AI Article Synopsis

  • The study investigates the role of telomeres and oxidative stress in ischaemic cardiomyopathy (ICM), focusing on how telomere maintenance mechanisms are influenced by oxidative stress.
  • RNA-seq analyses revealed dysregulation of shelterin and cohesin complexes, linked to increased cellular oxidative stress response and altered telomeric DNA repair mechanisms.
  • Findings indicate that changes in mRNA levels associated with telomere protection and oxidative stress are correlated with left ventricular size and cardiac dysfunction in ICM.

Article Abstract

Although the roles of telomeres and oxidative stress in ischaemic cardiomyopathy (ICM) are known, mechanisms of telomere homeostasis and their relationship with oxidative stress are incompletely understood. We performed two RNA-seq analyses (mRNA = 23; ncRNA = 30) and protein validation on left ventricles of explanted hearts from ICM and control subjects. We observed dysregulation of the shelterin and cohesin complexes, which was related to an increase in the response to cellular oxidative stress. Moreover, we found alterations at mRNA level in the mechanisms of telomeric DNA repair. Specifically, increased mRNA levels were correlated with left ventricular diameters. RAD51D protein levels were unaltered, however, and were inversely corelated with the miR-103a-3p upregulation. We also observed the overexpression of lncRNAs ( and involved in telomere protection in response to stress and alterations in their regulatory molecules. Expression of the transcription factor was correlated with superoxide dismutase 1 expression and left ventricular diameters. The levels of and its transcription factor were correlated with those of catalase. Therefore, we showed specific alterations in the mechanisms of telomeric DNA repair and protection, and these alterations are related to an increase in the response mechanisms to oxidative stress and cardiac dysfunction in ICM.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8615212PMC
http://dx.doi.org/10.3390/antiox10111750DOI Listing

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