Poverty and InequalitySexual and Reproductive HealthFamily, Maternal & Child HealthMethodology

Stress and telomere shortening among central Indian conservation refugees

TitleStress and telomere shortening among central Indian conservation refugees
Publication TypeJournal Article
Year of Publication2015
AuthorsZahran, S, Snodgrass, JG, Maranon, DG, Upadhyay, C, Granger, DA, Bailey, SM
JournalProc Natl Acad Sci U S A
Date PublishedMar 3
ISBN Number1091-6490 (Electronic)0027-8424 (Linking)
Accession Number25730846
Keywordshuman displacement, India, indigenous peoples, Stress, telomeres

Research links psychosocial stress to premature telomere shortening and accelerated human aging; however, this association has only been demonstrated in so-called "WEIRD" societies (Western, educated, industrialized, rich, and democratic), where stress is typically lower and life expectancies longer. By contrast, we examine stress and telomere shortening in a non-Western setting among a highly stressed population with overall lower life expectancies: poor indigenous people--the Sahariya--who were displaced (between 1998 and 2002) from their ancestral homes in a central Indian wildlife sanctuary. In this setting, we examined adult populations in two representative villages, one relocated to accommodate the introduction of Asiatic lions into the sanctuary (n = 24 individuals), and the other newly isolated in the sanctuary buffer zone after their previous neighbors were moved (n = 22). Our research strategy combined physical stress measures via the salivary analytes cortisol and alpha-amylase with self-assessments of psychosomatic stress, ethnographic observations, and telomere length assessment [telomere-fluorescence in situ hybridization (TEL-FISH) coupled with 3D imaging of buccal cell nuclei], providing high-resolution data amenable to multilevel statistical analysis. Consistent with expectations, we found significant associations between each of our stress measures--the two salivary analytes and the psychosomatic symptom survey--and telomere length, after adjusting for relevant behavioral, health, and demographic traits. As the first study (to our knowledge) to link stress to telomere length in a non-WEIRD population, our research strengthens the case for stress-induced telomere shortening as a pancultural biomarker of compromised health and aging.