Abstract
To clarify the endocrine mechanism involved in the short captivity stress in the water frog, Rana esculenta, the activity of 9-ketoreductase, the enzyme which converts prostaglandin E2 (PGE2) into prostaglandin F2α (PGF2α), and aromatase, which converts testosterone into oestradiol-17β, were studied. Adult male and female frogs were sacrificed 0, 1·5, 3, 6, 12, 24, 48, 72, 168 and 336 h after capture in the field. PGE2, PGF2α, progesterone, testosterone, oestradiol-17β and corticosterone plasma levels were detected by RIA at each time point. 9-Ketoreductase (conversion of [3H]PGE2 into [3H]PGF2α) and aromatase (conversion of [3H]testosterone into [3H]oestradiol-17β) activities in the brain, testis, ovary and interrenal were also determined at each time point. After capture, levels of plasma PGF2α increased (male: 228%; female: 288%) and PGE2 decreased (male: 68%; female: 81%) at 1·5 h, oestradiol-17β increased (male: 399%; female: 425%) and testosterone decreased (male: 87%; female: 83%) at 6 h, and corticosterone increased (male: 421%; female: 426%) at 72 h. 9-Ketoreductase activity in the brain was enhanced at 1·5 h after capture (male: 249%; female: 262%); aromatase activity increased at 6 h in the testis (261%), ovary (273%) and interrenal (male: 227%; female: 267%). These results indicate that short captivity stress could induce an increase in plasma PGF2α through activation of brain 9-ketoreductase. In turn, PGF2α might enhance the levels of circulating oestradiol-17β through activation of gonadal and interrenal aromatase.
Journal of Endocrinology (1996) 148, 233–239
Endocrine mechanism regulating molting of Crustacea. Molt-inhibiting hormone affects as a regulator of molting ?
