Affinage

EXOSC9

Exosome complex component RRP45 · UniProt Q06265

Length
439 aa
Mass
48.9 kDa
Annotated
2026-06-09
13 papers in source corpus 6 papers cited in narrative 7 extracted findings
Cross-family judge vs UniProt: Affinage preferred faithfulness: 5/6 claims corpus-supported (83%)

Mechanistic narrative

Synthesis pass · prose summary of the discoveries below

EXOSC9 (PM/Scl-75) is a structural subunit of the multi-subunit RNA exosome that drives post-transcriptional RNA processing and degradation across multiple developmental and cellular contexts (PMID:12788944, PMID:29727687). Its N-terminally extended form, bearing 84 additional residues, is required for incorporation into the exosome through direct protein-protein contacts with the hRrp46p and hRrp41p subunits, whereas a shorter isoform cannot associate (PMID:12788944). A C-terminal basic region carries a nuclear localization signal that specifically directs the assembled exosome to the nucleolus without being required for complex association (PMID:12788944). EXOSC9 is required for whole-complex exosome assembly: recessive disease variants reduce EXOSC9 protein and disrupt assembly of the entire exosome, causing loss of cerebellum/hindbrain tissue and failure of motor neuron development and migration in zebrafish, defining EXOSC9 as a cause of pontocerebellar hypoplasia with spinal motor neuronopathy (PMID:29727687). Beyond core assembly, EXOSC9 supports epidermal integrity and ciliated-cell formation in Xenopus skin (PMID:26546114), promotes P-body formation and stress resistance through its RNA-binding motif (PMID:32518284), and is recruited to telomeres by SUMO-modified HP1α to degrade the lncRNA TERRA in a cell-cycle-dependent manner, limiting telomeric R-loops and DNA damage (PMID:37887339). During apoptosis EXOSC9 is cleaved at Asp369 most efficiently by caspase-1, with the N-terminal fragment retaining partial exosome association (PMID:17280603).

Mechanistic history

Synthesis pass · year-by-year structured walk · 6 steps
  1. 2003 High

    It was unknown how PM/Scl-75 joins the exosome and what governs its localization; mapping the assembly interface and a targeting signal established the protein as a structural exosome subunit with a dedicated nucleolar-targeting element.

    Evidence Co-IP, mammalian two-hybrid, deletion mutagenesis, and fluorescence localization in mammalian cells

    PMID:12788944

    Open questions at the time
    • Atomic structure of the EXOSC9-hRrp46p/hRrp41p interface not resolved
    • Mechanism by which the NLS recruits nuclear import machinery not defined
  2. 2007 High

    Whether EXOSC9 is a target of programmed cell death machinery was unknown; identifying caspase-1 cleavage at Asp369 linked the exosome subunit to apoptotic processing.

    Evidence In vitro cleavage with recombinant caspases, inhibitor panel, site mapping, and Co-IP of fragments

    PMID:17280603

    Open questions at the time
    • Functional consequence of cleavage for exosome activity in apoptotic cells not established
    • Whether cleavage occurs in physiological apoptosis in vivo untested
  3. 2015 Medium

    The developmental requirement for the RNA exosome in epithelial tissue was unclear; loss of exosc9 in Xenopus revealed a post-transcriptional role in skin integrity and ciliated-cell formation.

    Evidence Morpholino knockdown in Xenopus with histology, EM, and RNA-seq

    PMID:26546114

    Open questions at the time
    • Direct RNA substrates underlying the skin phenotype not identified
    • Single model organism, no mammalian skin validation
  4. 2018 High

    The disease relevance of EXOSC9 was unknown; biallelic variants were shown to destabilize the protein, disrupt assembly of the entire exosome, and cause neurodevelopmental defects, establishing EXOSC9 as a cause of pontocerebellar hypoplasia with spinal motor neuronopathy.

    Evidence Blue-native PAGE, patient cell western blot, zebrafish morpholino and CRISPR knockdown, RNA-seq

    PMID:29727687

    Open questions at the time
    • RNA substrates whose mis-processing drives motor neuron loss not defined
    • Why motor neurons and cerebellum are selectively vulnerable unexplained
  5. 2020 Medium

    It was unclear whether EXOSC9 has cytoplasmic RNA-granule functions; depletion studies linked it to P-body formation, stress resistance, and tumor growth via its RNA-binding motif.

    Evidence siRNA knockdown, P-body quantification, RNA-seq, RNA-binding-motif mutant rescue, and xenograft assays

    PMID:32518284

    Open questions at the time
    • Mechanism linking exosome activity to P-body assembly not resolved
    • Single lab; pro-tumorigenic mechanism not generalized across cancer types
  6. 2023 Medium

    How the exosome is targeted to telomeres was unknown; EXOSC9 was shown to be recruited by SUMO-HP1α to degrade TERRA and protect telomeric integrity in a cell-cycle-dependent manner.

    Evidence Co-IP, telomeric ChIP, knockdown with R-loop and DNA-damage readouts, cell-cycle analysis in breast cancer cells

    PMID:37887339

    Open questions at the time
    • Reciprocal validation of the SUMO-HP1α/EXOSC9 interaction limited
    • Generality beyond endocrine therapy-resistant breast cancer untested

Open questions

Synthesis pass · forward-looking unresolved questions
  • The specific RNA substrates whose processing or degradation by EXOSC9 underlies each tissue-specific phenotype (motor neuron, skin, telomere, P-body) remain unidentified, leaving the mechanistic link between exosome activity and these outcomes open.
  • No direct substrate catalog tied to disease or developmental phenotypes
  • No structural model of the human exosome containing EXOSC9

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0003723 RNA binding 2 GO:0005198 structural molecule activity 2
Localization
GO:0005634 nucleus 1 GO:0005730 nucleolus 1
Pathway
R-HSA-8953854 Metabolism of RNA 2
Partners
EXOSC2EXOSC4EXOSC6HP1Α
Complex memberships
RNA exosome

Evidence

Reading pass · 7 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2003 The N-terminally extended form of PM/Scl-75 (EXOSC9), containing 84 additional amino acids, is required for association with the exosome complex; the shorter previously described isoform fails to interact. The interaction with the exosome is mediated by protein-protein contacts with subunits hRrp46p and hRrp41p, confirmed by mammalian two-hybrid assay. Co-immunoprecipitation, mammalian two-hybrid system, cDNA cloning and deletion analysis The Journal of biological chemistry High 12788944
2003 The C-terminal basic region of EXOSC9 contains a nuclear localization signal sufficient (but not essential) for nuclear localization; deletion of this element abrogates nucleolar accumulation of EXOSC9 without disrupting its association with the exosome complex, indicating this element specifically targets the exosome to the nucleolus. Deletion mutagenesis, subcellular localization by fluorescence microscopy, Co-immunoprecipitation The Journal of biological chemistry High 12788944
2007 EXOSC9 (PM/Scl-75) is cleaved during apoptosis by caspases; caspase-1 cleaves it most efficiently, caspase-8 to a smaller extent, and caspase-3/7 relatively inefficiently. Cleavage occurs at Asp369 (IILD369G) in the C-terminal region, and at least a fraction of the N-terminal cleavage fragment remains associated with the exosome complex. In vitro cleavage assay with recombinant caspases, caspase inhibitor treatment, site identification by mutagenesis/mapping, Co-immunoprecipitation of cleavage fragments Arthritis research & therapy High 17280603
2018 Disease-causing recessive variants in EXOSC9 (p.Leu14Pro; p.Arg161*) reduce EXOSC9 protein levels in patient fibroblasts and skeletal muscle and disrupt assembly of the entire multi-subunit exosome complex, as shown by blue-native PAGE. Loss of exosc9 in zebrafish (morpholino knockdown and CRISPR/Cas9) causes absence of cerebellum/hindbrain portions and failure of motor neuron development and migration. Blue-native PAGE, patient cell western blot, zebrafish morpholino knockdown, CRISPR/Cas9 mutagenesis, RNA sequencing American journal of human genetics High 29727687
2015 Knockdown of exosc9 in Xenopus embryos impairs skin development, producing dorsal blisters characterized by increased apical surface of goblet cells, loss of adhesion between sensorial and peridermal layers, and reduced ciliated cells. This is accompanied by altered expression of epidermal and genodermatosis-related genes, demonstrating a post-transcriptional regulatory role of the RNA exosome in skin integrity. Morpholino oligonucleotide knockdown in Xenopus, histology, electron microscopy, RNA sequencing Developmental biology Medium 26546114
2020 EXOSC9 depletion in cancer cells attenuates P-body formation and stress resistance through its RNA-binding motif; depletion of EXOSC2 or EXOSC4 also reduces P-body number coincident with decreased EXOSC9 protein. The EXOSC9 RNA-binding motif is required for its pro-tumorigenic activity in xenograft models. siRNA knockdown, P-body quantification by microscopy, RNA-seq, xenograft tumor growth assay, RNA-binding motif mutant rescue Scientific reports Medium 32518284
2023 EXOSC9 is recruited to telomeres by SUMO-modified HP1α and degrades lncRNA TERRA in a cell cycle-dependent manner (enriched at S/G2); this activity is required for telomeric integrity, and EXOSC9 knockdown increases telomeric R-loops and DNA damage in endocrine therapy-resistant breast cancer cells. Co-immunoprecipitation (SUMO-HP1α/EXOSC9 interaction), ChIP/CHIP at telomeres, knockdown with telomeric R-loop and DNA damage readouts, cell cycle analysis Cells Medium 37887339

Source papers

Stage 0 corpus · 13 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2009 Antibodies against PM/Scl-75 and PM/Scl-100 are independent markers for different subsets of systemic sclerosis patients. Arthritis research & therapy 93 19220911
2018 Variants in EXOSC9 Disrupt the RNA Exosome and Result in Cerebellar Atrophy with Spinal Motor Neuronopathy. American journal of human genetics 71 29727687
2004 PM-Scl-75 is the main autoantigen in patients with the polymyositis/scleroderma overlap syndrome. Arthritis and rheumatism 59 14872500
2020 EXOSC9 depletion attenuates P-body formation, stress resistance, and tumorigenicity of cancer cells. Scientific reports 29 32518284
2003 The association of the human PM/Scl-75 autoantigen with the exosome is dependent on a newly identified N terminus. The Journal of biological chemistry 24 12788944
2020 Novel EXOSC9 variants cause pontocerebellar hypoplasia type 1D with spinal motor neuronopathy and cerebellar atrophy. Journal of human genetics 21 33040083
2015 Ptbp1 and Exosc9 knockdowns trigger skin stability defects through different pathways. Developmental biology 17 26546114
2019 Expanded PCH1D phenotype linked to EXOSC9 mutation. European journal of medical genetics 14 30690203
2007 Caspase-mediated cleavage of the exosome subunit PM/Scl-75 during apoptosis. Arthritis research & therapy 9 17280603
2023 Exosc9 Initiates SUMO-Dependent lncRNA TERRA Degradation to Impact Telomeric Integrity in Endocrine Therapy Insensitive Hormone Receptor-Positive Breast Cancer. Cells 7 37887339
2014 Identification of UACA, EXOSC9, and ΤΜX2 in bovine periosteal cells by mass spectrometry and immunohistochemistry. Analytical and bioanalytical chemistry 5 24696107
2000 Structure and localization of mouse Pmscl1 and Pmscl2 genes. Genomics 2 10708524
2020 [A rare case of inclusion body myositis associated with anti-PM/Scl-75 antibodies]. Rinsho shinkeigaku = Clinical neurology 0 32238743

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