A 2-Gene Host Signature for Improved Accuracy of COVID-19 Diagnosis Agnostic to Viral Variants

The continued emergence of SARS-CoV-2 variants is one of several factors that may cause false-negative viral PCR test results. Such tests are also susceptible to false-positive results due to trace contamination from high viral titer samples. Host immune response markers provide an orthogonal indica...

Descripción completa

Detalles Bibliográficos
Autores principales: Albright, Jack, Mick, Eran, Sanchez-Guerrero, Estella, Kamm, Jack, Mitchell, Anthea, Detweiler, Angela M., Neff, Norma, Tsitsiklis, Alexandra, Hayakawa Serpa, Paula, Ratnasiri, Kalani, Havlir, Diane, Kistler, Amy, DeRisi, Joseph L., Pisco, Angela Oliveira, Langelier, Charles R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2022
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9948727/
https://www.ncbi.nlm.nih.gov/pubmed/36507688
http://dx.doi.org/10.1128/msystems.00671-22
_version_ 1784892839329529856
author Albright, Jack
Mick, Eran
Sanchez-Guerrero, Estella
Kamm, Jack
Mitchell, Anthea
Detweiler, Angela M.
Neff, Norma
Tsitsiklis, Alexandra
Hayakawa Serpa, Paula
Ratnasiri, Kalani
Havlir, Diane
Kistler, Amy
DeRisi, Joseph L.
Pisco, Angela Oliveira
Langelier, Charles R.
author_facet Albright, Jack
Mick, Eran
Sanchez-Guerrero, Estella
Kamm, Jack
Mitchell, Anthea
Detweiler, Angela M.
Neff, Norma
Tsitsiklis, Alexandra
Hayakawa Serpa, Paula
Ratnasiri, Kalani
Havlir, Diane
Kistler, Amy
DeRisi, Joseph L.
Pisco, Angela Oliveira
Langelier, Charles R.
author_sort Albright, Jack
collection PubMed
description The continued emergence of SARS-CoV-2 variants is one of several factors that may cause false-negative viral PCR test results. Such tests are also susceptible to false-positive results due to trace contamination from high viral titer samples. Host immune response markers provide an orthogonal indication of infection that can mitigate these concerns when combined with direct viral detection. Here, we leverage nasopharyngeal swab RNA-seq data from patients with COVID-19, other viral acute respiratory illnesses, and nonviral conditions (n = 318) to develop support vector machine classifiers that rely on a parsimonious 2-gene host signature to diagnose COVID-19. We find that optimal classifiers include an interferon-stimulated gene that is strongly induced in COVID-19 compared with nonviral conditions, such as IFI6, and a second immune-response gene that is more strongly induced in other viral infections, such as GBP5. The IFI6+GBP5 classifier achieves an area under the receiver operating characteristic curve (AUC) greater than 0.9 when evaluated on an independent RNA-seq cohort (n = 553). We further provide proof-of-concept demonstration that the classifier can be implemented in a clinically relevant RT-qPCR assay. Finally, we show that its performance is robust across common SARS-CoV-2 variants and is unaffected by cross-contamination, demonstrating its utility for improved accuracy of COVID-19 diagnostics. IMPORTANCE In this work, we study upper respiratory tract gene expression to develop and validate a 2-gene host-based COVID-19 diagnostic classifier and then demonstrate its implementation in a clinically practical qPCR assay. We find that the host classifier has utility for mitigating false-negative results, for example due to SARS-CoV-2 variants harboring mutations at primer target sites, and for mitigating false-positive viral PCR results due to laboratory cross-contamination. Both types of error carry serious consequences of either unrecognized viral transmission or unnecessary isolation and contact tracing. This work is directly relevant to the ongoing COVID-19 pandemic given the continued emergence of viral variants and the continued challenges of false-positive PCR assays. It also suggests the feasibility of pan-respiratory virus host-based diagnostics that would have value in congregate settings, such as hospitals and nursing homes, where unrecognized respiratory viral transmission is of particular concern.
format Online
Article
Text
id pubmed-9948727
institution National Center for Biotechnology Information
language English
publishDate 2022
publisher American Society for Microbiology
record_format MEDLINE/PubMed
spelling pubmed-99487272023-02-24 A 2-Gene Host Signature for Improved Accuracy of COVID-19 Diagnosis Agnostic to Viral Variants Albright, Jack Mick, Eran Sanchez-Guerrero, Estella Kamm, Jack Mitchell, Anthea Detweiler, Angela M. Neff, Norma Tsitsiklis, Alexandra Hayakawa Serpa, Paula Ratnasiri, Kalani Havlir, Diane Kistler, Amy DeRisi, Joseph L. Pisco, Angela Oliveira Langelier, Charles R. mSystems Research Article The continued emergence of SARS-CoV-2 variants is one of several factors that may cause false-negative viral PCR test results. Such tests are also susceptible to false-positive results due to trace contamination from high viral titer samples. Host immune response markers provide an orthogonal indication of infection that can mitigate these concerns when combined with direct viral detection. Here, we leverage nasopharyngeal swab RNA-seq data from patients with COVID-19, other viral acute respiratory illnesses, and nonviral conditions (n = 318) to develop support vector machine classifiers that rely on a parsimonious 2-gene host signature to diagnose COVID-19. We find that optimal classifiers include an interferon-stimulated gene that is strongly induced in COVID-19 compared with nonviral conditions, such as IFI6, and a second immune-response gene that is more strongly induced in other viral infections, such as GBP5. The IFI6+GBP5 classifier achieves an area under the receiver operating characteristic curve (AUC) greater than 0.9 when evaluated on an independent RNA-seq cohort (n = 553). We further provide proof-of-concept demonstration that the classifier can be implemented in a clinically relevant RT-qPCR assay. Finally, we show that its performance is robust across common SARS-CoV-2 variants and is unaffected by cross-contamination, demonstrating its utility for improved accuracy of COVID-19 diagnostics. IMPORTANCE In this work, we study upper respiratory tract gene expression to develop and validate a 2-gene host-based COVID-19 diagnostic classifier and then demonstrate its implementation in a clinically practical qPCR assay. We find that the host classifier has utility for mitigating false-negative results, for example due to SARS-CoV-2 variants harboring mutations at primer target sites, and for mitigating false-positive viral PCR results due to laboratory cross-contamination. Both types of error carry serious consequences of either unrecognized viral transmission or unnecessary isolation and contact tracing. This work is directly relevant to the ongoing COVID-19 pandemic given the continued emergence of viral variants and the continued challenges of false-positive PCR assays. It also suggests the feasibility of pan-respiratory virus host-based diagnostics that would have value in congregate settings, such as hospitals and nursing homes, where unrecognized respiratory viral transmission is of particular concern. American Society for Microbiology 2022-12-12 /pmc/articles/PMC9948727/ /pubmed/36507688 http://dx.doi.org/10.1128/msystems.00671-22 Text en Copyright © 2022 Albright et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Albright, Jack
Mick, Eran
Sanchez-Guerrero, Estella
Kamm, Jack
Mitchell, Anthea
Detweiler, Angela M.
Neff, Norma
Tsitsiklis, Alexandra
Hayakawa Serpa, Paula
Ratnasiri, Kalani
Havlir, Diane
Kistler, Amy
DeRisi, Joseph L.
Pisco, Angela Oliveira
Langelier, Charles R.
A 2-Gene Host Signature for Improved Accuracy of COVID-19 Diagnosis Agnostic to Viral Variants
title A 2-Gene Host Signature for Improved Accuracy of COVID-19 Diagnosis Agnostic to Viral Variants
title_full A 2-Gene Host Signature for Improved Accuracy of COVID-19 Diagnosis Agnostic to Viral Variants
title_fullStr A 2-Gene Host Signature for Improved Accuracy of COVID-19 Diagnosis Agnostic to Viral Variants
title_full_unstemmed A 2-Gene Host Signature for Improved Accuracy of COVID-19 Diagnosis Agnostic to Viral Variants
title_short A 2-Gene Host Signature for Improved Accuracy of COVID-19 Diagnosis Agnostic to Viral Variants
title_sort 2-gene host signature for improved accuracy of covid-19 diagnosis agnostic to viral variants
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9948727/
https://www.ncbi.nlm.nih.gov/pubmed/36507688
http://dx.doi.org/10.1128/msystems.00671-22
work_keys_str_mv AT albrightjack a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT mickeran a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT sanchezguerreroestella a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT kammjack a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT mitchellanthea a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT detweilerangelam a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT neffnorma a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT tsitsiklisalexandra a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT hayakawaserpapaula a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT ratnasirikalani a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT havlirdiane a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT kistleramy a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT derisijosephl a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT piscoangelaoliveira a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT langeliercharlesr a2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT albrightjack 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT mickeran 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT sanchezguerreroestella 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT kammjack 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT mitchellanthea 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT detweilerangelam 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT neffnorma 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT tsitsiklisalexandra 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT hayakawaserpapaula 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT ratnasirikalani 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT havlirdiane 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT kistleramy 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT derisijosephl 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT piscoangelaoliveira 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants
AT langeliercharlesr 2genehostsignatureforimprovedaccuracyofcovid19diagnosisagnostictoviralvariants

Ejemplares similares