AI Article Synopsis
- There is a big problem with treatments for advanced melanoma when patients have a specific mutation called BRAF, which makes the therapy not work as well as hoped.
- A part of the environment around the tumor, called the extracellular matrix (ECM), helps the tumors resist these treatments and helps them survive.
- By studying how tumors adapt, scientists found that targeting certain proteins (DDR1 and DDR2) in the ECM can make treatments more effective and slow down the growth of the tumors.
Article Abstract
Resistance to BRAF/MEK inhibitor therapy in BRAF -mutated advanced melanoma remains a major obstacle that limits patient benefit. Microenvironment components including the extracellular matrix (ECM) can support tumor cell adaptation and tolerance to targeted therapy; however, the underlying mechanisms remain poorly understood. Here, we investigated the process of matrix-mediated drug resistance (MMDR) in response to BRAF pathway inhibition in melanoma. We demonstrate that physical and structural cues from fibroblast-derived ECM abrogate anti-proliferative responses to BRAF/MEK inhibition. MMDR is mediated by drug-induced linear clustering of phosphorylated DDR1 and DDR2, two tyrosine kinase collagen receptors. Depletion and pharmacological targeting of DDR1 and DDR2 overcome ECM-mediated resistance to BRAF-targeted therapy. In xenografts, targeting DDR with imatinib enhances BRAF inhibitor efficacy, counteracts drug-induced collagen remodeling, and delays tumor relapse. Mechanistically, DDR-dependent MMDR fosters a targetable pro-survival NIK/IKKα/NF-κB2 pathway. These findings reveal a novel role for a collagen-rich matrix and DDR in tumor cell adaptation and resistance. They also provide important insights into environment-mediated drug resistance and a preclinical rationale for targeting DDR signaling in combination with targeted therapy in melanoma.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8819497 | PMC |
| http://dx.doi.org/10.15252/emmm.201911814 | DOI Listing |
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Article Synopsis
- Recent studies show that special proteins called collagen receptors work together in the tough areas around tumors, known as fibrosis or fibrotic niches.
- In some tumors, DDR1 helps control how cancer cells interact with a collagen type called collagen III, affecting whether they stay inactive or spread to other parts of the body.
- The study highlights the importance of understanding how these collagen receptors work together to improve treatments targeting tumors and their surrounding environments.
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