Translational Psychiatry (Mar 2024)

Decreased telomere length in a subgroup of young individuals with bipolar disorders: replication in the FACE-BD cohort and association with the shelterin component POT1

  • Luana Spano,
  • Cynthia Marie-Claire,
  • Ophélia Godin,
  • Apolline Lebras,
  • Cindie Courtin,
  • Jean-Louis Laplanche,
  • Marion Leboyer,
  • Bruno Aouizerate,
  • Antoine Lefrere,
  • Raoul Belzeaux,
  • Philippe Courtet,
  • Emilie Olié,
  • Caroline Dubertret,
  • Raymund Schwan,
  • Valérie Aubin,
  • Paul Roux,
  • Mircea Polosan,
  • Ludovic Samalin,
  • Emmanuel Haffen,
  • Fondamental Advanced Centers Of Expertise In Bipolar Disorders (Face-Bd) Collaborators,
  • Frank Bellivier,
  • Bruno Etain

DOI
https://doi.org/10.1038/s41398-024-02824-z
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 7

Abstract

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Abstract Bipolar disorder (BD) has been associated with premature cellular aging with shortened telomere length (TL) as compared to the general population. We recently identified a subgroup of young individuals with prematurely shortened TL. The aims of the present study were to replicate this observation in a larger sample and analyze the expression levels of genes associated with age or TL in a subsample of these individuals. TL was measured on peripheral blood DNA using quantitative polymerase chain reaction in a sample of 542 individuals with BD and clustering analyses were performed. Gene expression level of 29 genes, associated with aging or with telomere maintenance, was analyzed in RNA samples from a subsample of 129 individuals. Clustering analyses identified a group of young individuals (mean age 29.64 years), with shorter TL. None of the tested clinical variables were significantly associated with this subgroup. Gene expression level analyses showed significant downregulation of MYC, POT1, and CD27 in the prematurely aged young individuals compared to the young individuals with longer TL. After adjustment only POT1 remained significantly differentially expressed between the two groups of young individuals. This study confirms the existence of a subgroup of young individuals with BD with shortened TL. The observed decrease of POT1 expression level suggests a newly described cellular mechanism in individuals with BD, that may contribute to telomere shortening.