Frontiers in Psychiatry (May 2022)

Clozapine Long-Term Treatment Might Reduce Epigenetic Age Through Hypomethylation of Longevity Regulatory Pathways Genes

  • Blanca Estela Pérez-Aldana,
  • José Jaime Martínez-Magaña,
  • Yerye Gibrán Mayén-Lobo,
  • David José Dávila-Ortiz de Montellano,
  • Carlos Luis Aviña-Cervantes,
  • Alberto Ortega-Vázquez,
  • Alma Delia Genis-Mendoza,
  • Emmanuel Sarmiento,
  • Ernesto Soto-Reyes,
  • Isela Esther Juárez-Rojop,
  • Carlos Alfonso Tovilla-Zarate,
  • Thelma Beatriz González-Castro,
  • Humberto Nicolini,
  • Humberto Nicolini,
  • Marisol López-López,
  • Nancy Monroy-Jaramillo

DOI
https://doi.org/10.3389/fpsyt.2022.870656
Journal volume & issue
Vol. 13

Abstract

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Long-term studies have shown significantly lower mortality rates in patients with continuous clozapine (CLZ) treatment than other antipsychotics. We aimed to evaluate epigenetic age and DNA methylome differences between CLZ-treated patients and those without psychopharmacological treatment. The DNA methylome was analyzed using the Infinium MethylationEPIC BeadChip in 31 CLZ-treated patients with psychotic disorders and 56 patients with psychiatric disorders naive to psychopharmacological treatment. Delta age (Δage) was calculated as the difference between predicted epigenetic age and chronological age. CLZ-treated patients were stratified by sex, age, and years of treatment. Differential methylation sites between both groups were determined using linear regression models. The Δage in CLZ-treated patients was on average lower compared with drug-naive patients for the three clocks analyzed; however, after data-stratification, this difference remained only in male patients. Additional differences were observed in Hannum and Horvath clocks when comparing chronological age and years of CLZ treatment. We identified 44,716 differentially methylated sites, of which 87.7% were hypomethylated in CLZ-treated patients, and enriched in the longevity pathway genes. Moreover, by protein–protein interaction, AMPK and insulin signaling pathways were found enriched. CLZ could promote a lower Δage in individuals with long-term treatment and modify the DNA methylome of the longevity-regulating pathways genes.

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