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Immunohistochemical localization of steroidogenic enzymes in corpus luteum of wild sika deer during early mating season
2004
Matsuura, Y. (Hokkaido Univ., Sapporo (Japan)) | Suzuki, M. | Hayakawa, D. | Asano, M. | Sasaki, M. | Kitamura, N. | Yamada, J. | Tsubota, T. | Ohtaishi, N.
Efficiency of fecal steroid hormone measurement for assessing reproductive function in the Hokkaido brown bear (Ursus arctos yesoensis)
2002
Ishikawa, A. (Hokkaido Univ., Sapporo (Japan)) | Kikuchi, S. | Katagiri, S. | Sakamoto, H. | Takahashi, Y.
The present study aimed to establish simple systems for measuring fecal steroid hormones in order to monitor the reproductive profiles of captive Hokkaido brown bears. The efficiency of fecal sample processing at the steps of dehydration and extraction and the correlation between steroid concentrations in matched fecal and blood samples were studied. Then, monthly changes in fecal estradiol-17beta and progesterone in female bears, and testosterone in male bears were examined. The procedure was finalized as follows. Fecal samples were dried at 100degC for 3 hr and extracted with diethyl ether. The diethyl ether in the extracts was evaporated and residues were reconstituted in ethanol for the assays. Hormone concentrations were quantified using enzyme immunoassays. Concentrations of progesterone and testosterone in fecal and plasma samples were correlated in the systems. The changes in fecal progesterone and testosterone concentrations were similar to those in serum concentrations of bears as reported previously. In contrast, fecal estradiol concentrations did not correlate with plasma levels probably because of the time lag in excretion. However, the changes in estradiol-17beta concentrations in feces in the present study were similar to those reported in serum. In conclusion, fecal progesterone and testosterone assay systems appear practical for monitoring ovarian and testicular activities without immobilization, though methodological improvements and further validation may be required. For the fecal estradiol-17beta assay, there is a need to solve the problem of excretion time lag before the system can be used in the study of reproductive physiology.
Show more [+] Less [-]Excess dietary urea intake in ewes and its effect on ovulation rate and embryo development
1996
Bishonga, C. (Hokkaido Univ., Sapporo (Japan)) | Robinson, J.J. | Mcevoy, T.G. | Findlay, P. | Aitken, R.P. | Robertson, I.
Immunohistochemical localization of the estrogen receptor alpha (ERalpha) and progesterone receptor (PR) in the uterus of sika deer (Cervus nippon) during pregnancy
2008
Yanagawa, Y.(Hokkaido Univ., Sapporo (Japan)) | Matsuura, Y. | Suzuki, M. | Katagiri, S. | Tsubota, T.
Information on steroid hormone receptor distribution in the uterus is essential to understand the roles of their ligands in pregnancy. This study examined the spatio-temporal localization of estrogen receptor alpha (ERalpha) and progesterone receptor (PR) in the uterus of sika deer (Cervus nippon) to determine the estrogen and progesterone action site during pregnancy. Ovaries and uteri were collected from 21 pregnant sika deer with single fetus and two corpora lutea, ranging from Day 20 to Day 207 of pregnancy. In addition, genital organs were also collected from three sika deer whose gestational status was unknown: one female had only one developing corpus luteum: =Day 4 (metestrus) and two females had two corpora lutea, one of which was at the developing stage equivalent to diestrus or early pregnancy: Day 7 (diestrus). Staining of ERalpha and PR was clear in all cell types during metestrus. During diestrus, the presence of ERalpha was also clear in deep glandular epithelium, stroma and myometrium, whereas it was suppressed in luminal epithelium and shallow glandular epithelium. Staining of PR was suppressed in luminal epithelium but was detectable in other cell types. Staining of ERalpha in all cell types and PR in luminal epithelium and glandular epithelium became undetectable by Day 28. PR was presented in stroma and myometrium throughout pregnancy. The distribution pattern of ERalpha and PR was different during diestrus from that in a ruminant. This could be attributed to estrogen secretion from the maturing and ovulating follicles in the presence of developed corpus luteum.
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