Sunny C. Yung scite author profile

Chemokines are best known for their classic leukocyte chemotactic activity, which is critical for directing the immune response to sites of infection and injury. However, recent studies have suggested that at least some chemokines may also interfere with infectious agents directly. Antimicrobial chemokines tend to contain amphipathic alpha helical secondary structure, and broad-spectrum activity against both Gram-positive and Gram negative bacteria, as well as fungi. Conversely, several bacteria have been identified that possess mechanisms for specifically blocking the antimicrobial activities of chemokines. Although the precise mechanisms by which chemokines and microbes disarm one another in vitro remain unknown, there is now emerging evidence in vivo that such interactions may be biologically significant. More research will be needed to determine whether chemokines with direct antimicrobial activity may be translated into a novel class of antibiotics.

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Analysis of apicoplast targeting and transit peptide processing in Toxoplasma gondii by deletional and insertional mutagenesis

Yung

Unnasch

Lang‐Unnasch

2001

Molecular and Biochemical Parasitology

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The Loss of RGS Protein-Gα_i2 Interactions Results in Markedly Impaired Mouse Neutrophil Trafficking to Inflammatory Sites

Cho

Kamenyeva

Yung

et al. 2012

Molecular and Cellular Biology

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c Neutrophils are first responders rapidly mobilized to inflammatory sites by a tightly regulated, nonredundant hierarchy of chemoattractants. These chemoattractants engage neutrophil cell surface receptors triggering heterotrimeric G-protein G␣ i subunits to exchange GDP for GTP. By limiting the duration that G␣ i subunits remain GTP bound, RGS proteins modulate chemoattractant receptor signaling. Here, we show that neutrophils with a genomic knock in of a mutation that disables regulator of G-protein signaling (RGS)-G␣ i2 interactions accumulate in the bone marrow and mobilize poorly to inflammatory sites. These defects are attributable to enhanced sensitivity to background signals, prolonged chemoattractant receptor signaling, and inappropriate CXCR2 downregulation. Intravital imaging revealed a failure of the mutant neutrophils to accumulate at and stabilize sites of sterile inflammation. Furthermore, these mice could not control a nonlethal Staphylococcus aureus infection. Neutrophil RGS proteins establish a threshold for G␣ i activation, helping to coordinate desensitization mechanisms. Their loss renders neutrophils functionally incompetent.

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Sunny C. Yung

Antimicrobial Chemokines

Analysis of apicoplast targeting and transit peptide processing in Toxoplasma gondii by deletional and insertional mutagenesis

The Loss of RGS Protein-Gα_i2 Interactions Results in Markedly Impaired Mouse Neutrophil Trafficking to Inflammatory Sites

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Sunny C. Yung

Antimicrobial Chemokines

Analysis of apicoplast targeting and transit peptide processing in Toxoplasma gondii by deletional and insertional mutagenesis

The Loss of RGS Protein-Gαi2 Interactions Results in Markedly Impaired Mouse Neutrophil Trafficking to Inflammatory Sites

Contact Info

Product

Resources

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The Loss of RGS Protein-Gα_i2 Interactions Results in Markedly Impaired Mouse Neutrophil Trafficking to Inflammatory Sites