Add to ORKGAn emerging concept in melanoma biology is that of dynamic, adaptive phenotype switching, where cells switch from a highly proliferative, poorly invasive phenotype to a highly invasive, less proliferative one. This switch may hold significant implications not just for metastasis, but also for therapy resistance. We demonstrate that phenotype switching and subsequent resistance can be guided by changes in expression of receptors involved in the noncanonical Wnt5A signaling pathway, ROR1 and ROR2. ROR1 and ROR2 are inversely expressed in melanomas and negatively regulate each other. Furthermore, hypoxia initiates a shift of ROR1-positive melanomas to a more invasive, ROR2-positive phenotype. Notably, this receptor switch induces a 10-fold dec...
Melanoma is a highly aggressive cancer with the poorest prognosis, representing the deadliest form o...
International audienceMelanomas are very aggressive neoplasms with notorious resistance to therapeut...
The discovery of the BRAFV600E mutation led to the development of vemurafenib (PLX4032), a selective...
Tyrosine kinase receptors represent targets of great interest for cancer therapy. Here we demonstrat...
Epithelial-mesenchymal transition (EMT) is a key process associated with the progression of epitheli...
Tyrosine kinase receptors represent targets of great interest for cancer therapy. Here we demonstrat...
Abstract Background Receptor tyrosine kinase-like orphan receptor 2 (ROR2) is a Wnt5a receptor aberr...
We have previously reported a model for melanoma progression in which oscillation between melanoma c...
Drug resistance constitutes a major challenge in designing melanoma therapies. Microenvironment-driv...
Compelling evidence indicates that the immediate heterogeneous adaptive response of BRAF-mutated mel...
Drug resistance constitutes a major challenge in designing melanoma therapies. Microenvironment-driv...
Melanoma cells can switch from a highly proliferative, less invasive state to a highly invasive, les...
Mutations in BRAF are present in the majority of patients with melanoma, rendering these tumors sens...
Treatment of BRAF‐mutant melanomas with MAP kinase pathway inhibitors is paradigmatic of the promise...
Clinical management of melanomas with NRAS mutations is challenging. Targeting MAPK signaling is onl...
Melanoma is a highly aggressive cancer with the poorest prognosis, representing the deadliest form o...
International audienceMelanomas are very aggressive neoplasms with notorious resistance to therapeut...
The discovery of the BRAFV600E mutation led to the development of vemurafenib (PLX4032), a selective...
Tyrosine kinase receptors represent targets of great interest for cancer therapy. Here we demonstrat...
Epithelial-mesenchymal transition (EMT) is a key process associated with the progression of epitheli...
Tyrosine kinase receptors represent targets of great interest for cancer therapy. Here we demonstrat...
Abstract Background Receptor tyrosine kinase-like orphan receptor 2 (ROR2) is a Wnt5a receptor aberr...
We have previously reported a model for melanoma progression in which oscillation between melanoma c...
Drug resistance constitutes a major challenge in designing melanoma therapies. Microenvironment-driv...
Compelling evidence indicates that the immediate heterogeneous adaptive response of BRAF-mutated mel...
Drug resistance constitutes a major challenge in designing melanoma therapies. Microenvironment-driv...
Melanoma cells can switch from a highly proliferative, less invasive state to a highly invasive, les...
Mutations in BRAF are present in the majority of patients with melanoma, rendering these tumors sens...
Treatment of BRAF‐mutant melanomas with MAP kinase pathway inhibitors is paradigmatic of the promise...
Clinical management of melanomas with NRAS mutations is challenging. Targeting MAPK signaling is onl...
Melanoma is a highly aggressive cancer with the poorest prognosis, representing the deadliest form o...
International audienceMelanomas are very aggressive neoplasms with notorious resistance to therapeut...
The discovery of the BRAFV600E mutation led to the development of vemurafenib (PLX4032), a selective...