Authors
Xinyao Chen, Xin Shen, Wannan Jia, Yalei Wang, Qiuyi Huo, Yanbo Xiao, Yulin Zhang, Linzhao Li, Xuqing Gao, Guangqi A, Fengjing Yang, Yilin Chen, Tianhui Chen, Min Zhang, Jin Yang, Yan Pi, Zexu Chen, Yongxiang Jiang
Published in
Investigative ophthalmology & visual science. Volume 67. Issue 8. Pages 29. Jul 01, 2026.
Abstract
To systematically characterize aqueous humor (AH) proteomic alterations in ADAMTSL4-associated congenital ectopia lentis (CEL) and to identify disease-related molecular features.
Mass spectrometry-based deep data-independent acquisition (deep DIA) proteomics was employed to profile AH proteomes from pediatric ADAMTSL4-associated CEL patients. Differentially expressed proteins (DEPs) were analyzed using functional enrichment and gene set enrichment analysis. Weighted gene co-expression network analysis (WGCNA) identified disease-related protein modules. Candidate biomarkers were prioritized using machine learning, followed by technical confirmation using intelligent parallel reaction monitoring (iPRM) and clinical correlation analysis. Transcriptional changes of selected candidates were assessed by quantitative PCR in ADAMTSL4-knockdown human retinal pigment epithelial cells, human fibroblasts, and adamtsl4-knockout zebrafish.
Deep DIA quantified 1865 AH proteins, among which 265 DEPs were identified and enriched in extracellular matrix (ECM) remodeling, complement-coagulation cascades, and lipid transport pathways. Expression-based stratification revealed tier-specific functional patterns. WGCNA identified modules significantly associated with ocular phenotypes. Machine learning prioritized six candidate biomarkers (ADAMTS3, APOC2, AMBP, KLKB1, SDC4, and ENPP2), of which APOC2, AMBP, KLKB1, and ENPP2 achieved targeted confirmation by iPRM; APOC2, KLKB1, and ENPP2 were correlated with axial length or choroidal thickness. In ADAMTSL4-knockdown cells, ENPP2, MYDGF, and CA2 were downregulated and LCAT was upregulated, consistent with proteomic findings. MYDGF further showed a concordant directional change in the zebrafish model.
This study established a high-resolution AH proteomic profile of ADAMTSL4-associated CEL, revealing coordinated molecular alterations in ECM disruption, complement-coagulation activation, and dysregulated lipid homeostasis, providing integrated molecular insights and candidate molecular features for understanding this rare ocular disorder.
PMID:
42423409
Bibliographic data and abstract were imported from PubMed on 09 Jul 2026.
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