Jenkins Laura E, Medeiros Lea R, Cervantes Diana L, Nagler James J, Pierce Andrew L
Department of Biological Sciences and Center for Reproductive Biology, University of Idaho, 875 Perimeter Dr., Moscow, ID 83844, USA.
Department of Biological Sciences, University of Idaho, 875 Perimeter Dr., Moscow, ID 83844, USA.
Comp Biochem Physiol A Mol Integr Physiol. 2023 Nov;285:111510. doi: 10.1016/j.cbpa.2023.111510. Epub 2023 Aug 30.
In iteroparous female salmonids, the growth and reproductive endocrine axes interact during the period after spawning. Energy depletion due to pre-spawn fasting, migration, and ovarian development must be restored, and the next reproductive cycle is initiated in consecutively maturing fish. In the natural environment, food availability is often limited during the post-spawn period. To investigate the growth and reproductive endocrinology of the post-spawn period, we sampled female rainbow trout over the 30 weeks following their first spawning. Fish were fasted for 2 months prior to spawning, then fed a standard or a restricted ration. Analysis was confined to reproductive fish. Plasma estradiol-17β decreased during the 8 weeks following spawning and then began increasing in both ration groups and was lower in feed-restricted versus standard ration fish from 8 weeks onward. Plasma insulin-like growth factor-1 increased over the same period and then remained constant in both ration groups and was lower in feed-restricted versus standard ration fish from week 8 to week 30. Plasma growth hormone decreased following spawning in standard ration fish and became elevated in feed-restricted versus standard ration fish at 20- and 30-weeks post-spawn. Growth rates, condition factor, and muscle lipid levels were higher in standard ration versus feed-restricted fish within 2-4 weeks after spawning. These results suggest that two phases occurred during the post-spawn period: recovery from spawning and restoration of energy reserves over weeks 0 to 8, followed by adjustment of the growth and reproductive endocrine axes to ration level over weeks 8 to 30.
在多次产卵的雌性鲑科鱼类中,产卵后生长和生殖内分泌轴会相互作用。产卵前禁食、洄游和卵巢发育导致的能量消耗必须得到恢复,并且下一个生殖周期会在相继成熟的鱼类中启动。在自然环境中,产卵后时期食物供应往往有限。为了研究产卵后时期的生长和生殖内分泌学,我们在雌性虹鳟首次产卵后的30周内对其进行了采样。鱼在产卵前禁食2个月,然后分别投喂标准饲料或限量饲料。分析仅限于已产卵的鱼。产卵后的8周内,血浆雌二醇-17β水平下降,之后在两个饲料组中均开始上升,并且从第8周起,限饲组的血浆雌二醇-17β水平低于标准饲料组。同期血浆胰岛素样生长因子-1水平升高,之后在两个饲料组中保持稳定,并且从第8周到第30周,限饲组的血浆胰岛素样生长因子-1水平低于标准饲料组。产卵后,标准饲料组鱼的血浆生长激素水平下降,在产卵后20周和30周时,限饲组鱼的血浆生长激素水平相对于标准饲料组升高。产卵后2至4周内,标准饲料组鱼的生长速率、肥满度和肌肉脂质水平高于限饲组鱼。这些结果表明,产卵后时期可分为两个阶段:产卵后0至8周从产卵中恢复并恢复能量储备,随后在8至30周内生长和生殖内分泌轴根据饲料水平进行调整。
