Rachel M. Temple scite author profile

Epstein-Barr virus is a ubiquitous human herpesvirus associated with epithelial and lymphoid tumors. EBV is transmitted between human hosts in saliva and must cross the oral mucosal epithelium before infecting B lymphocytes, where it establishes a life-long infection. The latter process is well understood because it can be studied in vitro, but our knowledge of infection of epithelial cells has been limited by the inability to infect epithelial cells readily in vitro or to generate cell lines from EBV-infected epithelial tumors. Because epithelium exists as a stratified tissue in vivo, organotypic cultures may serve as a better model of EBV in epithelium than monolayer cultures. Here, we demonstrate that EBV is able to infect organotypic cultures of epithelial cells to establish a predominantly productive infection in the suprabasal layers of stratified epithelium, similar to that seen with Kaposi's-associated herpesvirus. These cells did express latency-associated proteins in addition to productive-cycle proteins, but a population of cells that exclusively expressed latency-associated viral proteins could not be detected; however, an inability to infect the basal layer would be unlike other herpesviruses examined in organotypic cultures. Furthermore, infection did not induce cellular proliferation, as it does in B cells, but instead resulted in cytopathic effects more commonly associated with productive viral replication. These data suggest that infection of epithelial cells is an integral part of viral spread, which typically does not result in the immortalization or enhanced growth of infected epithelial cells but rather in efficient production of virus.Epstein-Barr virus | epithelial | organotypic culture | productive replication A lthough the association between Epstein-Barr virus and epithelial malignancies has been known for more than three decades, the EBV life cycle within the epithelial milieu is still only poorly understood. In contrast, our broad understanding of the biology of EBV within the B-cell compartment has been facilitated by the ability of EBV to infect and immortalize primary B cells in vitro and by the ability of some EBV-positive B-cell tumors to give rise to cell lines that maintain restricted programs of latency gene expression similar to those seen in vivo. Although in primary EBV infection the entire complement of EBV latencyassociated nuclear proteins (EBNAs 1, 2, 3A, 3B, 3C, and LP) and membrane proteins (LMPs 1, 2A, and 2B) promote cellular proliferation and survival (Latency III), EBV gene expression must be progressively silenced (Latency II; EBNA1 and LMPs 1 and 2) so that the most restricted program, Latency 0 (in which EBV gene expression is believed to be completely silenced

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Mast Cells and Influenza A Virus: Association with Allergic Responses and Beyond

Graham

Temple

Obar

2015

Front. Immunol.

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Influenza A virus (IAV) is a widespread infectious agent commonly found in mammalian and avian species. In humans, IAV is a respiratory pathogen that causes seasonal infections associated with significant morbidity in young and elderly populations, and has a large economic impact. Moreover, IAV has the potential to cause both zoonotic spillover infection and global pandemics, which have significantly greater morbidity and mortality across all ages. The pathology associated with these pandemic and spillover infections appear to be the result of an excessive inflammatory response leading to severe lung damage, which likely predisposes the lungs for secondary bacterial infections. The lung is protected from pathogens by alveolar epithelial cells, endothelial cells, tissue resident alveolar macrophages, dendritic cells, and mast cells. The importance of mast cells during bacterial and parasitic infections has been extensively studied; yet, the role of these hematopoietic cells during viral infections is only beginning to emerge. Recently, it has been shown that mast cells can be directly activated in response to IAV, releasing mediators such histamine, proteases, leukotrienes, inflammatory cytokines, and antiviral chemokines, which participate in the excessive inflammatory and pathological response observed during IAV infections. In this review, we will examine the relationship between mast cells and IAV, and discuss the role of mast cells as a potential drug target during highly pathological IAV infections. Finally, we proposed an emerging role for mast cells in other viral infections associated with significant host pathology.

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Host-Derived Leukotriene B4 Is Critical for Resistance against Invasive Pulmonary Aspergillosis

et al. 2018

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Aspergillus fumigatus is a mold that causes severe pulmonary infections. Our knowledge of how immune competent hosts maintain control of fungal infections while constantly being exposed to fungi is rapidly emerging. It is known that timely neutrophil recruitment to and activation in the lungs is critical to the host defense against development of invasive pulmonary aspergillosis, but the inflammatory sequelae necessary remains to be fully defined. Here, we show that 5-Lipoxygenase (5-LO) and Leukotriene B4 (LTB4) are critical for leukocyte recruitment and resistance to pulmonary A. fumigatus challenge in a fungal-strain-dependent manner. 5-LO activity was needed in radiosensitive cells for an optimal anti-fungal response and in vivo LTB4 production was at least partially dependent on myeloid-derived hypoxia inducible factor-1α. Overall, this study reveals a role for host-derived leukotriene synthesis in innate immunity to A. fumigatus.

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Generation and Infection of Organotypic Cultures with Epstein–Barr Virus

Temple

Meyers

Sample

2016

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While numerous model systems are available to study EBV latency in B cells and have contributed greatly to our understanding of the role of these cells in the viral life cycle, models to study the EBV life cycle in epithelial cells in vitro are lacking. Epithelial cells are poorly infected in vitro, and EBV-infected cell lines have not been successfully obtained from epithelial tumors. Recently, we have demonstrated that organotypic cultures of oral keratinocytes can be used as a model to study EBV infection in the epithelial tissue. These "raft" cultures generate a stratified tissue resembling the epithelium seen in vivo with a proliferating basal layer and differentiating suprabasal layers. Here, we describe generation of EBV-infected raft cultures established from primary oral mucosal epithelial cells, which exhibit high levels of productive replication induced by differentiation, as well as methods to analyze EBV infection.

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Rachel M. Temple

Efficient replication of Epstein–Barr virus in stratified epithelium in vitro

Mast Cells and Influenza A Virus: Association with Allergic Responses and Beyond

Host-Derived Leukotriene B4 Is Critical for Resistance against Invasive Pulmonary Aspergillosis

Generation and Infection of Organotypic Cultures with Epstein–Barr Virus

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