Low-Density Lipoprotein Receptor Is a Key Driver of Aggressiveness in Thyroid Tumor Cells

We previously described the role of low-density lipoprotein (LDL) in aggressiveness in papillary thyroid cancer (PTC). Moreover, the MAPK signaling pathway in the presence of BRAF V600E mutation is associated with more aggressive PTC. Although the link between MAPK cascade and LDL receptor (LDLR) ex...

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Detalhes bibliográficos
Autores: Revilla, Giovanna|||0000-0003-2971-5651, Ruiz-Auladell, Lara, Fucui Vallverdú, Núria, Santamaría, Paula, Moral, Antonio|||0000-0001-5551-0145, Pérez, José Ignacio, Li, Changda|||0000-0002-2847-3737, Fuste, Victoria|||0000-0001-5065-3737, Lerma Puertas, Enrique|||0000-0001-7908-2747, Corcoy i Pla, Rosa|||0000-0001-5055-6814, Pitoia, Fabián, Escolà-Gil, Joan Carles|||0000-0001-9021-2485, Mato, Eugènia|||0000-0001-8121-9335
Tipo de documento: artigo
Data de publicação:2023
País:España
Recursos:Universitat Autònoma de Barcelona
Repositório:Dipòsit Digital de Documents de la UAB
Idioma:inglês
OAI Identifier:oai:ddd.uab.cat:291488
Acesso em linha:https://ddd.uab.cat/record/291488
https://dx.doi.org/urn:doi:10.3390/ijms241311153
Access Level:Acceso aberto
Palavra-chave:BRAF V600E
RAS/RAF/MAPK (MEK)/ERK pathway
Low-density lipoprotein (LDL)
Low-density lipoprotein receptor (LDLR)
Thyroid cancer (TC)
Descrição
Resumo:We previously described the role of low-density lipoprotein (LDL) in aggressiveness in papillary thyroid cancer (PTC). Moreover, the MAPK signaling pathway in the presence of BRAF V600E mutation is associated with more aggressive PTC. Although the link between MAPK cascade and LDL receptor (LDLR) expression has been previously described, it is unknown whether LDL can potentiate the adverse effects of PTC through it. We aimed to investigate whether the presence of LDL might accelerate the oncogenic processes through MAPK pathway in presence or absence of BRAF V600E in two thyroid cell lines: TPC1 and BCPAP (wild-type and BRAF V600E, respectively). LDLR, PI3K-AKT and RAS/RAF/MAPK (MEK)/ERK were analyzed via Western blot; cell proliferation was measured via MTT assay, cell migration was studied through wound-healing assay and LDL uptake was analyzed by fluorometric and confocal analysis. TPC1 demonstrated a time-specific downregulation of the LDLR, while BCPAP resulted in a receptor deregulation after LDL exposition. LDL uptake was increased in BCPAP over-time, as well as cell proliferation (20% higher) in comparison to TPC1. Both cell lines differed in migration pattern with a wound closure of 83.5 ± 9.7% after LDL coculture in TPC1, while a loss in the adhesion capacity was detected in BCPAP. The siRNA knockdown of LDLR in LDL-treated BCPAP cells resulted in a p-ERK expression downregulation and cell proliferation modulation, demonstrating a link between LDLR and MAPK pathway. The modulation of BRAF-V600E using vemurafenib-impaired LDLR expression decreased cellular proliferation. Our results suggest that LDLR regulation is cell line-specific, regulating the RAS/RAF/MAPK (MEK)/ERK pathway in the LDL-signaling cascade and where BRAF V600E can play a critical role. In conclusion, targeting LDLR and this downstream signaling cascade, could be a new therapeutic strategy for PTC with more aggressive behavior, especially in those harboring BRAF V600E.