Meganuclease targeting HSV-1 protects against herpetic keratitis: Application to corneal transplants

Abstract

Herpes simplex virus (HSV) infection is a leading cause of corneal blindness. However, keratoplasty is only rarely proposed due to the high frequency of graft failure and associated recurrences. Gene therapy of the corneal graft might provide sustained protection against HSV infection. To test that hypothesis, we designed a meganuclease specific to an HSV-1 DNA sequence coding for major capsid protein (UL19) and selected an adeno-associated virus type-2 as the vector. Meganuclease was transduced into corneas and its effect was challenged invitro, exvivo, and then invivo in a rabbit HSV-1-infection model of stromal keratitis and endotheliitis. Invivo, meganuclease exposure resulted in fewer infected stromal and endothelial cells, and protected against corneal opacification and edema. Exvivo, HSV-1 infection rates of meganuclease-treated human corneas were drastically reduced. Furthermore, genetically engineered corneas transplanted invivo into rabbit eyes protected against HSV-1 infection. This genome-editing technology targeting HSV-1 opens new opportunities to manage severe post-herpetic corneal blindness by providing infected patients with genetically protected corneal transplants.