Sepsis continues to cause significant morbidity and mortality and there is an unmet medical need to improve the care of septic patients. Previous treatments have failed due to a lack of understanding of the basic immune response. While sepsis has a high mortality, there is a wide range in the pathophysiologic response to pathogens. Last year we published a novel observation that provides significant insight into the heterogeneity of the septic response using the murine model of sepsis induced by cecal ligation and puncture (CLP). Several days pior to the induction of sepsis there is a pre-existing factor within the plasma that significantly increases sepsis mortality. This factor functions by decreasing the clearance of bacteria from the septic host. Preliminary data suggest that this plasma factor is an inhibitory immunoglobulin G, iIgG. This application will test the hypothesis that mice which die from sepsis have a pre-existing inhibitory IgG which reduces phagocyte function, resulting in decreased bacterial killing and decreased survival after sepsis. The first specific aim will determine the nature of the molecule and verify that it is an IgG. Additional experiments will define what portion of the antibody is responsible for the decreased bacterial killing. Most studies examining antibodies test the Fab binding to bacterial epitopes.
This aim examines the role of the Fc portion of the IgG in mediating the reduced bacterial killing. Previous cancer studies have shown that antibodies which clear cancer cells both recognize the cancer cells and bind to the appropriate Fc? receptors. The second specific aim will examine the mechanisms of how this inhibitory factor decreases killing of bacteria by phagocytic cells by focusing on the Fc? receptors and bacterial killing pathways. Successful completion of this grant will help to identify a potential new pathway that alters the response to sepsis. Specifically, an important element for survival from the septic insult may be determined by humoral factors present even before the onset of sepsis. Therapeutic interventions may involve a combination of blocking the inhibitory IgG and augmenting recruitment of new phagocytic cells to allow better eradication of the bacteria.

Public Health Relevance

Sepsis is a severe disease that results in significant loss of life. This project will test whether an antibody present before an animal becomes infected stops the host from effectively killing the bacteria.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Exploratory/Developmental Grants (R21)
Project #
5R21AI112887-02
Application #
8876578
Study Section
Surgery, Anesthesiology and Trauma Study Section (SAT)
Program Officer
Minnicozzi, Michael
Project Start
2014-07-01
Project End
2016-06-30
Budget Start
2015-07-01
Budget End
2016-06-30
Support Year
2
Fiscal Year
2015
Total Cost
Indirect Cost
Name
Boston University
Department
Pathology
Type
Schools of Medicine
DUNS #
604483045
City
Boston
State
MA
Country
United States
Zip Code
Mella, Juan R; Stucchi, Arthur F; Duffy, Elizabeth R et al. (2018) Neurokinin-1 Receptor Deficiency Improves Survival in Murine Polymicrobial Sepsis Through Multiple Mechanisms in Aged Mice. Shock :
Alekseyev, Yuriy O; Fazeli, Roghayeh; Yang, Shi et al. (2018) A Next-Generation Sequencing Primer-How Does It Work and What Can It Do? Acad Pathol 5:2374289518766521
Libert, Claude; Ayala, Alfred; Bauer, Michael et al. (2018) Part II: Minimum Quality Threshold in Pre-Clinical Sepsis Studies (MQTiPSS) for Types of Infections and Organ Dysfunction Endpoints. Shock :
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Bauzá, Gustavo; Remick, Daniel (2015) Caffeine Improves Heart Rate Without Improving Sepsis Survival. Shock 44:143-8

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