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Suppression of annexin A1 and its receptor reduces herpes simplex virus 1 lethality in mice

Li-Chiu Wang, Shang‐Rung Wu, Hui-Wen Yao, Pin Ling, Guey‐Chuen Perng, Yen‐Chi Chiu, Sheng‐Min Hsu, Shun‐Hua Chen

2022PLoS Pathogens12 citationsDOIOpen Access PDF

Abstract

Herpes simplex virus 1 (HSV-1)-induced encephalitis is the most common cause of sporadic, fatal encephalitis in humans. HSV-1 has at least 10 different envelope glycoproteins, which can promote virus infection. The ligands for most of the envelope glycoproteins and the significance of these ligands in virus-induced encephalitis remain elusive. Here, we show that glycoprotein E (gE) binds to the cellular protein, annexin A1 (Anx-A1) to enhance infection. Anx-A1 can be detected on the surface of cells permissive for HSV-1 before infection and on virions. Suppression of Anx-A1 or its receptor, formyl peptide receptor 2 (FPR2), on the cell surface and gE or Anx-A1 on HSV-1 envelopes reduced virus binding to cells. Importantly, Anx-A1 knockout, Anx-A1 knockdown, or treatments with the FPR2 antagonist reduced the mortality and tissue viral loads of infected mice. Our results show that Anx-A1 is a novel enhancing factor of HSV-1 infection. Anx-A1-deficient mice displayed no evident physiology and behavior changes. Hence, targeting Anx-A1 and FPR2 could be a promising prophylaxis or adjuvant therapy to decrease HSV-1 lethality.

Topics & Concepts

Herpes simplex virusVirusVirologyOncolytic virusEncephalitisGlycoproteinViral envelopeGene knockdownAdjuvantReceptorAnnexin A2Annexin A1Knockout mouseViral encephalitisBiologyAnnexinImmunologyCell cultureMolecular biologyBiochemistryGeneticsFlow cytometryS100 Proteins and Annexinsinterferon and immune responsesImmune Response and Inflammation
Suppression of annexin A1 and its receptor reduces herpes simplex virus 1 lethality in mice | Litcius