Pathogens (Jan 2024)

Heat Inactivation of Nipah Virus for Downstream Single-Cell RNA Sequencing Does Not Interfere with Sample Quality

  • Adam J. Hume,
  • Judith Olejnik,
  • Mitchell R. White,
  • Jessie Huang,
  • Jacquelyn Turcinovic,
  • Baylee Heiden,
  • Pushpinder S. Bawa,
  • Christopher J. Williams,
  • Nickolas G. Gorham,
  • Yuriy O. Alekseyev,
  • John H. Connor,
  • Darrell N. Kotton,
  • Elke Mühlberger

DOI
https://doi.org/10.3390/pathogens13010062
Journal volume & issue
Vol. 13, no. 1
p. 62

Abstract

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Single-cell RNA sequencing (scRNA-seq) technologies are instrumental to improving our understanding of virus–host interactions in cell culture infection studies and complex biological systems because they allow separating the transcriptional signatures of infected versus non-infected bystander cells. A drawback of using biosafety level (BSL) 4 pathogens is that protocols are typically developed without consideration of virus inactivation during the procedure. To ensure complete inactivation of virus-containing samples for downstream analyses, an adaptation of the workflow is needed. Focusing on a commercially available microfluidic partitioning scRNA-seq platform to prepare samples for scRNA-seq, we tested various chemical and physical components of the platform for their ability to inactivate Nipah virus (NiV), a BSL-4 pathogen that belongs to the group of nonsegmented negative-sense RNA viruses. The only step of the standard protocol that led to NiV inactivation was a 5 min incubation at 85 °C. To comply with the more stringent biosafety requirements for BSL-4-derived samples, we included an additional heat step after cDNA synthesis. This step alone was sufficient to inactivate NiV-containing samples, adding to the necessary inactivation redundancy. Importantly, the additional heat step did not affect sample quality or downstream scRNA-seq results.

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