# Multiomics analysis reveals that chlorogenic acid alleviates heat stress-induced oxidative damage in prepubertal boar testes via the BLVRA-GPX3 pathway: in vivo and in vitro evidence

**Authors:** Shaoxuan Zhang, Dali Wang, Jiajia Qi, Jing Li, Simin Liu, Hao Sun, Shuang Liang, Boxing Sun

PMC · DOI: 10.1186/s40104-025-01336-0 · 2026-01-13

## TL;DR

Chlorogenic acid helps protect young boar testes from heat stress by reducing oxidative damage through a specific pathway involving BLVRA and GPX3.

## Contribution

This study identifies the BLVRA-GPX3 pathway as a novel mechanism through which chlorogenic acid mitigates heat stress effects in prepubertal boars.

## Key findings

- Chlorogenic acid significantly reduced heat stress-induced oxidative damage in boar testes.
- Multiomics analysis revealed that BLVRA is a key gene affected by both heat stress and chlorogenic acid.
- In vitro experiments confirmed that BLVRA modulates GPX3 expression and reduces ROS accumulation.

## Abstract

Heat stress (HS) can impair boar testicular function, leading to reproductive issues. However, chlorogenic acid (CGA) has been shown to mitigate HS-induced damage in various livestock and poultry species. Prepuberty is an important stage of testicular development in boars after birth. However, the protective effect of CGA on testicular HS injury during prepuberty boars and the underlying mechanisms are still not fully understood.

In vivo, a total of 30 healthy boars with similar body weights and ages were obtained and randomly divided into 3 groups, which were fed a basal diet supplemented with CGA 0 (the ND_TN group), 0 (the ND_HS group) or 1,000 (the CGA_HS group) mg/kg. After being fed for 28 d, all the groups, except the ND_TN group, were treated with high temperature for 7 d, after which samples were collected from the boars and analysed. The results showed that CGA significantly mitigated the HS-induced reduction in T-AOC content in testicular tissue and sperm density. Mechanistically, multiomics analysis revealed that the genes differentially expressed by CGA and HS were predominantly associated with the glutathione metabolism pathway. The combined analysis of transcriptomics and proteomics revealed that only BLVRA was affected by both HS and CGA when the mRNA and protein levels of a gene showed differential expression with the same trend. In vitro studies confirmed that CGA modulated GPX3 expression via BLVRA, affected GPx activity, and attenuated HS-induced ROS accumulation.

In conclusion, prepubertal HS impairs the spermatogenic capacity of boars. BLVRA may mediate the testicular protective effect of CGA, although in vivo validation of this pathway is needed. This study contributes to elucidating the mechanisms underlying the effects of HS on prepubertal boar testicular development using multiomics approaches, laying a foundation for the potential utilization of CGA in swine production.

The online version contains supplementary material available at 10.1186/s40104-025-01336-0.

## Linked entities

- **Genes:** BLVRA (biliverdin reductase A) [NCBI Gene 644], GPX3 (glutathione peroxidase 3) [NCBI Gene 2878]
- **Chemicals:** chlorogenic acid (PubChem CID 1794427)

## Full-text entities

- **Genes:** BLVRA (biliverdin reductase A) [NCBI Gene 100515289], GPX3 (glutathione peroxidase 3) [NCBI Gene 396598]
- **Diseases:** testicular (MESH:D013733), HS injury (MESH:D018882)
- **Chemicals:** CGA (MESH:D002726), glutathione (MESH:D005978), ROS (-)
- **Species:** Sus scrofa (pig, species) [taxon 9823], Suidae (boars, family) [taxon 9821]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12798073/full.md

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Source: https://tomesphere.com/paper/PMC12798073