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Reproduction, Fertility and Development Reproduction, Fertility and Development Society
Vertebrate reproductive science and technology
RESEARCH ARTICLE

324 SPHINGOSINE-1-PHOSPHATE PROTECTS CULTURED BOVINE OOCYTES FROM PHYSIOLOGICALLY RELEVANT THERMAL STRESS

Z. Roth A and P.J. Hansen A
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Department of Animal Sciences, University of Florida, Gainesville, FL, USA. email: roth@animal.ufl.edu

Reproduction, Fertility and Development 16(2) 282-282 https://doi.org/10.1071/RDv16n1Ab324
Submitted: 1 August 2003  Accepted: 1 October 2003   Published: 2 January 2004

Abstract

Sphingosine-1-phosphate (S1P) is a sphingolipid metabolite that can block the sphingomyelin cell-death pathway by suppressing ceramide-induced apoptosis. The present study was performed to test whether S1P protects oocytes from heat shock during in vitro maturation. Cumulus-oocyte complexes obtained by slicing follicles were placed in maturation medium with or without 50 nM S1P and cultured at 38.5°C (CON) or 41°C (41C) for the first 12 h of maturation. Incubation during the last 10 h of maturation (22-h total maturation time), fertilization, and embryonic development were performed at 38.5°C and 5% (v/v) CO2. Blastocyst development was recorded at 8 days post-insemination (dpi) and activity of group II caspases in 8-day blastocysts was determined using a fluoroprobe, PhiPhiLux-G1D2 (OncoImmunin, Gaithersburg, MD, USA). Data were analysed by least-squares ANOVA with the GLM procedure of SAS. Percentage data were subjected to arcsin transformation before analysis. Exposure of oocytes to thermal stress during the first 12 h of maturation reduced cleavage rate (P < 0.01) and the number of oocytes developing to the blastocyst stage (P < 0.04). There was a temperature x S1P interaction for cleavage rate (P < 0.03) because S1P blocked effects of thermal stress on cleavage rate. Without S1P, the percentage of oocytes that cleaved by 3 dpi were 83.6 ± 2.7% and 65.8 ± 2.7% for CON and 41C, respectively. In the presence of S1P, percent cleavage was 86.7 ± 2.7% and 83.9 ± 2.7% for CON and 41C, respectively. There was a trend (P = 0.06) for a temperature x S1P interaction for percent oocytes developing to blastocyst stage because S1P blocked effects of heat shock on development. Without S1P, the percentages of oocytes that developed to the blastocyst stage were 28.7 ± 3.0% and 15.2 ± 3.0% for CON and 41C, respectively. In the presence of S1P, percent blastocysts were 24.3 ± 3.4% and 23.9 ± 3.0% for CON and 41C, respectively. When development was expressed as percentage of cleaved embryos, however, there were no effects of temperature, S1P, or temperature x S1P on percent development to the blastocyst stage. Blastocyst caspase activity was not affected by temperature or S1P. In summary, exposure to physiologically relevant thermal stress during the first 12 h of maturation has a deleterious effect on oocyte competence and this effect can be reduced by S1P. The fact that heat shock reduced the percentage of oocytes but not the percentage of cleaved embryos that became blastocysts suggests that oocytes that survive effects of heat shock and cleave have normal potential to develop to the blastocyst stage. Moreover, since heat shock did not affect caspase activity, it is likely that blastocysts from heat-shocked oocytes have normal developmental potential, at least as determined by caspase activity. Support: BARD FI-330-2002 and USDA Grants 2002-35203-12664 and 2001-52101-11318.