Affinage

ZNF451

E3 SUMO-protein ligase ZNF451 · UniProt Q9Y4E5

Length
1061 aa
Mass
121.5 kDa
Annotated
2026-06-11
24 papers in source corpus 11 papers cited in narrative 11 extracted findings
Cross-family judge vs UniProt: Affinage preferred faithfulness: 6/6 claims corpus-supported (100%)

Mechanistic narrative

Synthesis pass · prose summary of the discoveries below

ZNF451 (ZATT) is a SUMO2/3-specific E3 ligase that operates at the interface of SUMO conjugation, genome maintenance, and transcriptional control (PMID:26524494, PMID:28912134). Its catalytic activity resides in an N-terminal module of tandem SUMO-interaction motifs bridged by a Pro-Leu-Arg-Pro (PLRP) element: the first SIM and PLRP engage thioester-charged E2~SUMO while the second SIM binds a second SUMO on the back face of the E2, stabilizing the closed conformation that drives transfer (PMID:26524494). Through this chemistry ZNF451 modifies multiple substrates and assembles SUMO-based recognition platforms. In DNA repair, it resolves trapped topoisomerase-2 DNA-protein cross-links both by directly facilitating proteasome-independent TDP2 hydrolase activity and by SUMOylating TOP2 to create a 'split-SIM' SUMO2 platform for TDP2 recruitment (PMID:28912134); under replication stress it SUMOylates TOP2A to recruit the translocase PICH and drive fork reversal (PMID:33296677); and it SUMOylates RNF168 at damage sites to stabilize it and amplify downstream H2A/H2AX ubiquitination during double-strand break repair (PMID:40055579). ZNF451 localizes to PML nuclear bodies, where it acts as a SUMO2/3 E3 for PML and cooperates with RNF4 to set physiological PML levels (PMID:18656483, PMID:27343429). Beyond genome maintenance it stabilizes substrates such as TWIST2 by blocking its ubiquitin-dependent degradation to promote mesenchymal phenotypes (PMID:33791162) and serves as a transcriptional co-regulator, supporting androgen-receptor target gene expression and partnering with SLUG to recruit PCAF and selectively activate CCL5 (PMID:18656483, PMID:37342906). In vivo, ZNF451 loss exacerbates bleomycin-induced pulmonary fibrosis through PDGFB/PI3K-Akt-driven fibroblast activation (PMID:38600524).

Mechanistic history

Synthesis pass · year-by-year structured walk · 11 steps
  1. 2008 Medium

    Established ZNF451 as a SUMO-pathway protein by showing it localizes to PML bodies, binds Ubc9 and SUMO, is itself SUMOylated, and influences androgen-receptor target gene expression — the first functional placement of the protein.

    Evidence Co-IP, immunofluorescence, sumoylation and reporter assays, siRNA knockdown in prostate cancer cells

    PMID:18656483

    Open questions at the time
    • Did not define catalytic E3 activity or mechanism
    • SUMO sites mapped only as non-consensus, not residue-resolved
    • AR co-regulation correlative, no direct enzymatic link
  2. 2015 High

    Resolved the catalytic mechanism, showing ZNF451's N-terminal tandem-SIM/PLRP module stabilizes the E2~SUMO closed configuration and confers SUMO2 specificity, defining it as a bona fide SUMO E3 ligase.

    Evidence Crystal structure with in vitro biochemistry and mutagenesis of the catalytic module

    PMID:26524494

    Open questions at the time
    • Physiological substrate repertoire not addressed structurally
    • Contribution of ZNF451 auto-SUMOylation to activity inferred, not quantified
  3. 2016 Medium

    Identified PML and PML body components as cellular SUMO2/3 substrates of ZNF451 and placed it alongside RNF4 in regulating PML homeostasis.

    Evidence In vitro SUMO E3 ligase assays, mutational analysis, RNAi knockdown with IF/WB readouts

    PMID:27343429

    Open questions at the time
    • Arsenic-induced PML degradation shown ZNF451-independent, leaving trigger specificity open
    • Direct vs indirect cooperation with RNF4 not mechanistically dissected
  4. 2017 High

    Defined ZATT/ZNF451 as a topoisomerase-2 cleavage-complex repair factor that both potentiates TDP2 hydrolase activity directly and builds a split-SIM SUMO2 platform to recruit TDP2 to SUMOylated TOP2.

    Evidence Biochemical reconstitution, Co-IP, in vitro TDP2 activity assays, cell-based repair assays, mutagenesis

    PMID:28912134

    Open questions at the time
    • Relative in vivo weight of catalytic vs non-catalytic resolution unresolved
    • Substrate specificity across TOP2 isoforms not delineated
  5. 2020 High

    Extended ZATT into replication-stress responses, showing TOP2A SUMOylation recruits PICH to drive a defined step of fork reversal, linking SUMO ligase activity to genome stability at stalled forks.

    Evidence Co-IP, SUMO modification assays, replication fork EM/fiber analysis, genetic epistasis in KO/KD lines

    PMID:33296677

    Open questions at the time
    • Trigger for ZATT engagement at forks not defined
    • Interplay with the upstream HLTF/ZRANB3/SMARCAL1 step mechanistically incomplete
  6. 2021 Medium

    Broadened the substrate scope beyond genome maintenance by showing ZNF451 SUMOylates TWIST2 at K129 to block its degradation and promote mesenchymal phenotypes.

    Evidence Co-IP, in vitro SUMOylation and ubiquitination assays, K129 mutagenesis, overexpression/knockdown with EMT marker readouts

    PMID:33791162

    Open questions at the time
    • Mechanism by which SUMOylation blocks ubiquitination not resolved
    • In vivo relevance to EMT/tumor progression not tested
  7. 2023 Medium

    Demonstrated a non-catalytic, TDP2-independent role in TOP2 stability and etoposide survival, mapping the TOP2 interaction to residues 1-168 and showing additive sensitivity in ZATT/TDP2 double knockouts.

    Evidence Genome-wide CRISPR screens, deletion-mutant Co-IP, CHX-chase stability assays, double-KO epistasis

    PMID:37047518

    Open questions at the time
    • Molecular basis of ZATT-mediated TOP2 stabilization unknown
    • Whether stabilization is SUMO-dependent not established
  8. 2023 Medium

    Revealed a chromatin co-regulator function in which ZNF451 partners with SLUG to recruit PCAF to the CCL5 promoter, coupling the protein to tumor-immune microenvironment signaling.

    Evidence Co-IP, ChIP, luciferase reporters, peptide competition, macrophage migration/activation assays

    PMID:37342906

    Open questions at the time
    • Role of SUMO ligase activity in this transcriptional function untested
    • Generality beyond the CCL5 locus unknown
  9. 2025 Medium

    Connected ZNF451 to double-strand break signaling by showing it SUMOylates and stabilizes RNF168, amplifying H2A/H2AX ubiquitination, and that it co-regulates RNF168 with RNF8 in a competitive-cooperative manner.

    Evidence Co-IP, in-cell SUMOylation assays, IF at damage sites, KO/KD epistasis of ZNF451/RNF8/RNF168, ubiquitination assays

    PMID:40055579

    Open questions at the time
    • Structural basis of mutual ZNF451/RNF8 inhibition not defined
    • RNF168 SUMO acceptor sites not mapped
  10. 2024 Medium

    Implicated ZNF451 in tissue protection in vivo, showing its downregulation drives fibroblast activation via PDGFB/PI3K-Akt and that knockout worsens while overexpression protects against pulmonary fibrosis.

    Evidence ZNF451 knockout mice, lentiviral overexpression rescue, RNA-seq, migration assays, immunoblot

    PMID:38600524

    Open questions at the time
    • Whether the fibrosis phenotype depends on SUMO ligase activity unknown
    • Direct molecular target linking ZNF451 to PDGFB not identified
  11. 2024 Low

    Proposed a topological transcriptional role in which ZATT inhibits TOP2B catalytic activity during estrogen signaling to shape chromatin contacts.

    Evidence ChIP, topoisomerase activity assays, KO/KD epistasis, 3D genome contact analysis, transcriptional assays (preprint)

    PMID:38328138

    Open questions at the time
    • Preprint, not peer reviewed
    • Mechanism of supercoiling accumulation inferred, not directly measured
    • Requirement for ZATT catalytic activity vs scaffolding not separated

Open questions

Synthesis pass · forward-looking unresolved questions
  • How ZNF451's diverse substrate targeting is selected and regulated — and which of its many roles depend on SUMO ligase activity versus non-catalytic scaffolding — remains unresolved.
  • No unifying model for substrate selection across DNA repair, transcription, and EMT
  • Catalytic vs scaffolding requirements not systematically dissected
  • Upstream signals that recruit ZNF451 to specific complexes unknown

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0016740 transferase activity 6 GO:0140096 catalytic activity, acting on a protein 5 GO:0140097 catalytic activity, acting on DNA 2 GO:0140110 transcription regulator activity 2
Localization
GO:0005634 nucleus 1
Pathway
R-HSA-392499 Metabolism of proteins 3 R-HSA-73894 DNA Repair 3 R-HSA-74160 Gene expression (Transcription) 2 R-HSA-69306 DNA Replication 1
Partners
PMLRNF168RNF8SLUGTDP2TOP2ATWIST2UBE2I
Complex memberships
PML nuclear body

Evidence

Reading pass · 11 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2015 The N-terminal domain of ZNF451 constitutes the catalytic module for SUMO E3 ligase activity, containing tandem SUMO-interaction motifs (SIMs) bridged by a Pro-Leu-Arg-Pro (PLRP) motif. The first SIM and PLRP motif engage thioester-charged E2~SUMO while the second SIM binds a second SUMO molecule on the back side of E2, stabilizing the closed configuration for nucleophilic attack. ZNF451 is SUMO2-specific, and SUMO modification of ZNF451 itself may contribute to activity by providing a second SUMO molecule interacting with E2. Crystal structure determination combined with biochemical assays and mutagenesis of the catalytic module Nature structural & molecular biology High 26524494
2017 ZATT (ZNF451) is a multifunctional DNA repair factor that resolves topoisomerase 2 DNA-protein cross-links (TOP2cc) via two mechanisms: (1) ZATT binding to TOP2cc facilitates proteasome-independent TDP2 hydrolase activity on stalled TOP2cc, and (2) ZATT SUMO ligase activity promotes TDP2 interactions with SUMOylated TOP2 through a 'split-SIM' SUMO2 engagement platform, enabling efficient TDP2 recruitment. Biochemical reconstitution assays, Co-IP/pulldown, in vitro TDP2 hydrolase activity assays, cell-based DNA repair assays, mutagenesis Science (New York, N.Y.) High 28912134
2008 ZNF451 localizes to PML bodies in the nucleus, interacts with SUMO E2 conjugase Ubc9 and SUMOs, and is itself covalently SUMOylated at multiple non-consensus sites. Its noncovalent SUMO-binding activity (SIM) is required for its own sumoylation. SUMO modification regulates ZNF451 nuclear compartmentalization: co-expression with SENP1 or SENP2 redistributes ZNF451 from nuclear domains to speckles/nucleoplasm. ZNF451 interacts with PIAS1 (which does not act as an E3 for ZNF451) resulting in disintegration of ZNF451 nuclear domains. ZNF451 interacts weakly with androgen receptor (AR) in a SUMO-1-enhanced manner. Ablation of endogenous ZNF451 in prostate cancer cells significantly decreases expression of AR target genes. Co-IP, immunofluorescence/localization, sumoylation assays, siRNA knockdown, reporter assays, SENP co-expression experiments Journal of molecular biology Medium 18656483
2016 ZNF451 isoform 1 (ZNF451-1) functions as a SUMO2/3-specific E3 ligase for PML and selected PML body components in vitro, using the same biochemical mechanism as SUMO chain formation. In vivo, RNAi depletion of ZNF451-1 leads to PML stabilization and an increased number of PML bodies, while PML degradation upon arsenic trioxide treatment is not ZNF451-1 dependent. ZNF451-1 cooperates with RNF4 to regulate physiological PML levels. In vitro SUMO E3 ligase assays, mutational analysis, RNAi knockdown with immunofluorescence and western blot readouts The international journal of biochemistry & cell biology Medium 27343429
2020 Upon replication stress, TOP2A SUMOylation is mediated by the SUMO E3 ligase ZATT (ZNF451), which promotes recruitment of the SUMO-targeted DNA translocase PICH to stalled forks. Disruption of the ZATT-TOP2A-PICH axis results in accumulation of partially reversed forks and enhanced genome instability, placing ZATT in a sequential two-step fork reversal pathway downstream of HLTF/ZRANB3/SMARCAL1. Co-IP, SUMO modification assays, replication fork analysis (electron microscopy/fiber assays), genetic epistasis using knockout/knockdown cell lines, immunofluorescence Molecular cell High 33296677
2021 ZNF451 directly binds to and SUMOylates TWIST2 at lysine 129, blocking ubiquitination and proteasome-dependent degradation of TWIST2. Ectopic expression of ZNF451 increases TWIST2 protein levels in mammary epithelial cells and increases expression of mesenchymal markers, while depletion of ZNF451 suppresses mesenchymal phenotypes. Co-IP, in vitro SUMOylation assay, ubiquitination assay, site-directed mutagenesis (K129 site), overexpression/knockdown with immunoblot and EMT marker readouts American journal of cancer research Medium 33791162
2023 ZNF451 interacts with the transcriptional activator SLUG and the complex preferentially recruits the acetyltransferase PCAF to the CCL5 promoter, enhancing acetylation of SLUG and local chromatin to selectively facilitate CCL5 transcription. This promotes recruitment and activation of tumor-associated macrophages. Co-IP, ChIP, luciferase reporter assays, peptide competition experiments, macrophage migration/activation assays Cell reports Medium 37342906
2023 ZATT (ZNF451) has a TDP2-independent role in promoting cell survival after etoposide treatment. The N-terminal 1-168 residues of ZATT are required for interaction with TOP2 and this interaction is critical for etoposide sensitivity. Depletion of ZATT accelerates TOP2 degradation after etoposide or cycloheximide treatment, suggesting ZATT promotes TOP2 stability and participates in TOP2 turnover. ZATT/TDP2 double knockout shows additive hypersensitivity to etoposide, confirming independent pathways. Genome-wide CRISPR screens, deletion mutant analysis, Co-IP, TOP2 stability assays (CHX chase), double KO epistasis International journal of molecular sciences Medium 37047518
2025 ZNF451 catalyzes SUMO2 modification of RNF168 at DNA damage sites, stabilizing RNF168 and enhancing its accumulation at damage sites, which increases ubiquitination of downstream histone H2A/H2AX and promotes DSB repair. ZNF451 and RNF8 jointly regulate RNF168 in a competitive and cooperative manner: the interaction of RNF168 with either ZNF451 or RNF8 mutually inhibits each other, yet simultaneous loss of both markedly impedes RNF168 recruitment to damage sites. Co-IP, SUMOylation assays, immunofluorescence at damage sites, genetic epistasis (KO/KD of ZNF451, RNF8, RNF168), H2A/H2AX ubiquitination assays, irradiation experiments Cell death and differentiation Medium 40055579
2024 ZATT (ZNF451) inhibits TOP2B catalytic activity in response to estrogen stimulation, contributing to topological regulation of the estrogen transcriptional response. This inhibition requires estrogen receptor α (ERα), a non-catalytic function of TOP2A, and ZATT SUMO ligase activity, stabilizing regulatory chromatin contacts likely through local accumulation of DNA supercoiling. ChIP, topoisomerase activity assays, genetic epistasis (KO/KD of ZATT, TOP2A, TOP2B), 3D genome contact analysis, transcriptional assays bioRxivpreprint Low 38328138
2024 ZNF451 downregulation in pulmonary fibrosis triggers fibroblast activation by increasing expression of PDGFB and subsequently activating PI3K/Akt signaling. ZNF451 knockout mice develop more severe pulmonary fibrosis, while ZNF451 overexpression protects mice from bleomycin-induced fibrosis. ZNF451 knockout mice, lentiviral overexpression, RNA-seq, migration assays, immunofluorescence, immunoblot Respiratory research Medium 38600524

Source papers

Stage 0 corpus · 24 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2005 A roller coaster ride with the mitotic cyclins. Seminars in cell & developmental biology 148 15840442
2017 ZATT (ZNF451)-mediated resolution of topoisomerase 2 DNA-protein cross-links. Science (New York, N.Y.) 126 28912134
2015 Structural basis for catalytic activation by the human ZNF451 SUMO E3 ligase. Nature structural & molecular biology 117 26524494
2020 The ZATT-TOP2A-PICH Axis Drives Extensive Replication Fork Reversal to Promote Genome Stability. Molecular cell 67 33296677
2009 The complete mitochondrial genome of the yellow coaster, Acraea issoria (Lepidoptera: Nymphalidae: Heliconiinae: Acraeini): sequence, gene organization and a unique tRNA translocation event. Molecular biology reports 66 20091125
2011 Roller Coaster Scanning reveals spontaneous triggering of dendritic spikes in CA1 interneurons. Proceedings of the National Academy of Sciences of the United States of America 59 21224413
2008 ZNF451 is a novel PML body- and SUMO-associated transcriptional coregulator. Journal of molecular biology 50 18656483
2016 The SUMO2/3 specific E3 ligase ZNF451-1 regulates PML stability. The international journal of biochemistry & cell biology 30 27343429
2015 Alternative splicing and co-option of transposable elements: the case of TMPO/LAP2α and ZNF451 in mammals. Bioinformatics (Oxford, England) 30 25735770
2021 ZNF451 stabilizes TWIST2 through SUMOylation and promotes epithelial-mesenchymal transition. American journal of cancer research 22 33791162
2017 Riding the metalloproteinase roller coaster. The Journal of biological chemistry 20 28298437
2017 TDP2, TOP2, and SUMO: what is ZATT about? Cell research 20 29160298
2023 ZNF451 favors triple-negative breast cancer progression by enhancing SLUG-mediated CCL5 transcriptional expression. Cell reports 19 37342906
2022 COVID-19 and erythrocrine function: The roller coaster and danger. International journal of immunopathology and pharmacology 17 35590466
2020 Identification of Annexin A2 as a key mTOR target to induce roller coaster pattern of autophagy fluctuation in stress. Biochimica et biophysica acta. Molecular basis of disease 13 32841734
2025 ZNF451 collaborates with RNF8 to regulate RNF168 localization and amplify ubiquitination signaling to promote DNA damage repair and regulate radiosensitivity. Cell death and differentiation 11 40055579
2018 LncRNA BC032020 suppresses the survival of human pancreatic ductal adenocarcinoma cells by targeting ZNF451. International journal of oncology 8 29532883
2024 Single-Cell Spatial-Temporal Analysis of ZNF451 in Mediating Drug Resistance and CD8+ T Cell Dysfunction. Research (Washington, D.C.) 6 39534688
2023 Genome-Wide CRISPR Screens Reveal ZATT as a Synthetic Lethal Target of TOP2-Poison Etoposide That Can Act in a TDP2-Independent Pathway. International journal of molecular sciences 5 37047518
2011 There is more to autophagy than induction: regulating the roller coaster. Autophagy 4 21636971
2024 Topological regulation of the estrogen transcriptional response by ZATT-mediated inhibition of TOP2B activity. bioRxiv : the preprint server for biology 2 38328138
2024 Loss of ZNF451 mediates fibroblast activation and promotes lung fibrosis. Respiratory research 2 38600524
2023 From Living in Saltwater to a Scarcity of Salt and Water, and Then an Overabundance of Salt-The Biological Roller Coaster to Which the Renin-Angiotensin System Has Had to Adapt: An Editorial. Biomedicines 2 38002004
2025 Corona VRus Coaster: the virtual reality roller coaster of the proteins of SARS-CoV-2. Journal of molecular modeling 1 40768093

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