Oncotarget Volume 11, Issue 34 features Figure 1, “BRAF inhibitor-induced changes in cell viability,” by Pickles, et which reported that the BEACON CRC trial demonstrated a survival advantage over chemotherapy for a combination of targeted agents comprisi
Credit: Correspondence to – Gary W. Middleton – [email protected]
Oncotarget Volume 11, Issue 34 features Figure 1, “BRAF inhibitor-induced changes in cell viability,” by Pickles, et which reported that the BEACON CRC trial demonstrated a survival advantage over chemotherapy for a combination of targeted agents comprising the potent BRAF inhibitor encorafenib together with cetuximab and binimetinib.
Resistance to BRAF inhibition in CRC arises in part through the generation and activation of RAF dimers resulting in MEK-ERK pathway reactivation.
The Oncotarget authors analyzed whether paradox breakers reduce pathway reactivation and so have enhanced potency compared with encorafenib in BRAF mutant CRC.
However, dose-response curves for encorafenib and PLX8394 were similar and there were no significant differences in the degree of pathway reactivation.
To their knowledge, these data represent the first comparative data of encorafenib and paradox breaker inhibitors in BRAF mutant CRC.
Dr. Gary W. Middleton from The Institute of Immunology and Immunotherapy at The University of Birmingham said, “Around 10% of patients with metastatic colorectal cancer (CRC) harbour a BRAF mutation.“
Recently results of the BEACON CRC trial demonstrated an enhanced survival for chemo-refractory BRAF mutant CRC patients for the combination of the BRAF inhibitor encorafenib together with the EGFR inhibitor cetuximab and the MEK inhibitor binimetinib compared with the control group of cetuximab and irinotecan-based therapy.
The addition of EGFR and MEK inhibition to the BRAF inhibitor backbone is predicated on the activation of RAS observed following BRAF inhibition.
Encorafenib is a group 1 BRAF inhibitor that selectively inhibits active BRAF monomers.
This phenomenon causes pathway reactivation and resistance to BRAF inhibition in BRAF mutant cells and paradoxical pathway activation in BRAF wild-type cells.
PLX8394 is a paradox-breaker BRAF inhibitor that inhibits BRAF dimerization and which does not result in paradoxical activation in BRAF wild-type cells.
The Middleton Research Team concluded in their Oncotarget Research paper that they have shown that the strategy of using a paradox breaker BRAF inhibitor such as PLX8394 in order to reduce pathway reactivation through reduced RAF dimerization in BRAF mutant CRC is as effective as optimal group 1 inhibitors such as encorafenib.
The degree of pathway reactivation is similar likely due to the inability of PLX8394 to inhibit CRAF homodimer formation and the activation by PLX8394 of such dimers.
As with the continued clinical development of BRAF inhibition in BRAF mutant cancers, the activity of PLX8394 should be investigated as part of a combination with other drugs that limit pathway reactivation such as MEK and EGFR inhibitors.
However, the general strategy of targeting RAF dimerization in RAS/RAF mutant colorectal cancers is unlikely to qualitatively transform the outcomes with targeted therapies without appropriate attention to the unique biology of BRAF and KRAS mutant CRC.
The lack of confirmed objective responses in BRAF mutant CRC, in contradistinction to melanoma, to the RAF dimer inhibitor lifirafenib which inhibits all RAF isoforms as well as EGFR and KRAS supports this hypothesis.
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Correspondence to – Gary W. Middleton – [email protected]
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RYAN JAMES JESSUP
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