Enabling methanol fixation of pediatric nasal wash during respiratory illness for single cell sequencing in comparison with fresh samples.

Pediatr Res

Environmental Influences on Health and Disease Group, Sanford Research, Sioux Falls, SD, USA.

Published: February 2024

Background: Lower respiratory tract infection (LRTI) including pneumonia, bronchitis, and bronchiolitis is the sixth leading cause of mortality around the world and leading cause of death in children under 5 years. Systemic immune response to viral infection is well characterized. However, there is little data regarding the immune response at the upper respiratory tract mucosa. The upper respiratory mucosa is the site of viral entry, initial replication and the first barrier against respiratory infections. Lower respiratory tract samples can be challenging to obtain and require more invasive procedures. However, nasal wash (NW) samples from the upper respiratory tract can be obtained with minimal discomfort to the patient.

Method: In a pilot study, we developed a protocol using NW samples obtained from hospitalized children with LRTI that enables single cell RNA sequencing (scRNA-seq) after the NW sample is methanol-fixed.

Results: We found no significant changes in scRNA-seq qualitative and quantitative parameters between methanol-fixed and fresh NW samples.

Conclusions: We present a novel protocol to enable scRNA-seq in NW samples from children admitted with LRTI. With the inherent challenges associated with clinical samples, the protocol described allows for processing flexibility as well as multicenter collaboration.

Impact: There are no significant differences in scRNA-seq qualitative and quantitative parameters between methanol fixed and fresh Pediatric Nasal wash samples. The study demonstrates the effectiveness of methanol fixation process on preserving respiratory samples for single cell sequencing. This enables Pediatric Nasal wash specimen for single cell RNA sequencing in pediatric patients with respiratory tract infection and allows processing flexibility and multicenter collaboration.

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Source
http://dx.doi.org/10.1038/s41390-023-02780-2DOI Listing

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