Abstract Title

The effect of ecSOD on HMGB1 and it's role during Listeria infection

RAD Assignment Number

1404

Presenter Name

Naomi K Swanta

Abstract

Background: Listeria monocytogenes (LM) is a gram-positive, intracellular foodborne pathogen which can cause severe disease in immunocompromised individuals and is a leading cause of death from foodborne infection. During LM infection, reactive oxygen species (ROS) represent a first line of defense, which not only destroys the pathogen but can also cause collateral tissue damage. Extracellular superoxide dismutase (ecSOD) is a potent antioxidant that protects host tissue by regulating ROS concentrations. Using congenic mice that express varying levels of ecSOD, our lab has previously demonstrated that ecSOD activity decreases resistance to LM infection and pro-inflammatory cytokine production. In contrast, ecSOD enhances neutrophil recruitment to the liver during LM infection. High-mobility group box 1 protein (HMGB1) is a ROS modulated protein, which has been shown to promote neutrophil recruitment when critical cysteines are reduced but promotes pro-inflammatory responses when these residues are oxidized. We hypothesize that ecSOD activity reduces cysteine residues in HMGB1, thus enhancing neutrophil recruitment while decreasing pro-inflammatory responses during LM infection.

Purpose: The purpose of our study is to understand the effect ecSOD has on transcription, translation and post-translational modification of HMGB1. We are also studying the effect of HMGB1 on inflammatory cytokine production such as TNFa, IL-1 and IL-6 and neutrophil recruitment to infected organs during LM infection in ecSOD congenic mice.

Methods: C57BL/6 mice were infected with LM and at 3 days post infection immune cells were isolated from the spleen and bone marrow. The cells were used for rt-PCR to study HMGB1 transcription, and western blotting to study the translation of HMGB1. Furthermore, the aforementioned cells from ecSOD congenic mice were also incubated overnight with 10ng/mL of HMGB1 and supernatants were harvested to measure TNFa by ELISA.

Results: Our results indicate that LM does not have a significant effect on HMGB1 transcription and translation in the spleen and bone marrow. We also show that at 10ng/mL, HMGB1 does not enhance or induce TNFa production in spleen and bone marrow cells from ecSOD congenic mice.

Conclusions: Our results indicate that HMGB1 production is not influenced by LM infection in C57BL/6 mice. Furthermore, our data suggest that HMGB1 may not influence immune responses against LM in ecSOD congenic mice in vitro. Further studies are required to elucidate the in vivo functions of HMGB1 during LM infection.

Research Area

Immunology

Presentation Type

Poster

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The effect of ecSOD on HMGB1 and it's role during Listeria infection

Background: Listeria monocytogenes (LM) is a gram-positive, intracellular foodborne pathogen which can cause severe disease in immunocompromised individuals and is a leading cause of death from foodborne infection. During LM infection, reactive oxygen species (ROS) represent a first line of defense, which not only destroys the pathogen but can also cause collateral tissue damage. Extracellular superoxide dismutase (ecSOD) is a potent antioxidant that protects host tissue by regulating ROS concentrations. Using congenic mice that express varying levels of ecSOD, our lab has previously demonstrated that ecSOD activity decreases resistance to LM infection and pro-inflammatory cytokine production. In contrast, ecSOD enhances neutrophil recruitment to the liver during LM infection. High-mobility group box 1 protein (HMGB1) is a ROS modulated protein, which has been shown to promote neutrophil recruitment when critical cysteines are reduced but promotes pro-inflammatory responses when these residues are oxidized. We hypothesize that ecSOD activity reduces cysteine residues in HMGB1, thus enhancing neutrophil recruitment while decreasing pro-inflammatory responses during LM infection.

Purpose: The purpose of our study is to understand the effect ecSOD has on transcription, translation and post-translational modification of HMGB1. We are also studying the effect of HMGB1 on inflammatory cytokine production such as TNFa, IL-1 and IL-6 and neutrophil recruitment to infected organs during LM infection in ecSOD congenic mice.

Methods: C57BL/6 mice were infected with LM and at 3 days post infection immune cells were isolated from the spleen and bone marrow. The cells were used for rt-PCR to study HMGB1 transcription, and western blotting to study the translation of HMGB1. Furthermore, the aforementioned cells from ecSOD congenic mice were also incubated overnight with 10ng/mL of HMGB1 and supernatants were harvested to measure TNFa by ELISA.

Results: Our results indicate that LM does not have a significant effect on HMGB1 transcription and translation in the spleen and bone marrow. We also show that at 10ng/mL, HMGB1 does not enhance or induce TNFa production in spleen and bone marrow cells from ecSOD congenic mice.

Conclusions: Our results indicate that HMGB1 production is not influenced by LM infection in C57BL/6 mice. Furthermore, our data suggest that HMGB1 may not influence immune responses against LM in ecSOD congenic mice in vitro. Further studies are required to elucidate the in vivo functions of HMGB1 during LM infection.