Metadherin Regulates Inflammatory Breast Cancer Invasion and Metastasis.
Gabriela Ortiz-SotoNatalia S Babilonia-DíazMercedes Y Lacourt-VenturaDelmarie M Rivera-RodríguezJailenne I Quiñones-RodríguezMónica Colón-VargasIsrael A Almodóvar-RiveraLuis E Ferrer-TorresIvette J Suárez-ArroyoMichelle M Martínez MontemayorPublished in: International journal of molecular sciences (2023)
Inflammatory breast cancer (IBC) is one of the most lethal subtypes of breast cancer (BC), accounting for approximately 1-5% of all cases of BC. Challenges in IBC include accurate and early diagnosis and the development of effective targeted therapies. Our previous studies identified the overexpression of metadherin (MTDH) in the plasma membrane of IBC cells, further confirmed in patient tissues. MTDH has been found to play a role in signaling pathways related to cancer. However, its mechanism of action in the progression of IBC remains unknown. To evaluate the function of MTDH, SUM-149 and SUM-190 IBC cells were edited with CRISPR/Cas9 vectors for in vitro characterization studies and used in mouse IBC xenografts. Our results demonstrate that the absence of MTDH significantly reduces IBC cell migration, proliferation, tumor spheroid formation, and the expression of NF-κB and STAT3 signaling molecules, which are crucial oncogenic pathways in IBC. Furthermore, IBC xenografts showed significant differences in tumor growth patterns, and lung tissue revealed epithelial-like cells in 43% of wild-type (WT) compared to 29% of CRISPR xenografts. Our study emphasizes the role of MTDH as a potential therapeutic target for the progression of IBC.
Keyphrases
- crispr cas
- cell migration
- induced apoptosis
- signaling pathway
- genome editing
- oxidative stress
- cell proliferation
- gene expression
- squamous cell carcinoma
- poor prognosis
- wild type
- dna methylation
- cell cycle arrest
- high resolution
- long non coding rna
- endoplasmic reticulum stress
- single cell
- immune response
- young adults
- mass spectrometry
- risk assessment
- climate change
- inflammatory response
- childhood cancer
- breast cancer risk
- drug induced