Correlation of syndecan gene amplification with metastatic potential and clinical outcomes in carcinomas.
Sewoon KimHyeonju YangSubin ChoYunjung JangInn-Oc HanEok-Soo OhPublished in: American journal of physiology. Cell physiology (2024)
Cell surface receptors play crucial roles in cellular responses to extracellular ligands, helping to modulate the functions of a cell based on information coming from outside the cell. Syndecan refers to a family of cell adhesion receptors that regulate both extracellular and cytosolic events. Alteration of syndecan expression disrupts regulatory mechanisms in a cell type-specific fashion, often leading to serious diseases, notably cancer. Given the multifaceted functions and distinct tissue distributions of syndecan, it will be important to unravel the gene-level intricacies of syndecan expression and thereby further understand its involvement in various carcinogenic processes. Although accumulating evidence indicates that the protein expression patterns of syndecan family members are significantly altered in cancer cells, the underlying gene-level mechanisms remain largely unknown. This review endeavors to explore syndecan gene expression levels across different cancer types by scrutinizing extensive cancer genome datasets using tools such as cBioPortal. Our analysis unveils that somatic mutations in SDC genes are rare occurrences, whereas copy number alterations are frequently observed across diverse cancers, particularly in SDC2 and SDC4 . Notably, amplifications of SDC2 and SDC4 correlate with heightened metastatic potential and dismal prognosis. This underscores the recurrent nature of SDC2 and SDC4 amplifications during carcinogenesis and sheds light on their role in promoting cancer activity through augmented protein expression. The identification of these amplifications not only enriches our understanding of carcinogenic mechanisms but also hints at the potential therapeutic avenue of targeting SDC2 and SDC4 to curb cancer cell proliferation and metastasis.
Keyphrases
- copy number
- papillary thyroid
- genome wide
- gene expression
- squamous cell
- cell proliferation
- mitochondrial dna
- squamous cell carcinoma
- small cell lung cancer
- dna methylation
- poor prognosis
- healthcare
- childhood cancer
- young adults
- drug delivery
- stem cells
- signaling pathway
- cell adhesion
- climate change
- genome wide identification
- mesenchymal stem cells
- pi k akt