iScience (Oct 2022)

Dicer1 deficient mice exhibit premature aging and metabolic perturbations in adipocytes

  • Aurore De Cauwer,
  • Thomas Loustau,
  • William Erne,
  • Angélique Pichot,
  • Anne Molitor,
  • Tristan Stemmelen,
  • Raphael Carapito,
  • Gertraud Orend,
  • Seiamak Bahram,
  • Philippe Georgel

Journal volume & issue
Vol. 25, no. 10
p. 105149

Abstract

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Summary: Age-related diseases are major concern in developed countries. To avoid disabilities that accompany increased lifespan, pharmaceutical approaches are considered. Therefore, appropriate animal models are required for a better understanding of aging processes and potential in vivo assays to evaluate the impact of molecules that may delay the occurrence of age-related diseases. Few mouse models exhibiting pathological aging exist, but currently, none of them reproducibly mimics human diseases like osteoporosis, cognitive dysfunctions or sarcopenia that can be seen in some, but not all, elders. Here, we describe the premature aging phenotypes of Dicer-deficient mature animals, which exhibit an overall deterioration of many organs and tissues (skin, heart, and adipose tissue) ultimately leading to a significant reduction of their lifespan. Molecular characterization of transcriptional responses focused on the adipose tissue suggested that both canonical and non-canonical functions of DICER are involved in this process and highlight potential actionable pathways to revert it.

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