Abstract
Peripheral blood transcriptome is a highly promising area for biomarker development. However, transcript abundances (TA) in these cell mixture samples are confounded by proportions of the component leukocyte subpopulations. This poses a challenge to clinical applications, as the cell of origin of any change in TA is not known without prior cell separation procedure. We developed a framework to develop a cell-type informative TA biomarkers which enable determination of TA of a single cell-type (B lymphocytes) directly in cell mixture samples of peripheral blood (e.g., peripheral blood mononuclear cells, PBMC) without the need for subpopulation separation. It is applicable to a panel of genes called B cell informative genes. Then a ratio of two B cell informative genes (a target gene and a stably expressed reference gene) obtained in PBMC was used as a new biomarker to represent the target gene expression in purified B lymphocytes. This approach, which eliminates the tedious procedure of cell separation and directly determines TA of a leukocyte subpopulation in peripheral blood samples, is called the Direct LS-TA method. This method is applied to gene expression datasets collected in influenza vaccination trials as early predictive biomarkers of seroconversion. By using TNFRSF17 or TXNDC5 as the target genes and TNFRSF13C or FCRLA as the reference genes, the Direct LS-TA B cell biomarkers were determined directly in the PBMC transcriptome data and were highly correlated with TA of the corresponding target genes in purified B lymphocytes. Vaccination responders had almost a 2-fold higher Direct LS-TA biomarker level of TNFRSF17 (log 2 SMD = 0.84, 95% CI = 0.47–1.21) on day 7 after vaccination. The sensitivity of these Direct LS-TA biomarkers in the prediction of seroconversion was greater than 0.7 and area-under curves (AUC) were over 0.8 in many datasets. In this paper, we report a straightforward approach to directly estimate B lymphocyte gene expression in PBMC, which could be used in a routine clinical setting. Moreover, the method enables the practice of precision medicine in the prediction of vaccination response. More importantly, seroconversion could now be predicted as early as day 7. As the acquired immunology pathway is common to vaccination against influenza and COVID-19, these biomarkers could also be useful to predict seroconversion for the new COVID-19 vaccines.
Highlights
IntroductionVaccination by controlled exposure to an antigen or its precursor is a good strategy for prevention of full-blown infection
This article is an open access articleVaccination by controlled exposure to an antigen or its precursor is a good strategy for prevention of full-blown infection
We report a straightforward approach to directly estimate B lymphocyte gene expression in PBMC, which could be used in a routine clinical setting
Summary
Vaccination by controlled exposure to an antigen or its precursor is a good strategy for prevention of full-blown infection. In the application to vaccination research, gene expression changes in blood samples were studied in various vaccination trials towards different pathogens, including influenza, tuberculosis, hepatitis, and yellow fever [5,6,7,8]. These studies measured gene expressions in peripheral blood samples (examples include Whole blood, WB and PBMC) containing a mixture of various leukocyte subpopulations. The framework first shortlists cell-type informative genes that have the majority (>50%) of their mRNA transcripts having originated from the specified cell-type (B lymphocyte in this study) inside a given cell mixture sample (e.g., PBMC or WB). As we were interested in identifying early B lymphocyte TA biomarkers that can predict subsequent seroconversion, we explored the predictive performance of the new biomarkers
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