Human SNORA31 variations impair cortical neuron-intrinsic immunity to HSV-1 and underlie herpes simplex encephalitis

Fabien G. Lafaille; Oliver Harschnitz; Yoon Seung Lee; Peng Zhang; Mary L. Hasek; Gaspard Kerner; Yuval Itan; Osefame Ewaleifoh; Franck Rapaport; Thomas M. Carlile; Madalina E. Carter-Timofte; Dominik Paquet; Kerry Dobbs; Bastian Zimmer; Daxing Gao; María F. Rojas-Durán; Dylan Kwart; Vimel Rattina; Michael J. Ciancanelli; Jessica L. McAlpine; Lazaro Lorenzo; Soraya Boucherit; Flore Rozenberg; Rabih Halwani; Benoît Henry; N. Amenzoui; Zobaida Alsum; Laura Marques; Joseph A. Church; Saleh Al‐Muhsen; Marc Tardieu; Ahmed Aziz Bousfiha; Søren R. Paludan; Trine H. Mogensen; Lluís Quintana‐Murci; Marc Tessier‐Lavigne; Gregory A. Smith; Luigi D. Notarangelo; Lorenz Studer; Wendy V. Gilbert; Laurent Abel; Jean‐Laurent Casanova; Shen‐Ying Zhang

doi:10.1038/s41591-019-0672-3

Human SNORA31 variations impair cortical neuron-intrinsic immunity to HSV-1 and underlie herpes simplex encephalitis

Fabien G. Lafaille(Rockefeller University), Oliver Harschnitz(Kettering University), Yoon Seung Lee(Université Paris Cité), Peng Zhang(Rockefeller University), Mary L. Hasek(Rockefeller University), Gaspard Kerner(Université Paris Cité), Yuval Itan(Rockefeller University), Osefame Ewaleifoh(Northwestern University), Franck Rapaport(Rockefeller University), Thomas M. Carlile(Biogen (United States)), Madalina E. Carter-Timofte(Aarhus University), Dominik Paquet(LMU Klinikum), Kerry Dobbs(National Institutes of Health), Bastian Zimmer(Kettering University), Daxing Gao(Rockefeller University), María F. Rojas-Durán(Yale University), Dylan Kwart(Rockefeller University), Vimel Rattina(Université Paris Cité), Michael J. Ciancanelli(Rockefeller University), Jessica L. McAlpine(Kettering University), Lazaro Lorenzo(Université Paris Cité), Soraya Boucherit(Université Paris Cité), Flore Rozenberg(Délégation Paris 5), Rabih Halwani(University of Sharjah), Benoît Henry(Sorbonne Université), N. Amenzoui(University of Hassan II Casablanca), Zobaida Alsum(King Saud University), Laura Marques(CUF Porto Hospital), Joseph A. Church(University of Southern California), Saleh Al‐Muhsen(King Saud University), Marc Tardieu, Ahmed Aziz Bousfiha(University of Hassan II Casablanca), Søren R. Paludan(Aarhus University), Trine H. Mogensen(Aarhus University), Lluís Quintana‐Murci(Centre National de la Recherche Scientifique), Marc Tessier‐Lavigne(Biogen (United States)), Gregory A. Smith(Northwestern University), Luigi D. Notarangelo(National Institutes of Health), Lorenz Studer(Kettering University), Wendy V. Gilbert(Yale University), Laurent Abel(Université Paris Cité), Jean‐Laurent Casanova(Howard Hughes Medical Institute), Shen‐Ying Zhang(Université Paris Cité)

Nature Medicine

December 1, 2019

10.1038/s41591-019-0672-3

Cited by 112Open Access

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Abstract

Herpes simplex virus-1 (HSV-1) encephalitis (HSE) is typically sporadic. Inborn errors of TLR3- and DBR1-mediated central nervous system cell-intrinsic immunity can account for forebrain and brainstem HSE, respectively. We report five unrelated patients with forebrain HSE, each heterozygous for one of four rare variants of SNORA31, encoding a small nucleolar RNA of the H/ACA class that are predicted to direct the isomerization of uridine residues to pseudouridine in small nuclear RNA and ribosomal RNA. We show that CRISPR/Cas9-introduced bi- and monoallelic SNORA31 deletions render human pluripotent stem cell (hPSC)-derived cortical neurons susceptible to HSV-1. Accordingly, SNORA31-mutated patient hPSC-derived cortical neurons are susceptible to HSV-1, like those from TLR3- or STAT1-deficient patients. Exogenous interferon (IFN)-β renders SNORA31- and TLR3- but not STAT1-mutated neurons resistant to HSV-1. Finally, transcriptome analysis of SNORA31-mutated neurons revealed normal responses to TLR3 and IFN-α/β stimulation but abnormal responses to HSV-1. Human SNORA31 thus controls central nervous system neuron-intrinsic immunity to HSV-1 by a distinctive mechanism.

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