Jason Overocker scite author profile

Jason Overocker

2Publications

13Citation Statements Received

53Citation Statements Given

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Saint Alphonsus Medical Center, Idaho State University

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Functional expression of system x_c⁻is upregulated by asbestos but not crystalline silica in murine macrophages

Pfau

Seib

Overocker

et al. 2012

Inhalation Toxicology

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Context Inhalation of asbestos or silica is associated with chronic and progressive diseases, including fibrosis, cancer, and increased risk of systemic autoimmunity. Because there is a need for treatment options for these diseases, a better understanding of their mechanistic etiologies is essential. While oxidative stress in macrophages is an early consequence of these exposures, it may also serve as a signaling mechanism involved in downstream immune dysregulation. The system xc- exchange protein is induced by oxidative stress, and exchanges equimolor levels of extracellular cystine for intracellular glutamate. Cystine is subsequently reduced to cysteine, the rate-limiting precursor for glutathione synthesis. Objective As the primary transporter responsible for cystine/glutamate exchange on macrophages, system xc- was hypothesized to be inducible in response to asbestos and silica, and to increase viability through protection from oxidative stress. Results When challenged with amphibole asbestos, but not crystalline silica, RAW 264.7 macrophages increased expression of xCT and the rate of cystine/glutamate exchange in sodium-free conditions. This upregulation was prevented with N-acetylcysteine, implicating oxidative stress. Cystine protected the macrophages from asbestos-induced oxidative stress and cell death, supporting the hypothesis that imported cystine was used for synthesis of cellular antioxidants. System xc- inhibitors, glutamate and S-4-carboxyphenylglycine ((S)-4-CPG), significantly increased oxidative stress and cell death of asbestos-treated macrophages. Conclusion System xc- plays a critical role in survival of macrophages exposed to asbestos, but not silica. These data demonstrate a very early difference in the cellular response to these silicates that may have important downstream implications in the pathologic outcome of exposure.

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MRI compatibility of silver based wound dressings

Bailey

Sammet

Overocker

et al. 2018

Burns

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Jason Overocker

Functional expression of system x_c⁻is upregulated by asbestos but not crystalline silica in murine macrophages

MRI compatibility of silver based wound dressings

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Jason Overocker

Functional expression of system xc−is upregulated by asbestos but not crystalline silica in murine macrophages

MRI compatibility of silver based wound dressings

Contact Info

Product

Resources

About

Functional expression of system x_c⁻is upregulated by asbestos but not crystalline silica in murine macrophages