Effects of Refrigeration at 5°C for Long Periods of Time on Bovine Ear Skin as a Strategy to Transport Biological Material and Isolate Fibroblasts to Use in the Nuclear Transfer.

Abstract

Animal cloning is an important technique used to produce clones from valuable farm animals, to rescue animals in risk of extinction, and for producing transgenic animals. The objective of this work was to evaluate the effects of refrigeration on bovine ear skin as a strategy to transport biological material for long periods of time to isolate viable fibroblasts. Ears from eight cows were collected after death and stored for 30 days at 5°C. On days 0, 2, 4, 7, 14, 21, and 30, skin biopsies were cultured in vitro for fibroblast isolation. The time for first fibroblast outgrowth, time to reach 100% confluence. and cell concentration before freezing were observed for each period. In addition, plasma membrane integrity, cell apoptosis, and necrosis in cells were evaluated through fluorescent colorant combination in a flow cytometer from all periods after thawing. Fibroblasts obtained after 30 days of storage, considered a critical period, were tested for embryo production using nuclear transfer (NT) with micromanipulators. All time points allowed for cell culture. The time of cell growth onset was longer in samples refrigerated for 14, 21, and 30 days. The time to reach confluence also increased with longer refrigeration periods. Cells from day 0 reached confluence in 24 ± 2 days, while day 30 cells took 31 ± 0 days. Cell concentration and viability dropped with increased storage time and freezing/thawing, respectively. It was found that a long period of sample storage results in cell damage, making cultivation more difficult and decreasing cell viability post-thawing and cell concentration. However, when cells from day 30 were used as nuclei donors in NT, a 26.05% blastocyst rate after 7 days in culture was obtained. In conclusion, refrigeration at 5°C was shown to be efficient in maintaining viable tissue for up to 30 days, and fibroblasts isolated can be used for cloned embryo production.