Estrogen Signaling Inhibits the Expression of anti-Müllerian hormone ( amh ) and gonadal-soma-derived factor ( gsdf ) during the Critical Time of Sexual Fate Determination in Zebrafish.
Yonglin RuanXuehui LiGang ZhaiQiyong LouXia JinJiangyan HeZhan YinPublished in: International journal of molecular sciences (2024)
The mechanism of fish gonadal sex differentiation is complex and regulated by multiple factors. It has been widely known that proper steroidogenesis in Leydig cells and sex-related genes in Sertoli cells play important roles in gonadal sex differentiation. In teleosts, the precise interaction of these signals during the sexual fate determination remains elusive, especially their effect on the bi-potential gonad during the critical stage of sexual fate determination. Recently, all-testis phenotypes have been observed in the cyp17a1 -deficient zebrafish and common carp, as well as in cyp19a1a -deficient zebrafish. By mating cyp17a1 -deficient fish with transgenic zebrafish Tg(piwil1:EGFP-nanos3UTR) , germ cells in the gonads were labelled with enhanced green fluorescent protein (EGFP). We classified the cyp17a1 -deficient zebrafish and their control siblings into primordial germ cell (PGC)-rich and -less groups according to the fluorescence area of the EGFP labelling. Intriguingly, the EGFP-labelled bi-potential gonads in cyp17a1 +/+ fish from the PGC-rich group were significantly larger than those of the cyp17a1 -/- fish at 23 days post-fertilization (dpf). Based on the transcriptome analysis, we observed that the cyp17a1 -deficient fish of the PGC-rich group displayed a significantly upregulated expression of amh and gsdf compared to that of control fish. Likewise, the upregulated expressions of amh and gsdf were observed in cyp19a1a -deficient fish as examined at 23 dpf. This upregulation of amh and gsdf could be repressed by treatment with an exogenous supplement of estradiol. Moreover, tamoxifen, an effective antagonist of both estrogen receptor α and β (ERα and Erβ), upregulates the expression of amh and gsdf in wild-type (WT) fish. Using the cyp17a1 - and cyp19a1a -deficient zebrafish, we provide evidence to show that the upregulated expression of amh and gsdf due to the compromised estrogen signaling probably determines their sexual fate towards testis differentiation. Collectively, our data suggest that estrogen signaling inhibits the expression of amh and gsdf during the critical time of sexual fate determination, which may broaden the scope of sex steroid hormones in regulating gonadal sex differentiation in fish.
Keyphrases
- estrogen receptor
- poor prognosis
- wild type
- induced apoptosis
- germ cell
- binding protein
- cell cycle arrest
- skeletal muscle
- long non coding rna
- molecularly imprinted
- cell proliferation
- cell death
- risk assessment
- quantum dots
- machine learning
- electronic health record
- artificial intelligence
- human health
- positive breast cancer
- smoking cessation
- data analysis