Hunting for Epstein-Barr Virus epithelial receptors - looking for a needle in a haystack

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Jan 01, 2018
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The corresponding Nature Microbiology paper is here: http://go.nature.com/2lKfRDV

The following authors of the paper contributed to writing this blog: Dr. Jia Chen and Dr. Richard Longnecker.

Epstein-Barr virus (EBV) entry is a complex process requiring the cooperation of multiple glycoproteins and cell surface receptors ultimately resulting in fusion of the virion envelope either by direct fusion with the plasma membrane or following endocytosis. Four viral-membrane-associated proteins have been determined as the minimal glycoproteins for B cell entry using virus free cell-cell fusion. These are glycoprotein 42 (gp42), gH, gL, and gB. gp42 is the tropism determinant required only for B cell fusion and inhibits epithelial cell fusion, indicating different infection mechanisms for these two cell types. The mechanism of EBV entry into B cells has been well characterized.  However, the mechanism for epithelial cell entry remains elusive.

To investigate the epithelial cell entry complex, as we recently did for the B cell entry complex in which HLA class II is the receptor, we first wanted to verify the receptor used for epithelial cell entry. However, we found that the previously published EBV epithelial receptors (αvβ5, αvβ6, and, αvβ8) are not essential for EBV fusion by deleting the integrin subunit av using Crispr-Cas9.  These findings compelled us to search for alternative functional epithelial receptors for EBV.

Viral receptor identification is a challenging task and we decided to take a novel more rapid approach using readily available RNA-seq databases to identify potential epithelial cell receptors. We ranked potential receptors by determining the ratio of membrane protein RNAs that only expressed in permissive epithelial cells to that of B cells which are non-permissive for epithelial fusion from high to low.  In doing this analysis, we found EphA2 was ranked as the No. 1 candidate. EphA2 is also the receptor for Kaposi's sarcoma-associated herpesvirus (KSHV), another human gammaherpesvirus.  Sometimes the answer is in front of you but you do not realize it!

We confirmed the function of EphA2 by overexpression of EphA2 which significantly increased EBV infection of weakly permissive cells as well as infection by an EBV reporter virus.  Knock down or knock out of the EphA2 or the use of anti-EphA2 blocking antibodies rendered cells highly resistant to EBV infection or fusion. Rescue of the infection or fusion in EphA2 knock out cells was readily observed with overexpression of EphA2 but not EphA4. Using label-free Surface Plasmon Resonance (SPR) binding studies, we confirmed that EphA2 but not EphA4 specifically bound to EBV gHgL and this interaction is through the EphA2 extracellular domain. The discovery of EphA2 as an EBV epithelial cell receptor has important implications for EBV pathogenesis and may uncover new potential targets that can be used for the development of novel interventional strategies but more importantly we can now assemble the EBV epithelial cell entry complex.


Go to the profile of Jia Chen

Jia Chen

Research Assistant Professor at Northwestern University, Northwestern University

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