Design and Synthesis of Type-IV Inhibitors of BRAF Kinase That Block Dimerization and Overcome Paradoxical MEK/ERK Activation

Beneker, Chad M; Rovoli, Magdalini; Kontopidis, George; Röring, Michael; Galda, Simeon; Braun, Sandra; Brummer, Tilman; McInnes, Campbell

doi:10.1021/acs.jmedchem.8b01288

Cited by 23 publications

(23 citation statements)

References 51 publications

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“…Beneker et al truncated this peptide at each end and identified 504‐518 as a tighter binder than the original sequence (0.13 vs 3.8 μM for 503‐521) 40 . The shortened peptide 504‐518 fused to a Tat CPP showed a reduction in paradoxical MEK activation in cells treated with Vemurafenib, another ATP‐competitive BRaf inhibitor.…”

Section: Ras Familymentioning

confidence: 99%

Therapeutic peptides targeting the Ras superfamily

2020

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The Ras superfamily of small GTPases are master regulators of numerous essential processes within the cell, so that when they malfunction, cancer and many other diseases can result. For example, activating Ras mutations are present in approximately 20% of human cancers. As such, they are key therapeutic targets, yet more than three decades of intensive research efforts have failed to produce effective Ras inhibitors in the clinic. This is, in part, due to their relatively smooth surfaces which are difficult to target through traditional drug discovery methods using small molecules. Peptides offer a solution to this issue as they occupy larger surface areas on their targets and therefore offer exquisite selectivity and affinity. However, their use in the past has been limited to extracellular targets due to delivery issues. Recent advances in peptide macrocyclisation, modifications and delivery methods have ignited increased interest in the use of these highly effective biologics for intracellular targets. This review will cover progress made in the development of peptides targeting small GTPases to treat a wide range of diseases.

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Section: Ras Familymentioning

confidence: 99%

Therapeutic peptides targeting the Ras superfamily

2020

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“…The first-generation Raf inhibitors, including Vemurafenib (VEM) [51] , [52] and Dabrafenib [53] , are ATP competitive inhibitors that show promising early efficacy, but drug resistance quickly develops [46] , [47] , [54] , [55] , [56] . New inhibitors have been developed including pan-Raf inhibitors (such as LY3009120) [57] that bind to both protomers in Raf dimers, paradox breakers that selectively bind to B-Raf dimers, and allosteric inhibitors that target other sites apart from the ATP binding pocket [58] , [59] . Despite this progress, long term survival rates remain low and additional treatment options are necessary [60] .…”

Section: Introductionmentioning

confidence: 99%

The mechanism of activation of monomeric B-Raf V600E

Maloney

Zhang

Jang

et al. 2021

Computational and Structural Biotechnology Journal

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“…In particular, given the unique activating and catalytic mechanisms of RAF family kinases, targeting RAF/RAF and RAF/MEK interactions has become an attractive strategy for designing novel RAF inhibitors [76] . Although no small molecular inhibitors that target RAF/RAF dimer interface have been developed at present, several groups have demonstrated that disrupting RAF/RAF dimers by using peptide inhibitors can effectively block hyperactive ERK signaling and thereby inhibit the growth of cancer cells harboring active RAF or RAS mutations [177][178][179] , indicating that the RAF/RAF dimer interface is indeed a valid target for drug development. As for RAF/MEK interaction, it is dynamically altered in the process of MEK phosphorylation by RAF, as described above.…”

Section: Developing Next-generation Raf Inhibitors For Overcoming Drug Resistancementioning

confidence: 99%

Drug resistance in targeted cancer therapies with RAF inhibitors

Degirmenci¹,

Yap²,

Sim³

et al. 2021

CDR

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Hyperactive RAS/RAF/MEK/ERK signaling has a well-defined role in cancer biology. Targeting this pathway results in complete or partial regression of most cancers. In recent years, cancer genomic studies have revealed that genetic alterations that aberrantly activate the RAS/RAF/MEK/ERK signaling mainly occur on RAF or upstream, which motivated the extensive development of RAF inhibitors for cancer therapy. Currently, the firstgeneration RAF inhibitors have been approved for treating late-stage cancers with BRAF(V600E) mutations. Although these inhibitors have achieved promising outcomes in clinical treatments, their efficacy is abolished by quick-rising drug resistance. Moreover, cancers with hyperactive RAS exhibit intrinsic resistance to these drugs. To resolve these problems, the second-generation RAF inhibitors have been designed and are undergoing clinical evaluations. Here, we summarize the recent findings from mechanistic studies on RAF inhibitor resistance and discuss the critical issues in the development of next-generation RAF inhibitors with better therapeutic index, which may provide insights for improving targeted cancer therapy with RAF inhibitors.

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Design and Synthesis of Type-IV Inhibitors of BRAF Kinase That Block Dimerization and Overcome Paradoxical MEK/ERK Activation

Cited by 23 publications

References 51 publications

Therapeutic peptides targeting the Ras superfamily

Therapeutic peptides targeting the Ras superfamily

The mechanism of activation of monomeric B-Raf V600E

Drug resistance in targeted cancer therapies with RAF inhibitors

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