A. A. Uitenbroek scite author profile

Enterococcus faecalis is a Gram-positive bacterium that is a major cause of hospital-acquired infections due, in part, to its intrinsic resistance to cell wall-active antimicrobials. One critical determinant of this resistance is the transmembrane kinase IreK, which belongs to the penicillin-binding protein and serine/threonine kinase-associated kinase family of bacterial signaling proteins involved with the regulation of cell wall homeostasis. The activity of IreK is enhanced in response to cell wall stress, but direct substrates of IreK phosphorylation, leading to antimicrobial resistance, are largely unknown. To better understand stress-modulated phosphorylation events contributing to antimicrobial resistance, wild type E. faecalis cells treated with cell wall-active antimicrobials, chlorhexidine or ceftriaxone, were examined via phosphoproteomics. Among the most prominent changes was increased phosphorylation of divisome components after both treatments, suggesting that E. faecalis modulates cell division in response to cell wall stress. Phosphorylation mediated by IreK was then determined via a similar analysis with a E. faecalis ΔireK mutant strain, revealing potential IreK substrates involved with the regulation of peptidoglycan biosynthesis and within the E. faecalis CroS/R two-component system, another signal transduction pathway that promotes antimicrobial resistance. These results reveal critical insights into the biological functions of IreK.

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B Cell-Intrinsic Expression of Interferon Regulatory Factor 1 Supports Chronic Murine Gammaherpesvirus 68 Infection

Jondle

Johnson

Uitenbroek

et al. 2020

J Virol

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Gammaherpesviruses are ubiquitous pathogens that are associated with cancers, including B cell lymphomas. These viruses are unique in that they infect naive B cells and subsequently drive a robust polyclonal germinal center response in order to amplify the latent reservoir and to establish lifelong infection in memory B cells. The gammaherpesvirus-driven germinal center response in combination with robust infection of germinal center B cells is thought to precipitate lymphomagenesis. Importantly, host and viral factors that selectively affect the gammaherpesvirus-driven germinal center response remain poorly understood. Global deficiency of antiviral tumor-suppressive interferon regulatory factor 1 (IRF-1) selectively promotes the murine gammaherpesvirus 68 (MHV68)-driven germinal center response and expansion of the viral latent reservoir. To determine the extent to which antiviral effects of IRF-1 are B cell intrinsic, we generated mice with conditional IRF-1 deficiency. Surprisingly, B cell-specific IRF-1 deficiency attenuated the establishment of chronic infection and the germinal center response, indicating that MHV68 may, in a B cell-intrinsic manner, usurp IRF-1 to promote the germinal center response and expansion of the latent reservoir. Further, we found that B cell-specific IRF-1 deficiency led to reduced levels of active tyrosine phosphatase SHP1, which plays a B cell-intrinsic proviral function during MHV68 infection. Finally, results of this study indicate that the antiviral functions of IRF-1 unveiled in MHV68-infected mice with global IRF-1 deficiency are mediated via IRF-1 expression by non-B cell populations. IMPORTANCE Gammaherpesviruses establish lifelong infection in over 95% of all adults and are associated with B cell lymphomas. The virus’s manipulation of the germinal center response and B cell differentiation to establish lifelong infection is thought to also precipitate malignant transformation, through a mechanism that remains poorly understood. The host transcription factor IRF-1, a well-established tumor suppressor, selectively attenuates MHV68-driven germinal center response, a phenotype that we originally hypothesized to occur in a B cell-intrinsic manner. In contrast, in testing, B cell-intrinsic IRF-1 expression promoted the MHV68-driven germinal center response and the establishment of chronic infection. Our report highlights the underappreciated multifaceted role of IRF-1 in MHV68 infection and pathogenesis.

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B cell-intrinsic expression of Interferon Regulatory Factor 1 supports chronic gammaherpesvirus infection

Jondle

Johnson

Uitenbroek

et al. 2020

View full text Add to dashboard Cite

Gammaherpesviruses are ubiquitous pathogens that are associated with multiple cancers, including B cell lymphomas. These viruses infect naïve B cells and drive a robust germinal center response to amplify the latent viral reservoir and establish life-long infection in memory B cells. It is the increase in mutagenic B cell differentiation caused by the robust gammaherpesvirus-driven germinal center response which is thought to be the primary cause of malignant transformation in viral-driven lymphomagenesis. The host and viral factors that selectively impact gammaherpesvirus-driven germinal center response are poorly defined. We found that global deficiency of the antiviral and tumor suppressive Interferon Regulatory Factor 1 (IRF-1) selectively promotes the gammaherpesvirus-driven germinal center response and expansion of the viral latent reservoir. To establish the degree to which the antiviral effects of IRF-1 are B cell-intrinsic, we generated mice with conditional deficiency of IRF-1. Unexpectedly, IRF-1 B cell-intrinsic function supports the establishment of chronic viral infection and the gammaherpesvirus-driven germinal center response. Indicating that the antiviral function of IRF-1 during gammaherpesvirus infection is mediated though its expression in non-B cell populations.

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A. A. Uitenbroek

IreK-Mediated, Cell Wall-Protective Phosphorylation in Enterococcus faecalis

B Cell-Intrinsic Expression of Interferon Regulatory Factor 1 Supports Chronic Murine Gammaherpesvirus 68 Infection

B cell-intrinsic expression of Interferon Regulatory Factor 1 supports chronic gammaherpesvirus infection

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