Cynthia M. Cave scite author profile

Leukocyte function can be modulated through the cannabinoid receptor 2 (CB2R). Using a cecal ligation and puncture (CLP) model of sepsis, we examined the role of the CB2R during the immune response to an overwhelming infection. CB2R-knock out (KO) mice showed decreased survival as compared with wild-type mice. CB2R-KO mice also had increased serum IL-6 and bacteremia. Twenty-four hours after CLP, the CB2R-deficient mice had increased lung injury. Additionally, CB2R-deficiency led to increased neutrophil recruitment, decreased neutrophil activation, and decreased p38 activity at the site of infection. Consistent with a novel role for CB2R in sepsis, CB2R-agonist treatment in wild-type mice increased the mean survival time in response to CLP. Treatment with CB2R-agonist also decreased serum IL-6 levels, bacteremia, and damage to the lungs compared with vehicle-treated mice. Finally, the CB2R agonist decreased neutrophil recruitment, while increasing neutrophil activation and p38 activity at the site of infection compared with vehicle-treated mice. These data suggest that CB2R is a critical regulator of the immune response to sepsis and may be a novel therapeutic target.

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Alterations in Membrane Cholesterol Cause Mobilization of Lipid Rafts From Specific Granules and Prime Human Neutrophils for Enhanced Adherence-Dependent Oxidant Production

Solomkin

Robinson

Cave

et al. 2007

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The present study sought to examine the function of membrane lipid rafts in adherence-dependent oxidant production in human neutrophils. Rafts are membrane domains that are rich in glycosphingolipids and cholesterol and are thought to be the foci for formation of signaling complexes in a variety of cells. Disruption of lipid rafts by depletion of membrane cholesterol with the chelating agent methyl-beta-cyclodextrin (MbetaCD) has been widely used to examine the function of lipid rafts. Here, we report that treatment of human neutrophils with MbetaCD unexpectedly caused priming of these cells, manifested as enhanced adherence-dependent oxidant production. Treatment of neutrophils with MbetaCD dose-dependently increased oxidant production after adhesion to fibronectin-coated plates. This priming effect was associated with recruitment of CD11b- and CD66b-rich raft domains from the specific granules, as determined by immunoblot and flow cytometry. Confocal microscopy showed that MbetaCD caused otherwise untreated neutrophils to rapidly adhere and spread on fibronectin-coated plates. Furthermore, three-dimensional reconstruction microscopy studies showed that MbetaCD caused expansion and coalescence of raft domains that covered most of the cell surface. These large raft domains expressed CD11b primarily in the core of these regions. Our studies demonstrate that cholesterol depletion with MbetaCD results in neutrophil priming manifested as enhanced adherence-dependent oxidant production. These studies caution against assumption that any observed MbetaCD effects are a function of reduced raft formation.

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Mononuclear Cell Line THP-1 Internalizes Bactericidal/Permeability-Increasing Protein by a Non—Receptor-Mediated Mechanism Consistent With Pinocytosis

Burnett

Lyden²,

Tindal³

et al. 1996

Arch Surg

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Regulation of TNF-α Receptor Expression on Human Neutrophils by Various Cell Activating Factors

Solomkin

Tindal

Cave

et al. 1994

Journal of Surgical Research

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A Review: Neutrophils, Compartmentalized Cytokine Release, and Lung Injury

Solomkin¹,

Burnett²,

Cave³

et al.

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Cynthia M. Cave

The Cannabinoid Receptor 2 Is Critical for the Host Response to Sepsis

Alterations in Membrane Cholesterol Cause Mobilization of Lipid Rafts From Specific Granules and Prime Human Neutrophils for Enhanced Adherence-Dependent Oxidant Production

Mononuclear Cell Line THP-1 Internalizes Bactericidal/Permeability-Increasing Protein by a Non—Receptor-Mediated Mechanism Consistent With Pinocytosis

Regulation of TNF-α Receptor Expression on Human Neutrophils by Various Cell Activating Factors

A Review: Neutrophils, Compartmentalized Cytokine Release, and Lung Injury

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