Sharof M. Tugizov scite author profile

Epstein-Barr virus (EBV) initially enters the body through the oropharyngeal mucosa and subsequently infects B lymphocytes through their CD21 (CR2) complement receptor. Mechanisms of EBV entry into and release from epithelial cells are poorly understood. To study EBV infection in mucosal oropharyngeal epithelial cells, we established human polarized tongue and pharyngeal epithelial cells in culture. We show that EBV enters these cells through three CD21-independent pathways: (i) by direct cell-to-cell contact of apical cell membranes with EBV-infected lymphocytes; (ii) by entry of cell-free virions through basolateral membranes, mediated in part through an interaction between beta1 or alpha5beta1 integrins and the EBV BMRF-2 protein; and (iii) after initial infection, by virus spread directly across lateral membranes to adjacent epithelial cells. Release of progeny virions from polarized cells occurs from both their apical and basolateral membranes. These data indicate that multiple approaches to prevention of epithelial infection with EBV will be necessary.

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Glycoprotein B of Human Cytomegalovirus Promotes Virion Penetration into Cells, Transmission of Infection from Cell to Cell, and Fusion of Infected Cells

Navarro

et al. 1993

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HIV is inactivated after transepithelial migration via adult oral epithelial cells but not fetal epithelial cells

et al. 2011

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Oral transmission of human immunodeficiency virus (HIV) in adult populations is rare. However, HIV spread across fetal/neonatal oropharyngeal epithelia could be important in mother-to-child transmission. Analysis of HIV transmission across polarized adult and fetal oral epithelial cells revealed that HIV transmigrates through both adult and fetal cells. However, only virions that passed through the fetal cells – and not those that passed through the adult cells – remained infectious. Analysis of expression of anti-HIV innate proteins beta-defensins 2 and 3, and secretory leukocyte protease inhibitor in adult, fetal, and infant oral epithelia showed that their expression is predominantly in the adult oral epithelium. Retention of HIV infectivity after transmigration correlated inversely with the expression of these innate proteins. Inactivation of innate proteins in adult oral keratinocytes restored HIV infectivity. These data suggest that high-level innate protein expression may contribute to the resistance of the adult oral epithelium to HIV transmission.

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HIV-associated disruption of mucosal epithelium facilitates paracellular penetration by human papillomavirus

Tugizov¹,

Herrera²,

Chin‐Hong³

et al. 2013

Virology

105

121

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The incidence of human papillomavirus (HPV)-associated epithelial lesions is substantially higher in human immunodeficiency virus (HIV)-infected individuals than in HIV-uninfected individuals. The molecular mechanisms underlying the increased risk of HPV infection in HIV-infected individuals are poorly understood. We found that HIV proteins tat and gp120 were expressed within the oral and anal mucosal epithelial microenvironment of HIV-infected individuals. Expression of HIV proteins in the mucosal epithelium was correlated with the disruption of epithelial tight junctions (TJ). Treatment of polarized oral and anal epithelial cells and tissue explants with tat and gp120 led to disruption of epithelial TJ and increased HPV pseudovirion (PsV) paracellular penetration into the epithelium. PsV entry was observed in the basal/parabasal cells, the cells in which the HPV life cycle is initiated. Our data suggest that HIV-associated TJ disruption of mucosal epithelia may potentiate HPV infection and subsequent development of HPV-associated neoplasia.

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Differential Transmission of HIV Traversing Fetal Oral/Intestinal Epithelia and Adult Oral Epithelia

Tugizov

Herrera

Veluppillai

et al. 2012

J Virol

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Sharof M. Tugizov

Epstein-Barr virus infection of polarized tongue and nasopharyngeal epithelial cells

Glycoprotein B of Human Cytomegalovirus Promotes Virion Penetration into Cells, Transmission of Infection from Cell to Cell, and Fusion of Infected Cells

HIV is inactivated after transepithelial migration via adult oral epithelial cells but not fetal epithelial cells

HIV-associated disruption of mucosal epithelium facilitates paracellular penetration by human papillomavirus

Differential Transmission of HIV Traversing Fetal Oral/Intestinal Epithelia and Adult Oral Epithelia

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