Peter L. Jernigan scite author profile

Background: Pulmonary Staphylococcus aureus (S. aureus) infections occur early in a high percentage of cystic fibrosis (CF) patients and it is believed that these infections facilitate further colonization of CF lungs with Pseudomonas aeruginosa (P. aeruginosa). Previous studies demonstrated a marked reduction of sphingosine in tracheal and bronchial epithelial cells in CF compared to wild type mice, while ceramide is massively increased in CF mice. Methods: We investigated the effect of C18-sphingosine and C16-ceramide on S. aureus in vitro. Based on our results we performed pulmonary infections with S. aureus and tested the influence of sphingosine inhalation. Results: In vitro incubation of S. aureus with C18-sphingosine rapidly killed S. aureus, while C16-ceramide did not affect bacterial survival, but abrogated the effect of C18-sphingosine when applied together. The in vivo infection experiments revealed a high susceptibility of CF mice to pulmonary infection with S. aureus. Inhalation of C18-sphingosine rescued CF mice from pulmonary infections with different clinical S. aureus isolates, including a methicillin-resistant S. aureus (MRSA) strain. Conclusions: Our data indicate that the imbalance between ceramide and sphingosine in the CF respiratory tract prevents killing of S. aureus and causes the high susceptibility of CF mice to pulmonary S. aureus infections.

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Molecular mechanisms of erythrocyte aging

Hoehn

Jernigan

Chang

et al. 2015

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Anemia and hemorrhagic shock are leading causes of morbidity and mortality worldwide, and transfusion of human blood products is the ideal treatment for these conditions. As human erythrocytes age during storage in blood banks they undergo many biochemical and structural changes, termed the red blood cell ‘storage lesion’. Specifically, ATP and pH levels decrease as metabolic end products, oxidative stress, cytokines, and cell-free hemoglobin increase. Also, membrane proteins and lipids undergo conformational and organizational changes that result in membrane loss, viscoelastic changes and microparticle formation. As a result, transfusion of aged blood is associated with a host of adverse consequences such as decreased tissue perfusion, increased risk of infection, and increased mortality. This review summarizes current research detailing the known parts of the erythrocyte storage lesion and their physiologic consequences.

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Microparticles impact coagulation after traumatic brain injury

Midura

Jernigan

Kuethe

et al. 2015

Journal of Surgical Research

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Background The pathophysiology that drives the subacute hypercoagulable state commonly seen after traumatic brain injury (TBI) is not well understood. Alterations caused by TBI in platelet and microparticle (MP) numbers and function have been suggested as possible causes; however, the contributions of platelets and MPs are currently unknown. Materials and methods A weight-drop technique of TBI using a murine model of moderate head injury was used. Blood was collected at intervals after injury. MP enumeration and characterization were performed using Nanoparticle Tracking Analysis, and platelet counts and coagulation parameters were determined using thromboelastometry. A MP procoagulant assay was used to compare activity between injured and sham mice. Results At 24 h after injury, there were no changes in circulating platelet numbers. However, there was a decrease in platelet contribution to clot formation. In contrast, there was a decline in circulating total MP numbers. When MPs from sham mice were added to the blood from head-injured animals, there was a normalization of platelet contribution to clot formation. Conversely, when MPs from TBI mice were added to sham blood, there was a significant decrease in platelet contribution to clot formation. Notably, there was an increase in MP procoagulant activity in head-injured mice. Conclusions MPs generated after TBI likely contribute to altered coagulation after head injury and may play a key role in the development of a posttraumatic hypercoagulable state in TBI patients.

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Acid Sphingomyelinase Inhibition in Stored Erythrocytes Reduces Transfusion-Associated Lung Inflammation

Hoehn

Jernigan

Japtok

et al. 2017

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Peter L. Jernigan

Lack of Sphingosine Causes Susceptibility to Pulmonary Staphylococcus Aureus Infections in Cystic Fibrosis

Molecular mechanisms of erythrocyte aging

Microparticles impact coagulation after traumatic brain injury

Acid Sphingomyelinase Inhibition in Stored Erythrocytes Reduces Transfusion-Associated Lung Inflammation

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