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Vertebrate reproductive science and technology
RESEARCH ARTICLE

36 CHANGES IN PLASMA CONCENTRATIONS OF PROGESTERONE AND ESTROGENS DURING GESTATION IN COWS WITH STILLBORN SOMATIC CELL CLONED CALVES

M. Hirako A , H. Takahashi A , M. Aoki B , H. Ishizaki B , Y. Kariya B , Y. Hanafusa C , M. Kubo C , M. Suto A , N. Adachi A and S. Akagi A
+ Author Affiliations
- Author Affiliations

A National Institute of Livestock and Grassland Science, Tsukuba, Ibaraki, Japan;

B National Institute of Livestock and Grassland Science, Nasushiobara, Tochigi, Japan;

C National Institute of Animal Health, Tsukuba, Ibaraki, Japan

Reproduction, Fertility and Development 23(1) 124-125 https://doi.org/10.1071/RDv23n1Ab36
Published: 7 December 2010

Abstract

Cloning of mammals by nuclear transfer frequently results in gestational or neonatal failure with a variety of abnormalities that are likely caused by inappropriate epigenetic reprogramming. Early diagnosis of fetal abnormality is important for efficient production of cloned animals. Sex steroids are produced in the bovine placenta and their levels in the blood might be useful as a measure of fetal well being, as they are in humans. The objective of this study was to investigate whether changes in peripheral concentrations of progesterone and estrogens reflect fetal conditions. Donor cells for nuclear transfer were obtained from subculture of cumulus cells retrieved from ovarian follicles of a Japanese Black cow. Recipient oocytes were derived from ovaries obtained at an abattoir and matured in vitro. Metaphase II oocytes were enucleated and each fused with a donor cell by DC pulses. Nuclear transferred oocytes were activated and cultured for 7 days. Embryos developed to the blastocyst stage were transferred into the uterine horn ipsilateral to the ovary bearing the CL of 29 multiparous Japanese Black and Holstein crossbred cows at 7 to 8 days after the day of standing oestrus (Day 0). Blood was collected at regular intervals from Day 40 until parturition. Plasma progesterone, estrone, oestradiol-17β, and estrone sulfate were measured by RIA in 4 recipient cows. 2 vaginally delivered healthy calves weighed 35 and 36 kg on days 278 and 280, respectively. The other 2 delivered stillborn calves weighed 42 and 31 kg by Caesarean section on days 267 and 287, respectively. Steroid profiles were compared with each other and with those in a cow made pregnant by embryo transfer. Statistical differences at stages of gestation were analysed with repeated-measures ANOVA. Stillborn calves were subjected to necropsy and histopathological analysis. Significant differences in steroid levels were observed individually and temporarily. In the cow bearing the former stillborn, progesterone and oestradiol-17β concentrations tended to be lower during mid and late gestation, respectively. Large offspring syndrome, ventricular septal defect, pulmonary oedema, hepatic fibrosis, and placental dysplasia were found in the calf by necropsy and histopathological analysis. In the cow bearing the second stillborn, plasma progesterone concentrations were temporarily increased from days 220 to 230 and reached a peak of 16 ng mL–1, which was approximately 3 times as high as before (5.0 ± 0.9; mean ± s.d.), then followed by a similar transient increase in estrogens during days 240 and 250 (170 pg mL–1, 16 pg mL–1, and 21 ng mL–1 at peak of estrone, oestradiol-17β, and estrone sulfate, respectively). Thereafter, oestrogen concentrations stayed low until parturition. As internal organs of the stillborn calf were severely autolysed with polyhydramnios at birth, the fetus might have been dead around Day 250. These results imply that changes in peripheral steroid concentrations in some cases reflect fetal condition.