# Investigating SMYD3 role during oocyte maturation in a 3D follicle-enclosed oocyte in vitro model in sheep

**Authors:** Chiara Camerano Spelta Rapini, Alessia Peserico, Chiara Di Berardino, Giulia Capacchietti, Camila Rojo-Fleming, Andrada-Ioana Damian-Buda, Irem Unalan, Aldo Roberto Boccaccini, Valentina Grossi, Mauro Mattioli, Barbara Barboni

PMC · DOI: 10.3389/fcell.2025.1625914 · Frontiers in Cell and Developmental Biology · 2025-06-25

## TL;DR

This study explores the role of SMYD3 in sheep oocyte maturation using a 3D in vitro model, revealing its impact on meiotic progression and developmental competence.

## Contribution

The study identifies SMYD3 as a key regulator of oocyte maturation and developmental competence through its interaction with hCG and CDC25A.

## Key findings

- SMYD3 inhibition alone induces germinal vesicle breakdown but requires hCG for full maturation.
- SMYD3 inhibition compromises developmental competence of oocytes, as shown by poor embryo development.
- SMYD3 regulates meiotic progression via CDC25A and modulates somatic signaling pathways distinct from hCG.

## Abstract

SMYD3 is a histone methyltransferase known for its dual role in modifying both histone and non-histone proteins. Despite its established involvement in somatic cell function and oncogenesis, its role in mammalian oogenesis and early embryonic development remains unclear. This study aimed to elucidate the function of SMYD3 in regulating oocyte meiotic progression and developmental competence using sheep as a mono-ovulatory model.

Utilizing a 3D follicle-enclosed in vitro maturation (FEO-IVM) system, the study examined the impact of SMYD3 inhibition on oocyte maturation within Early Antral follicles In the absence of human chorionic gonadotropin oocytes remained arrested at the germinal vesicle (GV) stage. Interestingly, treatment with a SMYD3 inhibitor (iSMYD3) alone prompted germinal vesicle breakdown (GVBD) in 67% of oocytes; however, progression to the metaphase II (MII) stage was achieved only when iSMYD3 was combined with hCG, resulting in a 73% maturation rate. Despite this, MII oocytes from the iSMYD3 group exhibited compromised developmental competence, as evidenced by the failure of parthenogenetic embryos to progress beyond the 8-cell stage, contrasting with a 29% success rate in the hCG-only group. At the molecular level, SMYD3 inhibition led to sustained activation of CDC25A within oocytes, facilitating GVBD but impeding the MI-MII transition due to the absence of CDC25A degradation. Moreover, iSMYD3 failed to activate the MAPK1/3 and PDE5A pathways in the somatic compartment, unlike hCG treatment, indicating distinct signaling mechanisms. Additionally, hCG rapidly downregulated SMYD3 expression in follicular walls and cumulus cells, a process independent of meiotic progression but essential for metabolic decoupling between oocytes and cumulus cells. SMYD3 inhibition disrupted this decoupling by preventing hCG-induced gap junction closure, thereby maintaining prolonged intercellular communication.

SMYD3 is identified as a key modulator of oocyte maturation, orchestrating meiotic progression through CDC25A regulation and interacting with hCG-driven somatic signaling. These findings highlight SMYD3 as a critical determinant of late oogenesis and a potential target for enhancing oocyte competence in assisted reproductive technologies

## Linked entities

- **Genes:** SMYD3 (SET and MYND domain containing 3) [NCBI Gene 64754], CDC25A (cell division cycle 25A) [NCBI Gene 993], MAPK13 (mitogen-activated protein kinase 13) [NCBI Gene 5603], PDE5A (phosphodiesterase 5A) [NCBI Gene 8654]
- **Chemicals:** hCG (PubChem CID 4369448)

## Full-text entities

- **Genes:** SMYD3 [NCBI Gene 101116161], MAPK1/3 [NCBI Gene 100194428], CDC25A [NCBI Gene 101113178], PDE5A [NCBI Gene 100294560]
- **Diseases:** oncogenesis (MESH:D063646)
- **Chemicals:** iSMYD3 (-)
- **Species:** Ovis aries (domestic sheep, species) [taxon 9940], Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12238014/full.md

## References

41 references — full list in the complete paper: https://tomesphere.com/paper/PMC12238014/full.md

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Source: https://tomesphere.com/paper/PMC12238014