Clinical Trials Logo
  1. Home
  2. Pneumonia, Bacterial
  3. NCT04007328

Sphingosine-1-phosphate and Pneumonia — SOPN

Pneumonia, Bacterial Clinical Trial

Official title:
To Assess the Role of Sphingosine-1-phosphate in the Pathobiology of Pneumonia: Generate a New Strategy for Treatment of Severe Community-acquired Pneumonia

Clinical Trial Summary

Pneumonia is a major infectious cause of death worldwide and imposes a considerable burden on healthcare resources. Sphingosine-1-phosphate (S1P) is a bioactive sphingolipid and involved in many physiological processes including immune responses and endothelial barrier integrity. In term of endothelial barrier integrity, S1P plays a crucial role in protecting lungs from pulmonary leak and lung injury. Because of the involvement in lung injury, S1P could be the potential biomarker of pneumonia. Recently, our pilot study suggested that patients with CAP have significantly higher plasma S1P levels than healthy individuals. Interestingly, our observational study also showed significantly elevated S1P level in the patients who were treated with methylprednisolone during the hospitalization. Based on the above evidence, we hypothesize that S1P plays an important role in the pathobiology of pneumonia. Moreover, S1P is not only a useful biomarker for diagnosis of CAP, but also can be an indicator for using corticosteroids adjuvant therapy.

Clinical Trial Description

Lower respiratory tract infections are the most frequent infectious cause of death worldwide[1] and impose a considerable burden on healthcare resources. Sphingosine-1-phosphate (S1P) is a bioactive sphingolipid and has both extracellular and intracellular effects in mammalian cells[2-5]. S1P is involved in many physiological processes including immune responses and endothelial barrier integrity[6-9]. In the context of endothelial barrier integrity, S1P plays a crucial role in protecting the lungs from the pulmonary leak and lung injury. [10-13] Previous research suggests that, at low concentrations, S1P signaling through S1PR1 is crucial for enhancing endothelial barrier function. [13,14] The S1P induces actin polymerization and results in the spreading of endothelial cells, which fill the intercellular gaps. Also, the S1P signaling can stabilize the endothelial cell-cell junctions, such as adherens junction and tight junction. [15-17] Both actin-dependent outward spreading of endothelial cells and cell junction stabilization enhance the endothelial barrier function. However, S1P at higher concentration (> 5 µM) causes endothelial barrier disruption through binding of S1PR2[13]. Thus, exact maintenance of physiologic S1P concentrations and homeostasis of S1PRs and S1P synthesis and degradation seem to be crucial for the preservation of lung endothelial barrier integrity, particularly in inflammatory lung diseases.

Because of the involvement in lung injury and endothelial barrier function, S1P may be a potential biomarker of pneumonia. Moreover, a recent study proposed that targeting the S1P/S1P receptor 2-signaling pathway in the lung may provide a novel therapeutic perspective in pneumonia for the prevention of acute lung injury [18]. Recently, our pilot study suggests that the patients with CAP (N= 137) have significantly higher plasma S1P levels than controls (N= 78). Further, the S1P levels, but not CRP, were found to be inversely correlated with PSI score, CURB-65 score and hospital length of stay (LOS) in patients with CAP. Our initial findings suggest that plasma S1P is a potential biomarker for predicting prognosis in CAP.

Although corticosteroids adjuvant therapy for CAP is still controversial, a recent meta-analysis study showed that corticosteroids adjuvant therapy in patients with the severe CAP could reduce the rate of in-hospital mortality and reduce the length of hospital stay[19]. Recently, the long-standing dogma of cytokine repression by the glucocorticoid was challenged. Vettorazzi et al. proposed a new mechanism of glucocorticoid action. They suggested that increased circulating sphingosine 1-phosphate levels resulting from the induction of sphingosine kinase 1 (SphK1) by glucocorticoids were essential for the inhibition of pulmonary inflammation[20]. Interestingly, our observational study also showed significantly elevated S1P levels in patients who were treated with methylprednisolone during hospitalization.

Several studies have suggested that S1P can enhance pulmonary endothelial cell barrier function, suggesting that higher S1P levels could be potentially beneficial. Hence, the patients, who are unable to produce sufficient S1P, might have a poor prognosis. However, in most of the studies, CAP was not considered as a disease model, and those results were based on cell lines and mouse models. Therefore, further clinical studies focusing on the role of S1P in the pathophysiology of pneumonia is needed. ;

Study Design

Related Conditions & MeSH terms

Clinical Trial Details
NCT number NCT04007328
Study type Interventional
Source Taipei Medical University WanFang Hospital
Contact Shih-Chang Hsu, MD
Phone 0982770936
Email 1980bradhsu@gmail.com
Status Recruiting
Phase Phase 2/Phase 3
Start date June 15, 2019
Completion date November 2025
View Details
See also
  Status Clinical Trial Phase
Completed NCT03303976 - Phase I to Test a New Pneumococcal Vaccine Phase 1
Completed NCT02459158 - A Study to Assess the Pharmacokinetic Profile, the Safety, and the Tolerability of ME1100 Inhalation Solution in Patients With Mechanically Ventilated Bacterial Pneumonia Phase 1
Completed NCT06113432 - CPAP Therapy Through a Helmet or a Full Face Mask in Patients With Acute Hypoxemic Respiratory Failure: Cross-over Study N/A
Active, not recruiting NCT03577964 - Development of Pneumonia Due to Alveolar Glucose Levels in Systemic Hyperglycemia
Completed NCT04540081 - Enhancing Electronic Health Systems to Decrease the Burden of Colon Cancer, Lung Cancer, Obesity, Vaccine-Preventable Illness, and LivER Cancer N/A
Completed NCT00538694 - Comparative Study of Cidecin™ (Daptomycin) to Rocephin® (Ceftriaxone) in the Treatment of Moderate to Severe Community-Acquired Acute Bacterial Pneumonia Phase 3
Withdrawn NCT02218359 - Aerosolized Amikacin and Fosfomycin in Mechanically Ventilated Patients With Gram-negative and / or Gram-positive Bacterial Colonization Phase 2
Completed NCT01189487 - The Study of Unasyn-S 12g/Day for Community Acquired Pneumonia (CAP) Phase 3
Completed NCT00515034 - A Safety and Tolerability Study of Doripenem in Patients With Abdominal Infections or Pneumonia Phase 2
Withdrawn NCT00245453 - Outpatient Registry Trial of Respiratory Tract Infections in Adults Phase 4
Completed NCT03239665 - Vaccination Education Through Pharmacists and Senior Centers (VEPSC) N/A
Completed NCT03034642 - Modulation of Steroid Immunosuppression by Alveolar Efferocytosis N/A
Completed NCT04047719 - Pneumonia in the ImmunoCompromised - Use of the Karius Test for the Detection of Undiagnosed Pathogens
Completed NCT02292498 - Thermal Imaging to Diagnose and Monitor Suspected Bacterial Infections N/A
Completed NCT01763008 - A Study of the Safety and Effectiveness of Doripenem in Filipino Patients With Nosocomial Pneumonia, Complicated Intra-Abdominal Infections and Complicated Urinary Tract Infections Phase 4
Recruiting NCT05976581 - Using Probability of Community-Acquired Pneumonia to Tailor Antimicrobials Among Inpatients N/A
Completed NCT03551210 - Efficacy and Safety of Nemonoxacin vs Levofloxacin in Adult Patients With Community-Acquired Pneumonia Phase 3
Completed NCT04158804 - PROcalcitonin Impact on Antibiotic Reduction, adverSe Events and AVoidable healthcarE Costs (ProSAVE): A RCT N/A
Completed NCT00805168 - Inhaled Amikacin Solution (BAY 41-6551) as Adjunctive Therapy in the Treatment of Gram-Negative Pneumonia Phase 3
Completed NCT02778672 - Thermal Imaging of the Lung on a Smartphone to Differentiate Bacterial From Non Bacterial Causes of Pneumonia N/A