盐度和鲑鱼垂体提取物对日本鳗垂体细胞中生殖和/或盐度相关基因表达的影响

Development & reproduction Pub Date : 2024-09-01 Epub Date: 2024-09-30 DOI:10.12717/DR.2024.28.3.75
Seong Hee Mun, Joon Yeong Kwon
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摘要

鳗鱼(日本鳗鲡)的人工性成熟包括在海水中饲养和注射鲑鱼垂体提取物(SPE)。海水的盐度和鲑鱼垂体提取物的成分会影响鳗鱼垂体的激素活动,从而导致性腺发育。本研究利用原代细胞培养物研究了盐度变化和 SPE 处理对鳗鱼垂体的直接影响。垂体细胞分为四个实验组:对照组(control)、SPE处理组(SPE)、NaCl处理组(NaCl)和NaCl+SPE处理组(NaCl+SPE)。我们研究了可能与繁殖和/或盐度有关的基因的表达,包括黄体生成素(LHβ)、促卵泡激素(FSHβ)、类孕酮受体(pgrl)、催乳素(PRL)、多巴胺受体 D4(drd4)、神经肽 B/W 受体 2(NPBWR2)和松弛素家族肽受体 3-2b(rxfp3-2b)。基因表达分析表明,与对照组和 NaCl 组相比,SPE 组和 NaCl+SPE 组中 LHβ 的表达明显上调(ppPgrl、NPBWR2、drd4 和 rxfp3-2b 在对照组中的表达最高,在所有处理组(NaCl、SPE 和 NaCl+SPE)中均出现下调)(pLHβ、pgrl、PRL、drd4、NPBWR2 和 rxfp3-2b 基因明显与黄鳝的繁殖和盐度变化有关。
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Effect of Salinity and Salmon Pituitary Extract on the Expression of Reproduction and/or Salinity-Related Genes in the Pituitary Cells of Japaneses Eel.

Artificial sexual maturation of eel (Anguilla japonica) involves rearing in seawater and injecting salmon pituitary extract (SPE). The salinity of seawater and components of SPE influence hormonal activities of the eel pituitary, leading to gonad development. This study investigated the direct effects of salinity change and SPE treatment on the eel pituitary gland using primary cell cultures. Pituitary cells were cultured into four experimental groups: control culture (control), SPE-treated culture (SPE), NaCl-treated culture (NaCl) and NaCl+SPE treated culture (NaCl+SPE). We investigated the expression of genes presumably related to reproduction and/or salinity, including luteinizing hormone (LHβ), follicle stimulating hormone (FSHβ), progesterone receptor-like (pgrl), prolactin (PRL), dopamine receptor D4 (drd4), neuropeptide B/W receptor 2 (NPBWR2) and relaxin family peptide receptor 3-2b (rxfp3-2b). Gene expression analysis revealed significant upregulation of LHβ in SPE and NaCl+SPE groups compared to control and NaCl (p<0.05). FSHβ expression did not show any significant changes. PRL showed a significant decrease in the NaCl group (p<0.05). Pgrl, NPBWR2, drd4, and rxfp3-2b displayed the highest expression in the control group, with downregulation observed in all treatment groups (NaCl, SPE, and NaCl+SPE) (p<0.05). This study demonstrated the direct effects of salinity changes and SPE treatment on the eel pituitary. Results from this study also suggest that salinity change is necessary but work together with SPE to induce reproductive process, and that LHβ, pgrl, PRL, drd4, NPBWR2, and rxfp3-2b genes are obviously associated with reproduction and salinity changes in eels.

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