# Effect of arginine on proliferation of porcine ovarian granulosa cells and steroid hormone synthesis

**Authors:** Tianrui Zhang, Xintan Lu, Xinyi Wang, Zebei Liu, Xuwen Shao, Rui Han, Dongsheng Che

PMC · DOI: 10.3389/fvets.2026.1766335 · Frontiers in Veterinary Science · 2026-02-04

## TL;DR

This study shows that arginine boosts the growth and hormone production of pig ovarian cells, which could help improve reproductive health in animals.

## Contribution

The study reveals arginine's role in regulating porcine granulosa cell proliferation and steroid hormone synthesis via STARD3 and STARD6.

## Key findings

- 4.2 mM arginine significantly increased granulosa cell proliferation and upregulated cell cycle and anti-apoptosis genes.
- Arginine enhanced estradiol synthesis by upregulating CYP11A1 and STAR gene expression.
- Transcriptome analysis showed arginine upregulated STARD3 and STARD6, key genes in cholesterol metabolism.

## Abstract

Granulosa cells of the ovary (GOC) served as a core component of the follicular microenvironment, playing a crucial role in regulating steroid hormone synthesis and maintaining pregnancy initiation during key reproductive processes. Arginine (Arg) was a key amino acid in follicular fluid that played a potential role in regulating animal reproduction. However, the mechanism by which it controlled the secretion of steroid hormones by ovarian granulosa cells during the initiation of pregnancy remained unclear. In this study, primary porcine ovarian granulosa cells were used to investigate the effects of arginine on cell proliferation, steroid hormone synthesis, and the underlying molecular mechanisms related to pregnancy maintenance. Results showed that the average arginine concentration in follicles measuring 3–8 mm in diameter was 2.7 mM. Based on these measurements, five arginine supplementation groups were established. Findings indicated that the 4.2 mM arginine group exhibited the highest granulosa cell proliferation efficiency, significantly higher than the control group (p < 0.01). The 4.2 mM arginine group significantly upregulated the expression of genes related to cell proliferation, cell cycle, and apoptosis. Concurrently, the 4.2 mM arginine group upregulated the expression of steroid hormone synthesis-related genes CYP11A1 (p < 0.01) and STAR (p < 0.01), thereby promoting estradiol synthesis. Transcriptome sequencing revealed the molecular mechanism by which arginine promoted proliferation and hormone secretion in porcine ovarian granulosa cells. The study found that arginine significantly upregulated the expression of STARD3 and STARD6, key genes in the cholesterol metabolism pathway. This study underscored the pivotal function of arginine in the regulation of reproduction, elucidating its influence on cellular cholesterol metabolism, the promotion of porcine ovarian granulosa cell proliferation, the inhibition of apoptosis, the enhancement of cellular activity, and the facilitation of steroid hormone synthesis through the mediation of STARD3 and STARD6.

## Linked entities

- **Genes:** CYP11A1 (cytochrome P450 family 11 subfamily A member 1) [NCBI Gene 1583], STAR (steroidogenic acute regulatory protein) [NCBI Gene 6770], STARD3 (StAR related lipid transfer domain containing 3) [NCBI Gene 10948], STARD6 (StAR related lipid transfer domain containing 6) [NCBI Gene 147323]
- **Chemicals:** arginine (PubChem CID 232)

## Full-text entities

- **Genes:** CYP11A1 (cytochrome P450 family 11 subfamily A member 1) [NCBI Gene 403329] {aka SSC}, CDK1 (cyclin dependent kinase 1) [NCBI Gene 100155762] {aka CDC2}, STARD6 (StAR related lipid transfer domain containing 6) [NCBI Gene 100157201], AKT1 (AKT serine/threonine kinase 1) [NCBI Gene 100126861] {aka Akt, PKB}, CDC42 (cell division cycle 42) [NCBI Gene 780428], BAX (BCL2 associated X, apoptosis regulator) [NCBI Gene 396633] {aka BAX-ALPHA}, CYP19A1 (cytochrome P450 family 19 subfamily A member 1) [NCBI Gene 1588] {aka ARO, ARO1, CPV1, CYAR, CYP19, CYPXIX}, STARD3 (StAR related lipid transfer domain containing 3) [NCBI Gene 100233202], FSHR (follicle stimulating hormone receptor) [NCBI Gene 397679], CDK4 (cyclin dependent kinase 4) [NCBI Gene 100144492], STARD6 (StAR related lipid transfer domain containing 6) [NCBI Gene 147323], CYP19A1 (cytochrome P450 family 19 subfamily A member 1) [NCBI Gene 403331] {aka CYP19}, PCNA (proliferating cell nuclear antigen) [NCBI Gene 692192], CCNB1 (cyclin B1) [NCBI Gene 397662], HSD3B1 (hydroxy-delta-5-steroid dehydrogenase, 3 beta- and steroid delta-isomerase 1) [NCBI Gene 445539] {aka 3B-HSD, HSD3B}, STAR (steroidogenic acute regulatory protein) [NCBI Gene 6770] {aka STARD1}, CASP3 (caspase 3) [NCBI Gene 397244], STARD3 (StAR related lipid transfer domain containing 3) [NCBI Gene 10948] {aka CAB1, MLN64, es64}, beta-actin [NCBI Gene 100158242], CCND1 (cyclin D1) [NCBI Gene 100738589], STAR (steroidogenic acute regulatory protein) [NCBI Gene 396597], FSH (Plasma FSH concentration) [NCBI Gene 449319], BCL2 (BCL2 apoptosis regulator) [NCBI Gene 100049703], CYP11A1 (cytochrome P450 family 11 subfamily A member 1) [NCBI Gene 1583] {aka CYP11A, CYPXIA1, P450SCC}
- **Diseases:** deficiency (MESH:D007153)
- **Chemicals:** water (MESH:D014867), TRIzol (MESH:C411644), gentamicin (MESH:D005839), Cholesterol (MESH:D002784), nitric oxide (MESH:D009569), follicle-stimulating hormone (MESH:D005640), EDTA (MESH:D004492), F12 (MESH:C007782), E2 (MESH:D004958), streptomycin (MESH:D013307), Triton X-100 (MESH:D017830), pregnenolone (MESH:D011284), CO2 (MESH:D002245), Steroid hormone (MESH:D013256), lipid (MESH:D008055), paraformaldehyde (MESH:C003043), P4 (MESH:C015586), DAPI (MESH:C007293), NO (MESH:D009614), A5006 (-), PI (MESH:D011419), penicillin (MESH:D010406), amino acid (MESH:D000596), amphotericin B (MESH:D000666), Arg (MESH:D001120), fatty acids (MESH:D005227)
- **Species:** Ovis aries (domestic sheep, species) [taxon 9940], Sus scrofa (pig, species) [taxon 9823], Mus musculus (house mouse, species) [taxon 10090], Bos taurus (bovine, species) [taxon 9913], Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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## References

34 references — full list in the complete paper: https://tomesphere.com/paper/PMC12913061/full.md

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Source: https://tomesphere.com/paper/PMC12913061