Frontiers in Veterinary Science (Nov 2023)

Reviving vacuum-dried encapsulated ram spermatozoa via ICSI after 2 years of storage

  • Luca Palazzese,
  • Federica Turri,
  • Debora Agata Anzalone,
  • Joseph Saragusty,
  • Jacques Bonnet,
  • Jacques Bonnet,
  • Marthe Colotte,
  • Sophie Tuffet,
  • Flavia Pizzi,
  • Alessia Luciani,
  • Kazutsugu Matsukawa,
  • Marta Czernik,
  • Marta Czernik,
  • Pasqualino Loi

DOI
https://doi.org/10.3389/fvets.2023.1270266
Journal volume & issue
Vol. 10

Abstract

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IntroductionFreeze-drying techniques give alternative preservation mammalian spermatozoa without liquid nitrogen. However, most of the work has been conducted in the laboratory mouse, while little information has been gathered on large animals that could also benefit from this kind of storage.MethodsThis work adapted a technique known as vacuum-drying encapsulation (VDE), originally developed for nucleic acid conservation in anhydrous state, to ram spermatozoa, and compared it to canonical lyophilization (FD), testing long-term storage at room temperature (RT) and 4°C.Results and discussionThe results demonstrated better structural stability, namely lipid composition and DNA integrity, in VDE spermatozoa than FD ones, with outcomes at RT storage comparable to 4°C. Likewise, in VDE the embryonic development was higher than in FD samples (12.8% vs. 8.7%, p < 0.001, respectively). Our findings indicated that in large mammals, it is important to consider dehydration-related changes in sperm polyunsaturated fatty acids coupled with DNA alterations, given their crucial role in embryonic development.

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