Emily Feng scite author profile

As highlighted by the COVID-19 global pandemic, elderly individuals comprise the majority of cases of severe viral infection outcomes and death. A combined inability to control viral replication and exacerbated inflammatory immune activation in elderly patients causes irreparable immune-mediated tissue pathology in response to infection. Key to these responses are type I, II, and III interferons (IFNs), which are involved in inducing an antiviral response, as well as controlling and suppressing inflammation and immunopathology. IFNs support monocyte/macrophage-stimulated immune responses that clear infection and promote their immunosuppressive functions that prevent excess inflammation and immune-mediated pathology. The timing and magnitude of IFN responses to infection are critical towards their immunoregulatory functions and ability to prevent immunopathology. Aging is associated with multiple defects in the ability of macrophages and dendritic cells to produce IFNs in response to viral infection, leading to a dysregulation of inflammatory immune responses. Understanding the implications of aging on IFN-regulated inflammation will give critical insights on how to treat and prevent severe infection in vulnerable individuals. In this review, we describe the causes of impaired IFN production in aging, and the evidence to suggest that these impairments impact the regulation of the innate and adaptive immune response to infection, thereby causing disease pathology.

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CSB cooperates with SMARCAL1 to maintain telomere stability in ALT cells

Feng

Batenburg

Walker

et al. 2020

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Elevated replication stress is evident at telomeres of about 10-15% of cancer cells, which maintain their telomeres via a homologous recombination (HR)-based mechanism, referred to as alternative lengthening of telomeres (ALT). How ALT cells resolve replication stress to support their growth remains incompletely characterized. Here, we report that CSB (also known as ERCC6) promotes recruitment of HR repair proteins (MRN, BRCA1, BLM and RPA32) and POLD3 to ALT telomeres, a process that requires the ATPase activity of CSB and is controlled by ATM-and CDK2-dependent phosphorylation. Loss of CSB stimulates telomeric recruitment of MUS81 and SLX4, components of the structure-specific MUS81-EME1-SLX1-SLX4 (MUS-SLX) endonuclease complex, suggesting that CSB restricts MUS-SLX-mediated processing of stalled forks at ALT telomeres. Loss of CSB coupled with depletion of SMARCAL1, a chromatin remodeler implicated in catalyzing regression of stalled forks, synergistically promotes not only telomeric recruitment of MUS81 but also the formation of fragile telomeres, the latter of which is reported to arise from fork stalling. These results altogether suggest that CSB-mediated HR repair and SMARCAL1-mediated fork regression cooperate to prevent stalled forks from being processed into fragile telomeres in ALT cells.

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Temporal and Sex-Linked Protein Expression Dynamics in a Familial Model of Alzheimer’s Disease

Lopes¹,

Schlatzer²,

Wang³

et al. 2022

Molecular & Cellular Proteomics

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Vaginal transmission causes prolonged Zika virus shedding in the vaginal mucosa and delays systemic dissemination

et al. 2022

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Zika virus (ZIKV) has emerged as a significant health threat worldwide. Although typically mosquito-borne, recent evidence suggests that ZIKV is also a sexually transmitted virus. While persistent ZIKV infections in male reproductive tissues have been identified, little is understood regarding the outcomes of primary sexual transmission in females. We investigated how the route of infection affects vaginal ZIKV shedding and dissemination. In two mouse models, vaginal infection resulted in prolonged ZIKV shedding in the vaginal mucosa with delayed systemic infection. Furthermore, heightened vaginal inflammation did not influence ZIKV replication or dissemination, in contrast to previous studies of mosquito-borne infection. Thus, vaginal infection significantly alters ZIKV infection kinetics and must be considered when developing novel treatments.

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Immunoregulatory Functions of Interferons During Genital HSV-2 Infection

et al. 2021

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Herpes simplex virus type 2 (HSV-2) infection is one of the most prevalent sexually transmitted infections that disproportionately impacts women worldwide. Currently, there are no vaccines or curative treatments, resulting in life-long infection. The mucosal environment of the female reproductive tract (FRT) is home to a complex array of local immune defenses that must be carefully coordinated to protect against genital HSV-2 infection, while preventing excessive inflammation to prevent disease symptoms. Crucial to the defense against HSV-2 infection in the FRT are three classes of highly related and integrated cytokines, type I, II, and III interferons (IFN). These three classes of cytokines control HSV-2 infection and reduce tissue damage through a combination of directly inhibiting viral replication, as well as regulating the function of resident immune cells. In this review, we will examine how interferons are induced and their critical role in how they shape the local immune response to HSV-2 infection in the FRT.

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Emily Feng

Aging and Interferons: Impacts on Inflammation and Viral Disease Outcomes

CSB cooperates with SMARCAL1 to maintain telomere stability in ALT cells

Temporal and Sex-Linked Protein Expression Dynamics in a Familial Model of Alzheimer’s Disease

Vaginal transmission causes prolonged Zika virus shedding in the vaginal mucosa and delays systemic dissemination

Immunoregulatory Functions of Interferons During Genital HSV-2 Infection

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