Your search keyword '"Christian J. DeVera"' showing total 5 results

1. Precision targeting of the plasminogen activator inhibitor‐1 mechanism increases efficacy of fibrinolytic therapy in empyema

Author

Galina Florova, René A. Girard, Ali O. Azghani, Krishna Sarva, Ann Buchanan, Sophia Karandashova, Christian J. DeVera, Danna Morris, Mignote Chamiso, Kathleen Koenig, Douglas B. Cines, Steven Idell, and Andrey A. Komissarov

Subjects

empyema, fibrinolytic therapy, molecular target, plasminogen activator inhibitor‐1, single chain tissue plasminogen activator, Physiology, QP1-981

Abstract

Abstract Plasminogen activator inhibitor‐1 (PAI‐1) is an endogenous irreversible inhibitor of tissue‐type (tPA) and urokinase (uPA) plasminogen activators. PAI‐1‐targeted fibrinolytic therapy (PAI‐1‐TFT) is designed to decrease the therapeutic dose of tPA and uPA, attenuating the risk of bleeding and other complications. Docking site peptide (DSP) mimics the part of the PAI‐1 reactive center loop that interacts with plasminogen activators, thereby affecting the PAI‐1 mechanism. We used DSP for PAI‐1‐TFT in two rabbit models: chemically induced pleural injury and Streptococcus pneumoniae induced empyema. These models feature different levels of inflammation and PAI‐1 expression. PAI‐1‐TFT with DSP (2.0 mg/kg) converted ineffective doses of single chain (sc) tPA (72.5 µg/kg) and scuPA (62.5 µg/kg) into effective ones in chemically induced pleural injury. DSP (2.0 mg/kg) was ineffective in S. pneumoniae empyema, where the level of PAI‐1 is an order of magnitude higher. DSP dose escalation to 8.0 mg/kg resulted in effective PAI‐1‐TFT with 0.25 mg/kg sctPA (1/8th of the effective dose of sctPA alone) in empyema. There was no increase in the efficacy of scuPA. PAI‐1‐TFT with DSP increases the efficacy of fibrinolytic therapy up to 8‐fold in chemically induced (sctPA and scuPA) and infectious (sctPA) pleural injury in rabbits. PAI‐1 is a valid molecular target in our model of S. pneumoniae empyema in rabbits, which closely recapitulates key characteristics of empyema in humans. Low‐dose PAI‐1‐TFT is a novel interventional strategy that offers the potential to improve fibrinolytic therapy for empyema in clinical practice.

Published

2021

2. Targeting the Plasminogen Activator Inhibitor 1 Mechanism for Treatment of Advanced Empyema in Rabbits

Author

Ann Buchanan, Ali Azghani, Christian J. DeVera, D.E. Morris, R. Girard, Andrey A. Komissarov, Galina Florova, Krishna Sarva, S. Idell, and Amy R. Tvinnereim

Subjects

chemistry.chemical_compound, chemistry, Mechanism (biology), Plasminogen activator inhibitor-1, Cancer research, medicine, medicine.disease, Empyema

Published

2021

3. Precision targeting of the plasminogen activator inhibitor‐1 mechanism increases efficacy of fibrinolytic therapy in empyema

Author

Steven Idell, Andrey A. Komissarov, Kathleen Koenig, Ann Buchanan, Douglas B. Cines, Ali Azghani, Krishna Sarva, Sophia Karandashova, Mignote Chamiso, D.E. Morris, R. Girard, Galina Florova, and Christian J. DeVera

Subjects

Physiology, Inflammation, Endogeny, 030204 cardiovascular system & hematology, Pharmacology, medicine.disease_cause, molecular target, Plasminogen Activators, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Therapeutic index, single chain tissue plasminogen activator, Physiology (medical), Plasminogen Activator Inhibitor 1, Streptococcus pneumoniae, medicine, Animals, QP1-981, Thrombolytic Therapy, Reactive center, Urokinase, Binding Sites, business.industry, Original Articles, medicine.disease, Effective dose (pharmacology), Empyema, respiratory tract diseases, chemistry, Plasminogen activator inhibitor-1, empyema, plasminogen activator inhibitor‐1, Female, Original Article, Rabbits, medicine.symptom, fibrinolytic therapy, business, Oligopeptides, Plasminogen activator, 030217 neurology & neurosurgery, Protein Binding, medicine.drug

Abstract

Plasminogen activator inhibitor‐1 (PAI‐1) is an endogenous irreversible inhibitor of tissue‐type (tPA) and urokinase (uPA) plasminogen activators. PAI‐1‐targeted fibrinolytic therapy (PAI‐1‐TFT) is designed to decrease the therapeutic dose of tPA and uPA, attenuating the risk of bleeding and other complications. Docking site peptide (DSP) mimics the part of the PAI‐1 reactive center loop that interacts with plasminogen activators, thereby affecting the PAI‐1 mechanism. We used DSP for PAI‐1‐TFT in two rabbit models: chemically induced pleural injury and Streptococcus pneumoniae induced empyema. These models feature different levels of inflammation and PAI‐1 expression. PAI‐1‐TFT with DSP (2.0 mg/kg) converted ineffective doses of single chain (sc) tPA (72.5 µg/kg) and scuPA (62.5 µg/kg) into effective ones in chemically induced pleural injury. DSP (2.0 mg/kg) was ineffective in S. pneumoniae empyema, where the level of PAI‐1 is an order of magnitude higher. DSP dose escalation to 8.0 mg/kg resulted in effective PAI‐1‐TFT with 0.25 mg/kg sctPA (1/8th of the effective dose of sctPA alone) in empyema. There was no increase in the efficacy of scuPA. PAI‐1‐TFT with DSP increases the efficacy of fibrinolytic therapy up to 8‐fold in chemically induced (sctPA and scuPA) and infectious (sctPA) pleural injury in rabbits. PAI‐1 is a valid molecular target in our model of S. pneumoniae empyema in rabbits, which closely recapitulates key characteristics of empyema in humans. Low‐dose PAI‐1‐TFT is a novel interventional strategy that offers the potential to improve fibrinolytic therapy for empyema in clinical practice., Empyema remains an important clinical problem with high mortality among patients 65 years and older. Targeting plasminogen activator inhibitor 1 (PAI‐1) in two rabbit models of pleural injury resulted in to up to eight‐fold increases in the efficacy of fibrinolytic therapy (decrease in dose needed for effective treatment). Low‐dose PAI‐1‐targeting fibrinolytic therapy would expand the population of patients that could benefit from treatment and improve therapeutic outcomes.

Published

2021

4. Transthoracic Ultrasonography Alone and in Combination with tPA-Loaded Echogenic Liposome (TELIP) Encapsulation Increases Efficacy of Intrapleural Fibrinolytic Therapy (IPFT) in S. Pneumoniae-Induced Empyema in Rabbits

Author

Shaoling Huang, S. Idell, Krishna Sarva, Ali Azghani, Andrey A. Komissarov, Galina Florova, Amy R. Tvinnereim, Christian J. DeVera, D.E. Morris, R. Girard, Ann Buchanan, D.D. McPherson, and M. Klegerman

Subjects

Liposome, business.industry, Medicine, Echogenicity, Fibrinolytic therapy, Ultrasonography, business, medicine.disease, Nuclear medicine, Empyema

Published

2020

5. A Novel Rabbit Hemothorax Model Amenable to the Testing of Interventional Agents to Treat Retained Hemothoraces

Author

Andrey A. Komissarov, D.E. Morris, Alan Cook, Christian J. DeVera, Ann Buchanan, Scott H. Norwood, R. Girard, S. Idell, Ali Azghani, Krishna Sarva, Amy R. Tvinnereim, and Galina Florova

Subjects

medicine.medical_specialty, business.industry, medicine, Rabbit (nuclear engineering), business, Hemothorax, medicine.disease, Surgery

Published

2020