The envelope glycoprotein I (gI) of herpes simplex virus type 1 (HSV-1) is a critical mediator of virus-induced cell-to-cell spread and cell-cell fusion. Here we report a previously unrecognized property of this molecule. In transfected cells, the HSV-1 gI was discovered to induce rod-shaped structures that were uniform in width but variable in length. Moreover, the gI within these structures was conformationally different from the typical form of gI, as a previously used antibody mAb3104 and a newly-made peptide antibody to the gI extracellular domain (ECD) (aa.110-202) both failed to stain the long rod-shaped structures, suggesting the formation of a higher-ordered form. Consistent with this observation, we found that gI could self-interact and that the rod-shaped structures failed to recognize glycoprotein E, the well-known binding partner of gI. Further analyses by deletion mutagenesis and construction of chimeric mutants between gI and gD revealed that the gI ECD is the critical determinant, whereas the transmembrane domain served merely as an anchor. The critical amino acids were subsequently mapped to proline residues 184 and 188 within a conserved PXXXP motif. Reverse genetics analyses showed that the ability to induce rod-shaped structure was not required for viral replication and spread in cell culture, but rather correlated positively with the capability of the virus to induce cell fusion in the UL24syn background. Together, this work discovered a novel feature of HSV-1 gI that may have important implications in understanding gI function in viral spread and pathogenesis.
IMPORTANCE The HSV-1 gI is required for viral cell-to-cell spread within the host, but the molecular mechanisms of how gI exactly works have remained poorly understood. Here we report a novel property of this molecule, namely induction of rod-shaped structures, which appeared to represent a higher-ordered form of gI. We further mapped the critical residues and showed that the ability of gI to induce rod-shaped structure correlated well with the capability of HSV-1 to induce cell fusion in the UL24syn background, suggesting that the two events may have an intrinsic link. Our results shed lights on the biological properties of HSV-1 gI and may have important implications in understanding the viral pathogenesis.
The HSV-1 gI is required for viral cell-to-cell spread within the host, but its behavior during infection has remained poorly defined. Along with the classic 66 kDa product, here we report a previously unrecognized, approximately 23 kDa form of gI.
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