Abstract
This study evaluated the effect of caprine ovarian tissue transportation conditions (medium supplementation and transportation duration) on the morphology, DNA fragmentation and development of cultured and non-cultured preantral follicles. After the fragmentation of ovaries, one fragment was fixed (fresh control) while the remaining slices were placed individually in two different conservation media (Minimal Essential Medium - MEM without supplementation or supplemented MEM, i.e. MEM+) and stored at 35oC for 6 or 12 h without (non-cultured) or with a subsequent 5-day in vitro culture in supplemented α-MEM. After transportation, followed or not by in vitro culture, the fragments were processed for histological and Terminal deoxynucleotidyl transferase (TdT) mediated dUTP nick-end labeling (TUNEL) examination. For the preserved and non-cultured fragments, the percentages of normal follicles after the storage of ovarian tissue in MEM+ for 6 h and the DNA fragmentation rates after preservation in MEM for 6 h and MEM+ for 6 or 12 h were maintained similar to the fresh control. However, all cultured treatments reduced the proportion of normal follicles and increased the percentage of TUNEL-positive cells as compared to the fresh control and non-cultured treatments. On the contrary, all culture conditions (except after preservation in MEM for 6 h) promoted an increase in primordial follicle activation. In conclusion, the use of an enriched medium (MEM+) during ovary transportation is preferable to maintain satisfactory rates of normal follicles after the preservation of caprine ovarian tissue at 35oC for up to 6 h, without affecting the ability of the primordial follicle to grow in vitro.
Highlights
In goats, the transportation of ovarian tissue in the Minimal Essential Medium (MEM, used as a base cultureGonçalves et al Acta Veterinaria Brasilica March 11 (2017) 50-56 medium for preantral follicles), at 4°C for a short period (4 h), maintained the percentage of histologically normal follicles similar to the observed in fresh tissues and kept follicular viability after in vitro culture
This study evaluated the effect of caprine ovarian tissue transportation conditions on the morphology, DNA fragmentation and development of cultured and non-cultured preantral follicles
For the ovarian fragments that were preserved for 6 or 12 h without subsequent in vitro culture, the percentages of histologically normal follicles after conservation in MEM+ for 6 h and the percentages of TUNEL-positive cells after conservation in MEM for 6 h and MEM+ for 6 or 12 h were similar (P > 0.05) to those observed in the fresh control (Table 1)
Summary
The transportation of ovarian tissue in the Minimal Essential Medium (MEM, used as a base cultureGonçalves et al Acta Veterinaria Brasilica March 11 (2017) 50-56 medium for preantral follicles), at 4°C for a short period (4 h), maintained the percentage of histologically normal follicles similar to the observed in fresh tissues and kept follicular viability after in vitro culture. The transportation of ovarian tissue in the Minimal Essential Medium Preservation at low temperatures may be recommended, temperatures close to physiological values (30–37°C) have been successfully used to collect and transport ovaries to the laboratory for further in vitro culture of preantral follicles (ARUNAKUMARI; SHANMUGASUNDARAM; RAO, 2010; SUN; LI, 2013) or in vitro maturation studies (MUKHERJEE et al, 2014; SHIRAZI et al, 2009; WAN et al, 2009). Ovine ovarian tissue was successfully preserved in supplemented MEM+ at 35°C for up to 6 h without affecting DNA fragmentation in the preantral follicles and their ability to develop in vitro (GONÇALVES et al, 2015). There are no efficient protocols for the transportation of goat ovaries at temperatures close to physiological values
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