Journal
FRONTIERS IN PHYSIOLOGY
Volume 13, Issue -, Pages -Publisher
FRONTIERS MEDIA SA
DOI: 10.3389/fphys.2022.880004
Keywords
Sec62; head and neck cancer; CRISPR; Cas9; lymphogenic metastasis; xenograft model; trifluoperazine; thapsigargin
Categories
Funding
- Else Kroner Fresenius Stiftung
- Homburger Forschungsfoerderungsprogramm (HOMFOR) [2017_A83]
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SEC62 gene amplification is frequently observed in various cancer types and is associated with poor outcomes and increased metastatic burden.Due to its intracellular localization, functional knockdown of SEC62 represents a promising approach for targeted therapy. Inhibition of SEC62 function can limit tumor growth and metastasis formation by increasing cellular stress levels.
Various cancer types including head and neck squamous cell carcinomas (HNSCC) show a frequent amplification of chromosomal region 3q26 that encodes, among others, for the SEC62 gene. Located in the ER membrane, this translocation protein is known to play a critical role as a potential driver oncogene in cancer development. High SEC62 expression levels were observed in various cancer entities and were associated with a poor outcome and increased metastatic burden. Because of its intracellular localization the SEC62 protein is poorly accessible for therapeutic antibodies, therefore a functional SEC62 knockdown represents the most promising mechanism of a potential antineoplastic targeted therapy. By stimulating the Ca2+ efflux from the ER lumen and thereby increasing cellular stress levels, a functional inhibition of SEC62 bears the potential to limit tumor growth and metastasis formation. In this study, two potential anti-metastatic and -proliferative agents that counteract SEC62 function were investigated in functional in vitro assays by utilizing an immortalized human hypopharyngeal cancer cell line as well as a newly established orthotopic murine in vivo model. Additionally, a CRISPR/Cas9 based SEC62 knockout HNSCC cell line was generated and functionally characterized for its relevance in HNSCC cell proliferation and migration as well as sensitivity to SEC62 targeted therapy in vitro.
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