# Melatonin modulates the gene expression of WEE1 kinase and clock genes: a crosstalk between the molecular clocks of the placenta?

**Authors:** Carlos Venegas, Kevins Jara-Medina, Nicole Cueto, Gerardo Cabello-Guzmán, Constanza Lagunas, Luis Lillo, Francisco J. Valenzuela-Melgarejo

PMC · DOI: 10.3389/fendo.2025.1640635 · Frontiers in Endocrinology · 2025-10-29

## TL;DR

This study explores how melatonin affects gene expression in the human placenta, particularly genes related to the circadian clock and cell cycle regulation.

## Contribution

The study reveals melatonin's role in modulating circadian and cell cycle genes in placental tissue, suggesting a crosstalk between these systems.

## Key findings

- Melatonin suppressed the rhythmic expression of BMAL1, PER2, and WEE1 in placental explants.
- Placental melatonin production remained steady regardless of exogenous melatonin treatment.
- Circadian genes BMAL1, PER1, PER2, and WEE1 showed rhythmic expression in placental tissue.

## Abstract

The circadian system organizes during 24 hours the temporal variations in biological processes such as the cell cycle, metabolism, and hormone production. This occurs by a transcriptional/translational feedback loop of core clock genes, namely, BMAL1, PER1-3, and CRY1-2. The CLOCK–BMAL1 complex regulates clock-controlled genes like WEE1 kinase, a key modulator of mitotic entry and placental cell proliferation.

We aimed to identify temporally regulated gene expression patterns in the human placenta using bioinformatics analysis of available microarrays in Gene Expression Omnibus (GEO) datasets and to validate selected findings in cultured placental explants.

Temporal microarray data from the GEO were analyzed to identify circadian and cell cycle-related genes. Selected targets were validated in vitro using explant cultures of human placenta sampled every 4 hours for 36 hours, with or without 10 nM melatonin.

We observed rhythmic expression of BMAL1, PER1, PER2, and WEE1 in human placental explants, consistent with the temporal patterns detected in silico. Melatonin treatment suppressed the circadian oscillation of BMAL1, PER2, and WEE1. Interestingly, the placenta produced melatonin steadily over 36 hours, and exogenous melatonin did not alter this production.

## Linked entities

- **Genes:** BMAL1 (basic helix-loop-helix ARNT like 1) [NCBI Gene 406], PER1 (period circadian regulator 1) [NCBI Gene 5187], PER2 (period circadian regulator 2) [NCBI Gene 8864], CRY1 (cryptochrome circadian regulator 1) [NCBI Gene 1407], CRY2 (cryptochrome circadian regulator 2) [NCBI Gene 1408], WEE1 (WEE1 G2 checkpoint kinase) [NCBI Gene 7465], CLOCK (clock circadian regulator) [NCBI Gene 9575]
- **Chemicals:** melatonin (PubChem CID 896)
- **Species:** Homo sapiens (taxon 9606)

## Full-text entities

- **Genes:** CLOCK (clock circadian regulator) [NCBI Gene 9575] {aka KAT13D, bHLHe8}, WEE1 (WEE1 G2 checkpoint kinase) [NCBI Gene 7465] {aka WEE1A, WEE1hu}, PER2 (period circadian regulator 2) [NCBI Gene 8864] {aka FASPS, FASPS1}, PER1 (period circadian regulator 1) [NCBI Gene 5187] {aka PER, RIGUI, hPER}, BMAL1 (basic helix-loop-helix ARNT like 1) [NCBI Gene 406] {aka ARNTL, ARNTL1, BMAL1c, JAP3, MOP3, PASD3}
- **Chemicals:** Melatonin (MESH:D008550)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12605082/full.md

## References

104 references — full list in the complete paper: https://tomesphere.com/paper/PMC12605082/full.md

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Source: https://tomesphere.com/paper/PMC12605082