Isolation of RNA from whole saliva, a non-invasive and easily accessible biofluid that is an attractive alternative to blood for high-throughput biodosimetry of radiological/nuclear victims might be of clinical significance for prediction and diagnosis of disease. In a previous analysis of 12 human samples we identified two challenges to measuring gene expression from total RNA: (1) the fraction of human RNA in whole saliva was low and (2) the bacterial contamination was overwhelming. To overcome these challenges, we performed selective cDNA synthesis for human RNA species only by employing poly(A)+-tail primers followed by qRT-PCR. In the current study, this approach was independently validated on 91 samples from 61 healthy donors. Additionally, we used the ratio of human to bacterial RNA to adjust the input RNA to include equal amounts of human RNA across all samples before cDNA synthesis, which then ensured comparable analysis using the same base human input material. Furthermore, we examined relative levels of ten known housekeeping genes, and assessed inter- and intra-individual differences in 61 salivary RNA isolates, while considering effects of demographical factors (e.g. sex, age), epidemiological factors comprising social habits (e.g. alcohol, cigarette consumption), oral hygiene (e.g. flossing, mouthwash), previous radiological diagnostic procedures (e.g. number of CT-scans) and saliva collection time (circadian periodic). Total human RNA amounts appeared significantly associated with age only (P ≤ 0.02). None of the chosen housekeeping genes showed significant circadian periodicity and either did not associate or were weakly associated with the 24 confounders examined, with one exception, 60% of genes were altered by mouthwash. ATP6, ACTB and B2M represented genes with the highest mean baseline expression (Ct-values ≤ 30) and were detected in all samples. Combining these housekeeping genes for normalization purposes did not decrease inter-individual variance, but increased the robustness. In summary, our work addresses critical confounders and provides important information for the successful examination of gene expression in human whole saliva.

Biomedical Research Centre University Hospital Hradec Králové Czech Republic

Bundeswehr Institute of Radiobiology affiliated to the University of Ulm Neuherbergstr 11 80937 Munich Germany

Center for Radiological Research Columbia University Irving Medical Center New York NY 10032 USA

Department of Oncology and Radiotherapy University Hospital and Medical Faculty in Hradec Kralove Hradec Králové Czech Republic

Department of Radiation Dosimetry Nuclear Physics Institute of the Czech Academy of Sciences Prague Czech Republic

Department of Radiation Oncology Northwestern University Chicago IL 60611 USA

Department of Radiobiology Faculty of Military Health Sciences in Hradec Kralove University of Defence in Brno Brno Czech Republic

Department of Radiology University Hospital Regensburg Regensburg Germany

Institute for Hematology and Blood Transfusion Hospital Na Bulovce Prague Czech Republic

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