumonia & Influenza, Lung, Sepsis, Emerging Infectious Diseases, 5.1 Pharmaceuticals, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, ADP-Ribosylation Factor 6, Acinetobacter baumannii, Animals, Anti-Bacterial Agents, Drug Resistance, Multiple, Bacterial, Gram-Negative Bacteria, Gram-Negative Bacterial Infections, Mice, Microbial Sensitivity Tests, Pseudomonas aeruginosa, Klebsiella pneumoniae, ARF6, LPS, drug resistance, sepsis, Gram-negative bacteria, lipopolysaccharide, multidrug resistance, vascular permeability, Microbiology, Pharmacology and Pharmaceutical Sciences, Medical microbiology, Pharmacology and pharmaceutical sciences
Abstract

The rise in multidrug-resistant (MDR) organisms portends a serious global threat to the health care system with nearly untreatable infectious diseases, including pneumonia and its often fatal sequelae, acute respiratory distress syndrome (ARDS) and sepsis. Gram-negative bacteria (GNB), including Acinetobacter baumannii, Pseudomonas aeruginosa, and carbapenemase-producing Klebsiella pneumoniae (CPKP), are among the World Health Organization's and National Institutes of Health's high-priority MDR pathogens for targeted development of new therapies. Here, we show that stabilizing the host's vasculature by genetic deletion or pharmacological inhibition of the small GTPase ADP-ribosylation factor 6 (ARF6) increases survival rates of mice infected with A. baumannii, P. aeruginosa, and CPKP. We show that the pharmacological inhibition of ARF6-GTP phenocopies endothelium-specific Arf6 disruption in enhancing the survival of mice with A. baumannii pneumonia, suggesting that inhibition is on target. Finally, we show that the mechanism of protection elicited by these small-molecule inhibitors acts by the restoration of vascular integrity disrupted by GNB lipopolysaccharide (LPS) activation of the TLR4/MyD88/ARNO/ARF6 pathway. By targeting the host's vasculature with small-molecule inhibitors of ARF6 activation, we circumvent microbial drug resistance and provide a potential alternative/adjunctive treatment for emerging and reemerging pathogens.

Published
2020

3. Neutrophil extracellular traps regulate ischemic stroke brain injury

Author

Denorme, Frederik, Portier, Irina, Rustad, John L., Cody, Mark J., Araujo, Claudia V. de, Hoki, Chieko, Alexander, Matthew D., Grandhi, Ramesh, Dyer, Mitchell R., Neal, Matthew D., Majersik, Jennifer J., Yost, Christian C., and Campbell, Robert A.

Subjects
Physiological aspects, Development and progression, Health aspects, Extrachromosomal DNA -- Health aspects -- Physiological aspects, Brain injuries -- Development and progression, Stroke -- Development and progression, Neutrophils -- Health aspects -- Physiological aspects, Stroke (Disease) -- Development and progression, Brain -- Injuries
Abstract

Introduction Ischemic stroke is caused by intravascular thrombus formation obstructing cerebral blood flow and affects millions of people every year. Despite improved prophylactic and therapeutic interventions, ischemic stroke is still [...], Ischemic stroke prompts a strong inflammatory response, which is associated with exacerbated outcomes. In this study, we investigated mechanistic regulators of neutrophil extracellular trap (NET) formation in stroke and whether they contribute to stroke outcomes. NET-forming neutrophils were found throughout brain tissue of ischemic stroke patients, and elevated plasma NET biomarkers correlated with worse stroke outcomes. Additionally, we observed increased plasma and platelet surface-expressed high-mobility group box 1 (HMGB1) in stroke patients. Mechanistically, platelets were identified as the critical source of HMGB1 that caused NETs in the acute phase of stroke. Depletion of platelets or platelet-specific knockout of HMGB1 significantly reduced plasma HMGB1 and NET levels after stroke, and greatly improved stroke outcomes. We subsequently investigated the therapeutic potential of neonatal NET-inhibitory factor (nNIF) in stroke. Mice treated with nNIF had smaller brain infarcts, improved long-term neurological and motor function, and enhanced survival after stroke. nNIF specifically blocked NET formation without affecting neutrophil recruitment after stroke. Importantly, nNIF also improved stroke outcomes in diabetic and aged mice and was still effective when given 1 hour after stroke onset. These results support a pathological role for NETs in ischemic stroke and warrant further investigation of nNIF for stroke therapy.

Published
2022
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5. Corrigendum: Neonatal NET-Inhibitory Factor improves survival in the cecal ligation and puncture model of polymicrobial sepsis by inhibiting neutrophil extracellular traps

Author

de Araujo, Claudia V., Denorme, Frederik, Stephens, W. Zac, Li, Qing, Cody, Mark J., Crandell, Jacob L., Petrey, Aaron C., Queisser, Kimberly A., Rustad, John L., Fulcher, James M., Evangelista, Judah L., Kay, Michael S., Schiffman, Joshua D., Campbell, Robert A., and Yost, Christian C.

Subjects
Immunology, Immunology and Allergy
Published
2023
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6. Neonatal NET-Inhibitory Factor improves survival in the cecal ligation and puncture model of polymicrobial by inhibiting neutrophil extracellular traps

Author

de Araujo, Claudia V., primary, Denorme, Frederik, additional, Stephens, W. Zac, additional, Li, Qing, additional, Cody, Mark J., additional, Crandell, Jacob L., additional, Petrey, Aaron C., additional, Queisser, Kimberly A., additional, Rustad, John L., additional, Evangelista, Judah L., additional, Kay, Michael S., additional, Schiffman, Joshua D., additional, Campbell, Robert A., additional, and Yost, Christian C., additional

Published
2023
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7. Neonatal NET-inhibitory factor and related peptides inhibit neutrophil extracellular trap formation

Author

Yos, Christian C., Schwertz, Hansjorg, Cody, Mark J., Wallace, Jared A., Campbell, Robert A., Vieira-de-Abreu, Adriana, Araujo, Claudia V., Schuber, Sebastian, Harris, Estelle S., Rowley, Jesse W., Rondina, Matthew T., Fulcher, James M., Koening, Curry L., Weyrich, Andrew S., and Zimmerman, Guy A.

Subjects
Health aspects, Newborn infants -- Health aspects, Peptides -- Health aspects, DNA binding proteins -- Health aspects, Infants (Newborn) -- Health aspects
Abstract

Introduction Formation of neutrophil extracellular traps (NETs) may be an important component in the defensive armamentarium of neutrophils (polymorphonuclear leukocytes [PMNs]) that allows them to capture, immobilize, and putatively kill [...], Neutrophil granulocytes, also called polymorphonuclear leukocytes (PMNs), extrude molecular lattices of decondensed chromatin studded with histones, granule enzymes, and antimicrobial peptides that are referred to as neutrophil extracellular traps (NETs). NETs capture and contain bacteria, viruses, and other pathogens. Nevertheless, experimental evidence indicates that NETs also cause inflammatory vascular and tissue damage, suggesting that identifying pathways that inhibit NET formation may have therapeutic implications. Here, we determined that neonatal NET-inhibitory factor (nNIF) is an inhibitor of NET formation in umbilical cord blood. In human neonatal and adult neutrophils, nNIF inhibits key terminal events in NET formation, including peptidyl arginine deiminase 4 (PAD4) activity, neutrophil nuclear histone citrullination, and nuclear decondensation. We also identified additional nNIF-related peptides (NRPs) that inhibit NET formation. nNIFs and NRPs blocked NET formation induced by pathogens, microbial toxins, and pharmacologic agonists in vitro and in mouse models of infection and systemic inflammation, and they improved mortality in murine models of systemic inflammation, which are associated with NET-induced collateral tissue injury. The identification of NRPs as neutrophil modulators that selectively interrupt NET generation at critical steps suggests their potential as therapeutic agents. Furthermore, our results indicate that nNIF may be an important regulator of NET formation in fetal and neonatal inflammation.

Published
2016
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11. Abstract 18: Targeting Neutrophil Extracellular Traps Improves Ischemic Stroke Outcomes

Author

Denorme, Frederik, primary, Portier, Irina, additional, Cody, Mark J, additional, De Araujo, Claudia V, additional, Rustad, John P, additional, Hoki, Chieko, additional, Alexander, Matthew D, additional, Grandhi, Ramesh, additional, Neal, Matthew D, additional, Majersik, Jennifer J, additional, Yost, Christian C, additional, and Campbell, Robert, additional

Published
2022
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12. Neonatal NET-Inhibitory Factor improves survival in the cecal ligation and puncture model of polymicrobial sepsis by inhibiting neutrophil extracellular traps.

Author

de Araujo, Claudia V., Denorme, Frederik, Stephens, W. Zac, Qing Li, Cody, Mark J., Crandell, Jacob L., Petrey, Aaron C., Queisser, Kimberly A., Rustad, John L., Fulcher, James M., Evangelista, Judah L., Kay, Michael S., Schiffman, Joshua D., Campbell, Robert A., and Yost, Christian C.

Abstract

Introduction: Neutrophil extracellular traps (NETs) clear pathogens but may contribute Q8 pathogenically to host inflammatory tissue damage during sepsis. Innovative therapeutic agents targeting NET formation and their potentially harmful collateral effects remain understudied. Methods: We investigated a novel therapeutic agent, neonatal NET-Inhibitory Factor (nNIF), in a mouse model of experimental sepsis – cecal ligation and puncture (CLP). We administered 2 doses of nNIF (1 mg/ kg) or its scrambled peptide control intravenously 4 and 10 hours after CLP treatment and assessed survival, peritoneal fluid and plasma NET formation using the MPO-DNA ELISA, aerobic bacterial colony forming units (CFU) using serial dilution and culture, peritoneal fluid and stool microbiomes using 16S rRNA gene sequencing, and inflammatory cytokine levels using a multiplexed cytokine array. Meropenem (25 mg/kg) treatment served as a clinically relevant treatment for infection. Results: We observed increased 6-day survival rates in nNIF (73%) and meropenem (80%) treated mice compared to controls (0%). nNIF decreased NET formation compared to controls, while meropenem did not impact NET formation. nNIF treatment led to increased peritoneal fluid and plasma bacterial CFUs consistent with loss of NET-mediated extracellular microbial killing, while nNIF treatment alone did not alter the peritoneal fluid and stool microbiomes compared to vehicle-treated CLP mice. nNIF treatment also decreased peritoneal TNF-a inflammatory cytokine levels compared to scrambled peptide control. Furthermore, adjunctive nNIF increased survival in a model of sub-optimal meropenem treatment (90% v 40%) in CLP-treated mice. Discussion: Thus, our data demonstrate that nNIF inhibits NET formation in a translationally relevant mouse model of sepsis, improves survival when given as monotherapy or as an adjuvant with antibiotics, and may play an important protective role in sepsis. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Mucosal-associated invariant T (MAIT) cells mediate protective host responses in sepsis

Author

Trivedi, Shubhanshi, primary, Labuz, Daniel, additional, Anderson, Cole P, additional, Araujo, Claudia V, additional, Blair, Antoinette, additional, Middleton, Elizabeth A, additional, Jensen, Owen, additional, Tran, Alexander, additional, Mulvey, Matthew A, additional, Campbell, Robert A, additional, Hale, J Scott, additional, Rondina, Matthew T, additional, and Leung, Daniel T, additional

Published
2020
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14. Author response: Mucosal-associated invariant T (MAIT) cells mediate protective host responses in sepsis

Author

Trivedi, Shubhanshi, primary, Labuz, Daniel, additional, Anderson, Cole P, additional, Araujo, Claudia V, additional, Blair, Antoinette, additional, Middleton, Elizabeth A, additional, Jensen, Owen, additional, Tran, Alexander, additional, Mulvey, Matthew A, additional, Campbell, Robert A, additional, Hale, J Scott, additional, Rondina, Matthew T, additional, and Leung, Daniel T, additional

Published
2020
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15. Preserving Vascular Integrity Protects Mice Against Multidrug-Resistant Gram-Negative Bacterial Infection

Author

Gebremariam, Teclegiorgis, primary, Zhang, Lina, additional, Alkhazraji, Sondus, additional, Gu, Yiyou, additional, Youssef, Eman G., additional, Tong, Zongzhong, additional, Kish-Trier, Erik, additional, de Araujo, Claudia V., additional, Rich, Bianca, additional, French, Samuel W., additional, Li, Dean Y., additional, Mueller, Alan L., additional, Odelberg, Shannon J., additional, Zhu, Weiquan, additional, and Ibrahim, Ashraf S., additional

Published
2020
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16. Neonatal NET-inhibitory factor and related peptides inhibit neutrophil extracellular trap formation

Author

Yost, Christian C., primary, Schwertz, Hansjörg, additional, Cody, Mark J., additional, Wallace, Jared A., additional, Campbell, Robert A., additional, Vieira-de-Abreu, Adriana, additional, Araujo, Claudia V., additional, Schubert, Sebastian, additional, Harris, Estelle S., additional, Rowley, Jesse W., additional, Rondina, Matthew T., additional, Fulcher, James M., additional, Koening, Curry L., additional, Weyrich, Andrew S., additional, and Zimmerman, Guy A., additional

Published
2016
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