PLX7904 - CAS 1393465-84-3

PLX7904, also known as PB04, is a potent and selective paradox-breaker RAF inhibitor. PB04 is able to efficiently inhibit activation of ERK1/2 in mutant BRAF melanoma cells but does not hyperactivate ERK1/2 in mutant RAS-expressing cells.

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Molecular Formula
C24H22F2N6O3S
Molecular Weight
512.54

PLX7904

    • Specification
      • Purity
        98%
        Solubility
        Soluble in DMSO, not in water
        Appearance
        Solid powder
        Shelf Life
        2 years if stored properly
        Storage
        Dry, dark and at 0 - 4 C for short term (days to weeks) or -20 C for long term (months to years).
        IUPAC Name
        5-(2-cyclopropylpyrimidin-5-yl)-3-[3-[[ethyl(methyl)sulfamoyl]amino]-2,6-difluorobenzoyl]-1H-pyrrolo[2,3-b]pyridine
        Synonyms
        PLX7904; PLX-7904; PLX 7904; PB04; PB-04; PB 04; paradox-breaker-04.
    • Properties
      • InChI Key
        DKNZQPXIIHLUHU-UHFFFAOYSA-N
        InChI
        InChI=1S/C24H22F2N6O3S/c1-3-32(2)36(34,35)31-19-7-6-18(25)20(21(19)26)22(33)17-12-30-24-16(17)8-14(9-29-24)15-10-27-23(28-11-15)13-4-5-13/h6-13,31H,3-5H2,1-2H3,(H,29,30)
        Canonical SMILES
        O=C(C1=CNC2=NC=C(C3=CN=C(C4CC4)N=C3)C=C21)C5=C(F)C=CC(NS(=O)(N(CC)C)=O)=C5F
    • Reference Reading
      • 1.Inhibition of mutant BRAF splice variant signaling by next-generation, selective RAF inhibitors.
        Basile KJ;Le K;Hartsough EJ;Aplin AE Pigment Cell Melanoma Res. 2014 May;27(3):479-84. doi: 10.1111/pcmr.12218. Epub 2014 Feb 10.
        Vemurafenib and dabrafenib block MEK-ERK1/2 signaling and cause tumor regression in the majority of advanced-stage BRAF(V600E) melanoma patients; however, acquired resistance and paradoxical signaling have driven efforts for more potent and selective RAF inhibitors. Next-generation RAF inhibitors, such as PLX7904 (PB04), effectively inhibit RAF signaling in BRAF(V600E) melanoma cells without paradoxical effects in wild-type cells. Furthermore, PLX7904 blocks the growth of vemurafenib-resistant BRAF(V600E) cells that express mutant NRAS. Acquired resistance to vemurafenib and dabrafenib is also frequently driven by expression of mutation BRAF splice variants; thus, we tested the effects of PLX7904 and its clinical analog, PLX8394 (PB03), in BRAF(V600E) splice variant-mediated vemurafenib-resistant cells. We show that paradox-breaker RAF inhibitors potently block MEK-ERK1/2 signaling, G1/S cell cycle events, survival and growth of vemurafenib/PLX4720-resistant cells harboring distinct BRAF(V600E) splice variants. These data support the further investigation of paradox-breaker RAF inhibitors as a second-line treatment option for patients failing on vemurafenib or dabrafenib.
        2.PLX8394, a new generation BRAF inhibitor, selectively inhibits BRAF in colonic adenocarcinoma cells and prevents paradoxical MAPK pathway activation.
        Tutuka CSA;Andrews MC;Mariadason JM;Ioannidis P;Hudson C;Cebon J;Behren A Mol Cancer. 2017 Jun 28;16(1):112. doi: 10.1186/s12943-017-0684-x.
        BRAF inhibitors (BRAFi) are standard of care for the treatment of BRAF V600 mutation-driven metastatic melanoma, but can lead to paradoxical activation of the mitogen-activated protein kinase (MAPK) signalling pathway. This can result in the promotion of precancerous lesions and secondary neoplasms, mainly (but not exclusively) associated with pre-existing mutations in RAS genes. We previously reported a patient with synchronous BRAF-mutated metastatic melanoma and BRAF ;wt; /KRAS ;G12D;-metastatic colorectal cancer (CRC), whose CRC relapsed and progressed when treated with the BRAF inhibitor dabrafenib (GSK2118436). We used tissue from the resected CRC metastasis to derive a cell line, LM-COL-1, which directly and reliably mimicked the clinical scenario including paradoxical activation of the MAPK signalling pathway resulting in increased cell proliferation upon dabrafenib treatment. Novel BRAF inhibitors (PLX8394 and PLX7904), dubbed as "paradox breakers", were developed to inhibit V600 mutated oncogenic BRAF without causing paradoxical MAPK pathway activation. In this study we used our LM-COL-1 model alongside multiple other CRC cell lines with varying mutational backgrounds to demonstrate and confirm that the paradox breaker PLX8394 retains on-target inhibition of mutated BRAF V600 without paradoxically promoting MAPK signalling.
        3.Exploring Molecular Mechanisms of Paradoxical Activation in the BRAF Kinase Dimers: Atomistic Simulations of Conformational Dynamics and Modeling of Allosteric Communication Networks and Signaling Pathways.
        Tse A;Verkhivker GM PLoS One. 2016 Nov 18;11(11):e0166583. doi: 10.1371/journal.pone.0166583. eCollection 2016.
        The recent studies have revealed that most BRAF inhibitors can paradoxically induce kinase activation by promoting dimerization and enzyme transactivation. Despite rapidly growing number of structural and functional studies about the BRAF dimer complexes, the molecular basis of paradoxical activation phenomenon is poorly understood and remains largely hypothetical. In this work, we have explored the relationships between inhibitor binding, protein dynamics and allosteric signaling in the BRAF dimers using a network-centric approach. Using this theoretical framework, we have combined molecular dynamics simulations with coevolutionary analysis and modeling of the residue interaction networks to determine molecular determinants of paradoxical activation. We have investigated functional effects produced by paradox inducer inhibitors PLX4720, Dabrafenib, Vemurafenib and a paradox breaker inhibitor PLX7904. Functional dynamics and binding free energy analyses of the BRAF dimer complexes have suggested that negative cooperativity effect and dimer-promoting potential of the inhibitors could be important drivers of paradoxical activation. We have introduced a protein structure network model in which coevolutionary residue dependencies and dynamic maps of residue correlations are integrated in the construction and analysis of the residue interaction networks.
    • Preparing Stock Solutions
      • ConcentrationVolumeMass1 mg5 mg10 mg
        1 mM1.9511 mL9.7555 mL19.5111 mL
        5 mM0.3902 mL1.9511 mL3.9022 mL
        10 mM0.1951 mL0.9756 mL1.9511 mL
        50 mM0.0390 mL0.1951 mL0.3902 mL
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