Successful transplantation of cryopreserved spermatogonia in Sebastes schlegelii: A simple and suitable alternative approach for conservation of viviparous fish

IF 5.1 Q1 ENVIRONMENTAL SCIENCES Water Biology and Security Pub Date : 2023-07-01 DOI:10.1016/j.watbs.2023.100142

Li Zhou , Xueying Wang , Shuran Du , Shihong Xu , Yanfeng Wang , Zongcheng Song , Qinghua Liu , Jun Li

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Abstract

Black rockfish (Sebastes schlegelii) is one of the most important marine economic viviparous fishes. Recently, germplasm degradation and genetic diversity reduction have occurred due to overfishing and long-term artificial breeding. Germ cell transplantation combined with cryopreservation may be an alternative way to protect genetic resources. However, in viviparous fish that undertake fertilization and embryo development in vivo, transplantation is more difficult than in oviparous fish, including selection of transplantation stage, isolation of germ stem cells, and preparation of sterile recipients. This seriously restricts the development of viviparous transplantation. Therefore, in this study, we aimed to explore a transplantation method suitable for these species. Donor cells were isolated from cryopreserved whole testes of 300–400 g male Sebastes schlegelii in May, labeled by PKH26, and intra-peritoneally transplanted into allogeneic larvae at 5–10 days post-birth. Subsequently, the development of donor-derived cells in recipients were continuously detected by fluorescence labeling, histology, microsatellite markers, and fecundity tests. The results showed that donors were rich in spermatogonia (75%) and recipients maintained a high survival rate after transplantation, with a rate of >20% at sexual maturity. Further, donor-derived cells successfully migrated (100%), colonized, and incorporated into the developing recipient gonad (93.33%). Finally, transplanted recipients could normally develop and differentiate into male and female individuals, with donor-derived gametes found in 65.38% of mature recipients. In the present study, we first establish a simple and suitable transplantation method for Sebastes schlegelii using immature males and specific larvae, which will serve as a promising tool in the protection of germplasm resources for this transplantation-restricted marine viviparous species.

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成功移植冷冻存精原:保存胎生鱼类的一种简单而合适的替代方法

黑石首鱼（Sebastes schlegelii）是最重要的海洋经济胎生鱼类之一。近年来，由于过度捕捞和长期人工育种，出现了种质资源退化和遗传多样性降低的现象。生殖细胞移植与冷冻保存相结合可能是保护遗传资源的一种替代方法。然而，在体内进行受精和胚胎发育的胎生鱼中，移植比卵生鱼更困难，包括移植阶段的选择、生殖干细胞的分离和无菌受体的制备。这严重制约了活体移植的发展。因此，在本研究中，我们旨在探索一种适合这些物种的移植方法。供体细胞是从冷冻保存的300–400个完整睾丸中分离出来的g雄性schlegelii Sebastes于5月，用PKH26标记，并在出生后5-10天腹膜内移植到异基因幼虫中。随后，通过荧光标记、组织学、微卫星标记和繁殖力测试连续检测受体中供体来源细胞的发育。结果表明，供体精原细胞丰富（75%），受体在移植后保持较高的存活率，存活率>；性成熟时为20%。此外，供体来源的细胞成功迁移（100%）、定植并整合到发育中的受体性腺中（93.33%）。最后，移植受体可以正常发育并分化为雄性和雌性个体，65.38%的成熟受体中发现了供体来源的配子。在本研究中，我们首先利用未成熟的雄性和特定的幼虫建立了一种简单而合适的施莱格里Sebastes schlegelii移植方法，这将为保护这种移植受限的海洋胎生物种的种质资源提供一个有前途的工具。

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Water Biology and Security

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4.10

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