# Proteomic analysis of human follicular fluid based on the 4D label free method to identify proteins that may affect oocyte quality in hyperandrogenic PCOS patients

**Authors:** Qianqian Yin, Jianhua Zheng, Yijuan Cao, Xiaonan Yan, Hong Zhang

PMC · DOI: 10.3389/fendo.2025.1579469 · Frontiers in Endocrinology · 2025-05-15

## TL;DR

This study identifies specific proteins in follicular fluid that may affect embryo quality in women with hyperandrogenic PCOS.

## Contribution

Novel proteomic insights into follicular fluid proteins linked to oocyte quality in hyperandrogenic PCOS patients.

## Key findings

- HA PCOS patients had significantly lower embryo quality metrics compared to NHA and control groups.
- Three proteins (IGFBP5, LAMP2, CDH5) were identified as potential markers affecting oocyte and embryo quality.
- IGFBP5 and LAMP2 levels negatively correlated with embryo quality indicators, while CDH5 showed positive correlations.

## Abstract

Proteomic analysis was conducted on human follicular fluid (FF) using the 4D label-free method to identify proteins potentially influencing oocyte quality in hyperandrogenic (HA) polycystic ovary syndrome (PCOS) patients.

FF was collected from 3 different groups: HA PCOS patients, non-hyperandrogenic (NHA) PCOS patients, and controls. Protein profiles of FF from HA PCOS patients (n = 10) were constructed utilizing 4D label-free proteomics technology. Differentially expressed proteins were identified by comparing these profiles with those from NHA PCOS (n = 10) and control patients (n = 10). In addition, FF was collected from 34 HA, 33 NHA, and 23 control patients for enzyme-linked immunosorbent assay (ELISA) validation of differentially expressed proteins. Associations between the levels of differentially expressed proteins in FF and various embryonic outcome indicators were evaluated.

The HA group demonstrated significantly reduced normal cleavage rates, D3 available embryo rates, D3 high-quality embryo rates, available blastocyst rates, and high-quality blastocyst rates compared to the NHA and control groups (HA vs. NHA vs. Control, 88.3 vs. 93.6 vs. 94.23, 70.57 vs. 81.76 vs. 83.77, 42.49 vs. 56.39 vs. 61.83, 55.0 vs. 65.96 vs. 67.26, 27.62 vs. 45.19 vs. 44.75, respectively), with statistically significant differences (P < 0.05). 23 differentially expressed proteins were identified in FF profiles of the HA group relative to the control group, while 9 differentially expressed proteins were noted in comparison with the NHA group. Cross-comparison highlighted three potential target proteins: insulin-like growth factor binding protein 5 (IGFBP5), lysosomal-associated membrane protein 2 (LAMP2), and cadherin-5 (CDH5). Adjusting for age and body mass index (BMI), IGFBP5 levels in FF exhibited negative correlations with normal cleavage rate, D3 high-quality embryo rate, available blastocyst rate, and high-quality blastocyst rate (P ≤ 0.05). Similarly, LAMP2 levels were negatively correlated with normal cleavage rate, D3 available embryo rate, D3 high-quality embryo rate, and high-quality blastocyst rate (P < 0.05). CDH5 levels demonstrated positive correlations with D3 high-quality embryo rate and high-quality blastocyst rate (P < 0.05).

The proteins IGFBP5, LAMP2, and CDH5 may contribute to the mechanisms underlying the adverse effects of hyperandrogenism on oocyte quality in PCOS patients.

## Linked entities

- **Genes:** IGFBP5 (insulin like growth factor binding protein 5) [NCBI Gene 3488], LAMP2 (lysosome associated membrane protein 2) [NCBI Gene 3920], CDH5 (cadherin 5) [NCBI Gene 1003]
- **Diseases:** polycystic ovary syndrome (MONDO:0008487)

## Full-text entities

- **Genes:** LAMP2 (lysosome associated membrane protein 2) [NCBI Gene 3920] {aka CD107b, DND, LAMP-2, LAMPB, LGP-96, LGP110}, IGFBP5 (insulin like growth factor binding protein 5) [NCBI Gene 3488] {aka IBP5}, CDH5 (cadherin 5) [NCBI Gene 1003] {aka 7B4, CD144}
- **Diseases:** hyperandrogenic (HA (MESH:D017588), PCOS (MESH:D011085)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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## References

51 references — full list in the complete paper: https://tomesphere.com/paper/PMC12119282/full.md

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Source: https://tomesphere.com/paper/PMC12119282