Abstract
BackgroundThe identification of Mycobacterium-tuberculosis (Mtb) infected individuals remains a challenge due to an insufficient understanding of immune responses detected with the current diagnostic tests for latent tuberculosis i.e. the tuberculin skin test (TST) or IFN–γ release assays (IGRAs) and an inability to distinguish infection stages with current immunologic assays. Further classification based on markers other than IFN–γ may help to define markers of early Mtb infection.MethodsWe assessed the TST status of Mtb-exposed household contacts at baseline and at 6 months. Contacts were classified into those with initial positive TST (TST+); those with baseline negative TST but TST conversion at 6 months (TST converters, TSTC) and those with persistently negative TST (PTST−). We assessed their short- and long-term immune responses to PPD and ESAT–6/CFP–10 (EC) via IFN–γ ELISPOT and a multiplex cytokine array in relation to TST status and compared them to those of TB cases to identify immune profiles associated with a spectrum of infection stages.ResultsAfter 1 and 6 days stimulation with EC, 12 cytokines (IFN–γ, IL–2, IP–10, TNF–α, IL–13, IL–17, IL–10, GMCSF, MIP–1β, MCP–3, IL–2RA and IL–1A) were not different in TSTC compared to TST+ suggesting that robust adaptive Mtb-specific immune responses precede TST conversion. Stratifying contacts by baseline IFN–γ ELISPOT to EC in combination with TST results revealed that IP–10 and IL–17 were highest in the group of TST converters with positive baseline ELISPOT, suggesting they might be markers for recent infection.ConclusionWe describe a detailed analysis of Mtb-specific biomarker profiles in exposed household contacts in a TB endemic area that provides insights into the dynamic immune responses to Mtb infection and may help to identify biomarkers for ‘at-risk’ populations beyond TST and IGRA.
Highlights
About one–third of the world’s population harbors a latent infection with Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis (TB), creating a reservoir for the development of active disease and continued transmission
We have previously shown that a positive ESAT–6/culture filtrate protein (CFP)–10 IFN–c ELISPOT in TST2 contacts is a strong predictor of subsequent TST conversion [20]
Adjusting for sleeping proximity did not change which of the day 1 and day 6 comparisons were significant. This is the first study to evaluate a panel of Mtb-specific Th1, Th2, Th17 and innate cytokine/chemokine responses in exposed contacts of TB index cases stratified by longitudinal TST results and baseline IGRA results
Summary
About one–third of the world’s population harbors a latent infection with Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis (TB), creating a reservoir for the development of active disease and continued transmission. There is a significant discordancy between TST and IGRA, which is incompletely understood and might be associated with host genetic and/or environmental factors Both assays are currently not able to accurately discriminate different stages of Mtb infection. Contacts were classified into those with initial positive TST (TST+); those with baseline negative TST but TST conversion at 6 months (TST converters, TSTC) and those with persistently negative TST (PTST2) We assessed their short- and long-term immune responses to PPD and ESAT–6/CFP– 10 (EC) via IFN–c ELISPOT and a multiplex cytokine array in relation to TST status and compared them to those of TB cases to identify immune profiles associated with a spectrum of infection stages. Stratifying contacts by PLOS ONE | DOI:10.1371/journal.pone.0116268 December 30, 2014
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
