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Neurodegeneration in human brain organoids infected with herpes simplex virus type 1

Authors

  • A. Rybak-Wolf
  • E. Wyler
  • I. Legnini
  • A. Loewa
  • P. Glažar
  • S.J. Kim
  • T.M. Pentimalli
  • A. Oliveras Martinez
  • B. Beyersdorf
  • A. Woehler
  • M. Landthaler
  • N. Rajewsky

Journal

  • bioRxiv

Citation

  • bioRxiv

Abstract

  • Herpes simplex virus type 1 (HSV-1) infection of the nervous system may lead to brain damage, including neurodegeneration. However, lack of suitable experimental models hinders understanding molecular mechanisms and cell-type-specific responses triggered by HSV-1. Here, we infected human brain organoids with HSV-1. Known features of HSV-1 infection such as alteration of neuronal electrophysiology and induction of antisense transcription were confirmed. Full-length mRNA-sequencing revealed aberrant 3’ end formation and poly(A)-tail lengthening. Single-cell RNA-seq and spatial transcriptomics uncovered changes in the cellular composition of the infected organoids caused by viral replication and dysregulation of molecular pathways in cell-type specific manner. Furthermore, hallmarks of early neurodegeneration were observed, namely extracellular matrix disruption, STMN2 and TARDBP/TDP43 downregulation, and upregulation of the AD-related non-coding RNA BC200/BCYRN1. These hallmarks were weaker/absent when infecting with a mutant HSV-1 control. Together, our data indicate that brain organoids serve as a powerful model to study mechanisms of HSV-1-driven neurodegeneration.


DOI

doi:10.1101/2021.03.05.434122