Molecular determinants regulating the release of the egg during ovulation: Perspectives in piscine models

Ovarian toxicity of 2,6-di-tert-butyl-hydroxytoluene on female Ruditapes philippinarum: Reproductive endocrine disruption and oxidative stress

Synthetic phenolic antioxidants (SPAs) are the most widely used antioxidants in the world. There is a growing concern due to their potential toxic effects and high pollution levels in aquatic environments. Existing studies have confirmed the neurotoxic, immunotoxic, and developmental toxicity of SPAs on aquatic organisms. However, there is limited research on the reproductive toxicity of SPAs, particularly in aquatic invertebrates. In this study, female Ruditapes philippinarum were selected as research objects to investigate the reproductive toxicity effects of typical SPAs 2,6-di-tert-butyl hydroxytoluene (BHT) on clams at different reproductive stages. The results showed that BHT downregulated the level of ovarian steroid hormones by disrupting steroid production, and showed anti-estrogenic effects. This interference impedes meiosis, follicular development, and ovulation, resulting in a decrease in the number of mature oocytes and gonadal index. Furthermore, exposure to BHT increased ROS levels and suppressed antioxidant defenses, resulting in biomacromolecular damage. BHT also induced apoptosis, ferroptosis, and pyroptosis in ovarian cells, impairing ovarian development. Collectively, this study elucidates the potential molecular mechanisms of reproductive toxicity caused by BHT in bivalve shellfish, focusing on endocrine disruption, oxidative damage, and cell death pathways. The findings provide data supporting the conservation of marine shellfish germplasm.

Maternal exposure to chronic, low-dose nonylphenol in zebrafish: Disruption of ovarian health, reproductive function, and embryogenesis

Nonylphenol (NP), a non-ionic surfactant and potent endocrine disruptor, is known for its environmental persistence, biotic accumulation potential and toxicity. Nonetheless, mechanisms underlying NP modulation of female fertility with potential impact on embryogenesis in the unexposed offspring remain elusive. This study investigates the effects and toxic mechanisms of maternal exposure to NP at varying concentrations (50 and 100 μg/L) on zebrafish (Danio rerio), specifically focusing on ovarian health, reproductive parameters, and early developmental potential in the F1 generation. Our findings indicate a higher accumulation of NP in the ovaries compared to muscle tissue. Further, chronic (28 days) NP exposure promotes ovarian reactive oxygen species (ROS) accumulation, activates the MAPK (JNK, p38 MAPK, ERK1/2) pathways, AP-1 induction, and elevated expression of pro-inflammatory cytokines (Tnf-α, Il-1β, Il-6) triggering inflammation. Besides, heightened follicular atresia in NP-treated ovaries relates to increased Bax/Bcl2 ratio, cleaved caspase 3 and Parp1 activation prompting apoptosis. While it showed higher affinity to zebrafish ERα (in silico analysis), NP exposure in vivo promotes a robust increase in ovarian ERα but abrogated ERβ expression and a significant alteration in fshr and lhcgr transcripts. While attenuated StAR and P450 aromatase expression at both mRNA and protein levels and reduced igf3 expression reveal impaired ovarian microenvironment, NP-induced dysregulated NO/NOS/cyclooxygenase signaling and attenuation of hCG-induced p34cdc2 activation and oocyte maturation correspond well with decreased fecundity and fertilization efficiency. Intriguingly, maternal exposure to NP resulted in delayed embryogenesis, developmental aberrations, and reduced hatching rates in the unexposed offspring, risking F1 generation. Collectively, this study provides mechanistic insights into the detrimental influence of maternal exposure to NP on ovarian dysfunction, reproductive insufficiency and embryotoxicity.

Adaptation mechanism of clam Ruditapes philippinarum under polycyclic aromatic hydrocarbon stresses: Accumulation and excretion

Persistent organic pollutants (POPs) are easily accumulated in organisms due to its high lipophilicity. Bivalves are still one of the marine invertebrates with high species diversity despite experiencing with environmental pollution. However, studies investigating the adaptation mechanisms of bivalves towards POPs have been lacking. In this study, we chose benzo[a]pyrene (B[a]P), a typical POPs, to investigate the accumulation and excretion mechanism of clam Ruditapes philippinarum towards B[a]P. Laser confocal microscopy images of ovaries and testes confirmed significant colocalization between lipid droplets and B[a]P. However, B[a]P in the testes might mainly excrete with the excretory fluid. Furthermore, lipidomics results indicated that the upregulated TGs were TGs with 48-58 total carbon atoms and 6-12 double bonds in acyl side chains in ovaries, while the upregulated TGs mainly distributed in 48-58 total carbon atoms and 4-14 double bonds in acyl side chains in testes. In ovaries, gene expression of lipid metabolism and phospholipid metabolism basically presented an upward trend at Pro and Mat stages, while entirely performed a downregulation trend at Gro stage. Testes had the opposite regulation with that. Additionally, B[a]P prompted the excretion ability of female clams, but exhibited a complex effect in the male. This study provides a scientific basis for bivalve toxicology and healthy aquaculture, which is of great significance for marine ecological environment protection and aquatic product safety of China.

Participation of follicular superoxides, inflammatory modulators, and endocrine factors in zebrafish (Danio rerio) ovulation: Cross-talk between PKA and MAPK signaling in Pgr regulation of ovulatory markers

The ovulatory response involves diverse molecular determinants, the interplay between which remains less investigated in fish. This study explores the temporal changes in the follicular microenvironment, regulatory factors, and underlying signaling events during ovulation in female zebrafish subjected to 14L:10D at 28 ± 1 °C in vivo vis-à-vis in hCG-stimulated full-grown (FG) follicles in vitro. Congruent with reduced GSH levels, SOD, and GPx activity, a graded increase in follicular free radicals, Nox4, and p38 MAPK phosphorylation in the morning hour groups (05:00 and 06:30) correlates positively with the ovulatory surge in inflammatory mediators (Tnf-α, Il-1β, Il-6, Nos2, and Cox-2). Further, elevated Pgr expression and its nuclear translocation, congruent with follicular lhcgr, star, and hsd20b2 upregulation in vivo, corroborates well with the transcriptional activation of genes (pla2g4aa, ptgesl, ptger4b, mmp9, adamts9), triggering ovulation in this species. Mechanistically, an elevated ovulatory response in hCG-treated FG follicles in vitro involves the upregulation of inflammatory mediators, pgr and ovulation-associated genes in a manner sensitive to PKA- and MAPK3/1-mediated signaling.

Changes in Ovulation-Related Gene Expression during Induced Ovulation in the Amur Sturgeon (Acipenser schrenckii) Ovarian Follicles

The luteinizing hormone (LH) and maturation-inducing steroids (MIS), such as 17α,20β-dihydroxy-4-pregnen-3-one, regulate the final oocyte maturation in teleosts. Oocyte maturational competence (OMC) and ovulatory competence measure the sensitivity to MIS for oocyte maturation and ovulation, respectively. However, the molecular mechanisms underlying the acquisition of ovulatory competence remain unknown. Sturgeons are an excellent research model for investigating these mechanisms. We examined the seasonal profiles of OMC and ovulatory competence in vitro and the expression of 17 ovulation-related gene candidates using quantitative PCR in Amur sturgeon ovarian follicles. The ovulatory competence was induced by the LH-releasing hormone analog (LHRHa) priming injection after acquiring the OMC, which was spontaneously induced in spring or autumn. Seven genes, including the tissue-type plasminogen activator (plat), were enhanced following the LHRHa priming injection in ovarian follicles sampled from anovulated and ovulated fish. The activin receptor type 1 (acvr1) and prostaglandin G/H synthase 2 (ptgs2) were only upregulated in ovulated fish. Our results suggest that plat/plasmin and prostaglandin (PG)/PG receptor systems are essential for sturgeon ovulation, similar to other vertebrates. Notably, successful ovulation depends on a sufficient PG synthesis, and mediators activating the PG/PG receptor system are essential for acquiring the ovulatory competence. We provide the first report of ovulation-related gene alterations in the ovarian follicles of Amur sturgeons.