LSM3, NDUFB3, and PTGS2 may be potential biomarkers for BRCA1-mutation positive breast cancer

Author:

Hu Kang1,Gan Fengjiao1,Wang Xue1,Xu Lin2,Wu Qiaoyuan2,Jiang Ni2,Sun Suhong1

Affiliation:

1. Breast and Thyroid Disease Medical Center , Affiliated Hospital of Zunyi Medical University , Zunyi, GuiZhou province, 563003 , China

2. Department of Oncology Laboratory , Affiliated Hospital of Zunyi Medical University , Zunyi, GuiZhou province, 563003 , China

Abstract

Abstract Purpose: We aimed to find critical biomakers associated with BRCA1-mutation positive breast cancer. Methods: The data set E-MTAB-982 was downloaded from ArrayExpress database and the data were preprocessed using R package Oligo. Differential expression analysis between BRCA1-mutation positive breast cancer patients and BRCA1-mutation positive healthy subjects were performed using limma package. Then, gene set enrichment analysis was conducted. We constructed the network for BRCA1, its related differentially expressed genes (DEGs), and the enriched Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways. After that, survival analysis was performed based on the clinical data of breast cancer in TCGA database. Finally, box diagram for key genes was drawn. Results: The network showed that LSM3, NDUFB3, GNPDA2, and PTGS2 were BRCA1 related DEGs. Furthermore, LSM3 was mainly enriched in RNA degradation pathway and spliceosome pathway. PTGS2 was enriched in arachidonic acid metabolism and VEGF signaling pathway. Survival analysis indicated that high expression of LSM3 indicated a poor prognosis of BRCA1-mutant breast cancer. Besides, box diagram showed that LSM3 was down-regulated in BRCA1-mutation positive breast cancer patients compared with that in BRCA1-mutation positive healthy subjects. Conclusions: LSM3, NDUFB3, and PTGS2 may be biomarkers in BRCA1-mutant breast cancer, and high expression of LSM3 may indicate a poor prognosis of BRCA1-mutant breast cancer.

Publisher

Walter de Gruyter GmbH

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