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Discovery of Lipid Metabolism Networks As Key Pathways in Breast Cancer Via Genomic Data Integration and Wgcna Publisher Pubmed



Safabakhsh M1, 18 ; Sargazimoghaddam N2, 18 ; Ourang Z3, 18 ; Nejad ER4, 18 ; Hedayati M5, 18 ; Rahgozar MR6, 18 ; Nematollahi SF7, 18 ; Delasaeimarvi S8, 18 ; Karimi A9, 18 ; Shahparvary R10, 18 ; Talouki FG11, 18 ; Gholami F18 ; Azizi A13, 18 ; Zakerhamidi D12, 18 Show All Authors
Authors
  1. Safabakhsh M1, 18
  2. Sargazimoghaddam N2, 18
  3. Ourang Z3, 18
  4. Nejad ER4, 18
  5. Hedayati M5, 18
  6. Rahgozar MR6, 18
  7. Nematollahi SF7, 18
  8. Delasaeimarvi S8, 18
  9. Karimi A9, 18
  10. Shahparvary R10, 18
  11. Talouki FG11, 18
  12. Gholami F18
  13. Azizi A13, 18
  14. Zakerhamidi D12, 18
  15. Esmaeili K14, 18
  16. Sadeghi S15, 18
  17. Golchin ME16, 18
  18. Behfar Q17, 18
  19. Dolatabadi NF16, 18
Show Affiliations
Authors Affiliations
  1. 1. Department of Biotechnology, Faculty of Science, Gonbad Cavous University, Gorgan, Iran
  2. 2. Faculty of Medicine, Shiraz University of Medical Sciences, Shiraz, Iran
  3. 3. Arak University of Medical Sciences, Arak, Iran
  4. 4. Department of Cellular and Molecular Biology, Faculty of Advanced Science and Technology, Tehran Medical Sciences, Islamic Azad University, Tehran, Iran
  5. 5. Zhejiang University School of Medicine, Zhejiang, China
  6. 6. Department of Biological Science, Faculty of Science, University of Kurdistan, Sanandaj, Iran
  7. 7. Kerman University of Medical Sciences, Kerman, Iran
  8. 8. Medical Faculty, Islamic Azad University of Mashhad, Mashhad, Iran
  9. 9. Department of Veterinary, Islamic Azad University, Babol Branch, Babol, Iran
  10. 10. Faculty of Pharmacy and Pharmaceutical Sciences, Tehran Medical Sciences, Islamic Azad University, Tehran, Iran
  11. 11. Department of Basic Sciences, Faculty of Medicine, Sari Branch, Islamic Azad University, Sari, Iran
  12. 12. Faculty of Pharmacy, Tabriz University of Medical Sciences, Tabriz, Iran
  13. 13. Faculty of Pharmacy, Yeditepe University, Istanbul, Turkey
  14. 14. Medical School, The University of Sheffield, Sheffield, United Kingdom
  15. 15. Department of Biotechnology, Faculty of Science, Yazd University, Yazd, Iran
  16. 16. Department of Genetics, Faculty of Science, Shahrekord University, Shahrekord, Iran
  17. 17. National Institute for Health Research, Tehran University of Medical Sciences, Tehran, Iran
  18. 18. Fattahi Azad Biotechnology Vocational School, Isfahan, Iran

Source: Clinical Laboratory Published:2025


Abstract

Background: Breast cancer remains a major global health issue, requiring innovative approaches for early detection and treatment. This study employs weighted gene co-expression network analysis (WGCNA) to uncover the complex biological processes and pathways involved in tumorigenesis by focusing on gene modules rather than individual genes. The aim of this study was to integrate multiple datasets and utilize WGCNA to identify the key genes involved in breast cancer. By combining various gene expression datasets, we aimed to identify significant gene modules and regulatory networks that contribute to breast cancer progression. Methods: Four gene expression datasets from the NCBI Gene Expression Omnibus (GEO) were integrated to explore the genetic profiles of breast cancer. Using high-throughput genomic data, WGCNA identified key regulatory networks and hub genes involved in disease progression, and RT-qPCR was performed for validation. Results: The study identified 9,707 DEGs, showing significant alterations in gene expression between tumor and adjacent normal tissues. Four critical genes, ADIPOQ, CHRDL1, FABP4, and PLIN1, were highlighted, with their expression closely linked to lipid metabolism pathways, which are crucial in breast cancer biology. Notably, ADIPOQ expression was significantly reduced in tumor samples. Conclusions: The integration of Omics data through WGCNA uncovered key interconnected gene modules, emphasizing the critical role of lipid metabolism in cancer progression. These results underscore the need for targeted therapeutic strategies to restore hub gene expression and to present potential biomarkers for early diagnosis and treatment. Moreover, lipid metabolism emerged as a pivotal pathway in breast cancer progression, suggesting that its regulation could be essential not only for targeted therapies but also for the prevention and control of the disease. This approach offers promising avenues for early intervention that could potentially reduce cancer risk. © 2025 Verlag Klinisches Labor GmbH. All rights reserved.
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