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Pevonedistat
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    Pevonedistat

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    Pevonedistat
    Pevonedistat.svg
    Identifiers
    • [(1S,2S,4R)-4-[4-[ [(1S)-2,3-dihydro-1H-inden-1-yl]amino]pyrrolo[2,3-d]pyrimidin-7-yl]-2-hydroxycyclopentyl]methyl sulfamate
    CAS Number
    PubChem CID
    DrugBank
    ChEMBL
    Chemical and physical data
    Formula C21H25N5O4S
    Molar mass 443.5 g·mol−1
    3D model (JSmol)
    • C1CC2=CC=CC=C2[C@H]1NC3=C4C=CN(C4=NC=N3)[C@@H]5C[C@H]([C@H](C5)O)COS(=O)(=O)N
    • InChI=1S/C21H25N5O4S/c22-31(28,29)30-11-14-9-15(10-19(14)27)26-8-7-17-20(23-12-24-21(17)26)25-18-6-5-13-3-1-2-4-16(13)18/h1-4,7-8,12,14-15,18-19,27H,5-6,9-11H2,(H2,22,28,29)(H,23,24,25)/t14-,15+,18-,19-/m0/s1
    • Key:MPUQHZXIXSTTDU-QXGSTGNESA-N


    Pevonedistat (MLN4924) is a selective NEDD8 inhibitor. It is being investigated as a cancer treatment, e.g. for mantle cell lymphoma (MCL).

    Target of pevonedistat

    NEDD8-activating enzyme (NAE) is a heterodimeric molecule consisting of amyloid beta precursor protein-binding protein 1 (APPBP1) and ubiquitin-like modifier activating enzyme 3 (UBA3). As reviewed by Xu et al., in a first step NAE binds ATP and NEDD8 and catalyzes the formation of a NEDD8-AMP intermediate. This intermediate binds the adenylation domain of NAE. NEDD8-AMP reacts with the catalytic cysteine in UBA3 during which NEDD8 is transferred to the catalytic cysteine, resulting in a high energy thioester linkage. NAE then binds ATP and NEDD8 to generate a second NEDD8-AMP, forming a fully loaded NAE carrying two activated NEDD8 molecules (i.e., one as a thioester and the other as an adenylate).

    Pevonedistat is an AMP mimetic. Pevonedistat forms a stable covalent adduct with NEDD8 in the NAE catalytic pocket of UBA3 by reacting with thioester-linked NEDD8 bound to the enzyme's catalytic cysteine. Unlike the labile NEDD8-AMP intermediate, the NEDD8-pevonedistat adduct cannot be utilized in subsequent reactions necessary for NAE activity.

    Mechanism of action

    "Inhibition of NAE prevents activation of cullin-RING ligases (CRLs), which are critical for proteasome-mediated protein degradation." MLN4924 has been shown to disrupt CRL-mediated protein turnover leading to apoptosis in cancer cells by deregulating S-phase DNA synthesis. Essentially, it encourages apoptosis in dividing cells.

    In addition to proteasome-mediated protein degradation, activated NEDD8 is needed for at least two pathways of DNA repair: nucleotide excision repair (NER) and non-homologous end joining (NHEJ) (see NEDD8).

    One or more DNA repair genes in seven DNA repair pathways are frequently epigenetically silenced in cancers (see e.g. DNA repair pathways).) This is a likely source of genome instability in cancers. If activation of NEDD8 is inhibited by pevonedistat, cells will then have an additional induced deficiency of NER or NHEJ. Such cells may then die because of deficient DNA repair leading to accumulation of DNA damages. The effect of NEDD8 inhibition may be greater for cancer cells than for normal cells if the cancer cells are already deficient in DNA repair due to prior epigenetic silencing of DNA repair genes active in alternative pathways (see synthetic lethality).

    Clinical trials

    In a phase 1 trial to determine dosing in patients with AML and myelodysplastic syndromes "modest clinical activity was observed".

    More recently, in 2016, pevonedistat demonstrated a significant therapeutic effect in three further Phase I clinical cancer trials. These include pevonedistat trials against relapsed/refractory multiple myeloma or lymphoma, metastatic melanoma, and advanced solid tumors.

    Further reading

    External links


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