Transcriptional profiling of blood exposure response gene signature across clinical studies on The Tobacco Heating System 2.2 (THS 2.2) dataset 1
Ontology highlight
ABSTRACT: As part of current harm reduction strategies, candidate modified risk tobacco products (MRTP)s are developed to offer adult smokers who want to continue using tobacco products as an alternative to cigarettes while potentially reducing individual risk and population harm compared to smoking cigarettes. One of these candidate MRTPs is the Tobacco Heating System (THS) 2.2 which does not burn tobacco, but instead heats it, thus producing significantly reduced levels of harmful and potentially harmful constituents (HPHC)s compared with combustible cigarettes (CC). The assessment of MRTPs against combustible cigarettes requires the establishment of exposure-response markers. Biomarkers derived from blood offer for the general population a less invasive alternative than sampling the primary site, such as the airways. Various diseases and exposures, including cigarette smoke, have been shown to alter the molecular profile of the blood. Leveraging this fact, a whole blood derived gene signature that can distinguish current smokers from either non-smokers or former smokers with high specificity and sensitivity was previously reported. Four controlled, parallel randomized groups, open-label clinical studies were conducted with subjects randomized to three groups: (1) switching from CCs to THS2.2 (or its mentholated version, respectively); (2) continuous use of CC; or (3) smoking abstinence. These studies had an investigational period of five days in confinement which was followed by an 85 day ambulatory period for two of them. By measuring biomarkers of exposure to selected HPHCs, these studies showed a consistent reduced exposure in subjects that either stopped smoking or switched to THS2.2 (including mentholated version), compared with subjects who continued smoking their own cigarettes at both day 5 and at day 90. To complement the classical exposure measurements, we tested the small signature consisting of only 11 genes on the blood transcriptome of subjects enrolled in the clinical studies. We show that in all four clinical studies tested, the signature scores were consistently reduced in subjects that either stopped smoking or switched to THS2.2 compared with subjects who continued smoking their conventional tobacco products at both day 6 and at day 91.
INSTRUMENT(S): Affymetrix GeneChip(R) HT Scanner
ORGANISM(S): Homo sapiens
SUBMITTER: Florian Martin
PROVIDER: E-MTAB-6558 | biostudies-arrayexpress |
REPOSITORIES: biostudies-arrayexpress
ACCESS DATA