Evidence of requirement for homologous-mediated DNA repair during Ambystoma mexicanum limb regeneration

20 de enero de 2022

 

Les invitamos a leer el artículo: "Evidence of requirement for homologous-mediated DNA repair during Ambystoma mexicanum limb regeneration" del Dr. Alfredo Cruz Ramírez, investigador de la UGA-Langebio.

Autores: Ulises Omar García-Lepe, Esteban Torres-Dimas, Annie Espinal-Centeno, Alfredo Cruz-Ramírez, Rosa María Bermúdez-Cruz.

Felicitamos al estudiantado y profesorado que contribuyeron en esta investigación por su arduo trabajo.

Abstract:

  • Background

Limb regeneration in the axolotl is achieved by epimorphosis, thus depending on the blastema formation, a mass of progenitor cells capable of proliferating and differentiating to recover all lost structures functionally. During regeneration, the blastema cells accelerate the cell cycle and duplicate its genome, which is inherently difficult to replicate because of its length and composition, thus being prone to suffer double-strand breaks.

  • Results

We identified and characterized two remarkable components of the homologous recombination repair pathway (Amex.RAD51 and Amex.MRE11), which were heterologously expressed, biochemically characterized, and inhibited by specific chemicals. These same inhibitors were applied at different time points after amputation to study their effects during limb regeneration. We observed an increase in cellular senescent accompanied by a slight delay in regeneration at 28 days postamputation regenerated tissues; moreover, inhibitors caused a rise in the double-strand break signaling as a response to the inhibition of the repair mechanisms.

  • Conclusions

We confirmed the participation and importance of homologous recombination during limb regeneration. The chemical inhibition induces double-strand breaks that lead to DNA damage associated senescence, or in an alternatively way, this damage could be possibly repaired by a different DNA repair pathway, permitting proper regeneration and avoiding senescence.

 

Keywords: axolotl, B02, DNA damage, mirin, Mre11, Rad51

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