Germ cell development in teleost gonads

Q1 Agricultural and Biological Sciences Aquaculture and Fisheries Pub Date : 2023-08-18 DOI:10.1016/j.aaf.2023.07.002
Partigya Sharma, Shriya Purohit, Sachin Kothiyal, Indrashis Bhattacharya
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引用次数: 0

Abstract

Among vertebrate species, fishes are considered to be the most developmentally diverse taxa exhibiting remarkable gonadal plasticity with capacity of sex reversal. Sex determination in teleost fishes is governed via a complex regulatory network involving multiple genetic, environmental (temperature, population density, pH), social interaction/stress factors. Piscine germ-line originates as Primordial germ cells (PGC) from cleavage blastomeres/endoderm and gets specified by maternal inheritance of Vasa, Nanos, Tdrds, Dnd, Dazl etc and subsequently migrates to reach the embryonic gonadal primordium. Post-hatching, mitotically active germ cells (Gc) continue to proliferate via two distinct pathways-firstly, stem cell-like mode followed by meiosis-committed cystic division. In Japanese rice fish medaka, Oryzias latipes sex gets determined on the chromosomal basis, where XY becomes a male because of testicular Dmy transcription and XX develops as female owing to Gc restricted Foxl3 expression. Sex specific germ-line stem cell systems also have been found in adult O. latipes. Intriguingly in teleost fishes, the developmental fate of transplanted Gc do not depend on the sex of the donor rather solely relies upon the sex of the recipient. Furthermore, sexually mature piscine gonads remain developmentally plastic showing extensive responsiveness towards sex steroids. The critical regulation of gonadal differentiation is directed by female specific 17β-estradiol (E2) and bio-active male androgen 11-keto-testosretone (11-kT). Various transcription factors (TFs) e.g.- Dmrt1, DAX1, Ad4BP/SF-1, Foxl2 regulate the bio-conversion rate of testosterone (T) to either E2 or 11-kT. Similarly, multiple endocrine factors (EFs) e.g.- LH, FSH, E2, 11-kT and growth factors (GFs) e.g- AMH, GSDF, IGF-1/3, GDF-9/BMP-15 critically induce Gc differentiation to regulate the gametogenic output. In this article we have precisely discussed the endocrine regulation of Gc development during gonadal maturation of teleosts.

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远洋性腺中生殖细胞的发育
在脊椎动物中,鱼类被认为是发育最多样化的类群,具有显著的性腺可塑性和性别逆转能力。远志鱼类的性别决定受复杂的调控网络控制,涉及多种遗传、环境(温度、种群密度、酸碱度)、社会互动/压力因素。鱼类的生殖细胞系(PGC)起源于卵裂胚泡/内胚层的原始生殖细胞(Primordial germ cells),由母体遗传的 Vasa、Nanos、Tdrds、Dnd、Dazl 等指定,随后迁移到胚胎性腺原基。孵化后,有丝分裂活跃的生殖细胞(Gc)继续通过两种不同的途径增殖--首先是干细胞模式,然后是减数分裂承诺的囊状分裂。在日本稻鱼青鳉(Oryzias latipes)中,性别是由染色体决定的,其中 XY 因睾丸 Dmy 转录而成为雄性,XX 则因 Gc 受限的 Foxl3 表达而发育为雌性。在长尾鳕成体中也发现了性别特异性生殖系干细胞系统。有趣的是,在远洋鱼类中,移植的 Gc 的发育命运并不取决于供体的性别,而完全取决于受体的性别。此外,性成熟的鱼类性腺在发育过程中仍具有可塑性,对性类固醇具有广泛的反应性。性腺分化的关键调控因素是雌性特异性 17β-雌二醇(E2)和具有生物活性的雄性雄激素 11-酮-雌酮(11-kT)。各种转录因子(TFs),如 Dmrt1、DAX1、Ad4BP/SF-1 和 Foxl2 可调节睾酮(T)向 E2 或 11-kT 的生物转换率。同样,多种内分泌因子(EFs),如 LH、FSH、E2、11-kT 和生长因子(GFs),如 AMH、GSDF、IGF-1/3、GDF-9/BMP-15,也能关键性地诱导 Gc 分化,从而调节配子的产生。在这篇文章中,我们精确地讨论了在远洋鱼类性腺成熟过程中 Gc 发育的内分泌调控。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Aquaculture and Fisheries
Aquaculture and Fisheries Agricultural and Biological Sciences-Aquatic Science
CiteScore
7.50
自引率
0.00%
发文量
54
审稿时长
48 days
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