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Showing SRSF4SRP75 is a alias.

SRSF4

Serine/arginine-rich splicing factor 4 · UniProt Q08170

Length
494 aa
Mass
56.7 kDa
Annotated
2026-06-10
14 papers in source corpus 13 papers cited in narrative 13 extracted findings
Cross-family judge vs UniProt: Affinage preferred faithfulness: 5/5 claims corpus-supported (100%)

Mechanistic narrative

Synthesis pass · prose summary of the discoveries below

SRSF4 (SRp75) is a phosphorylated SR-family pre-mRNA splicing factor built from an N-terminal RRM, a glycine-rich region, an internal RRM-homologous region, and a long C-terminal SR domain whose serines are phosphorylated, and it restores splicing activity to S100-depleted extracts (PMID:8321209). Nuclear import of SRSF4 depends on the RS-rich domain together with additional basic NLS-like stretches, indicating use of at least two distinct import pathways (PMID:32050040), and the SR domain is selectively hyperphosphorylated by CLK-family kinases, which reshapes its nuclear distribution and modulates 5' splice-site choice (PMID:18298798). Within the nucleus, SRSF4 associates with hundreds of distinct endogenous mRNPs and regulates their levels (PMID:20639886), operating as both a positive and negative regulator of alternative splicing depending on context: it inhibits tau exon 10 inclusion by binding the downstream intronic FTDP-17 hotspot while interacting with hnRNPG and hnRNPE2 (PMID:21723381), inhibits splicing at HIV-1 exon 3 (PMID:20685659), and promotes Fas exon 6 inclusion by binding an exonic splicing enhancer, thereby biasing toward the pro-apoptotic membrane-bound isoform (PMID:30376989). Consistent with a role in cell-fate decisions, SRSF4 is required for most cisplatin-induced alternative splicing changes and for cisplatin-induced apoptosis via a class I PI3K (p110β)-dependent, ATM/ATR/p53-independent pathway (PMID:25884497). A patient-derived p.R235W missense variant that lowers SRSF4 protein causes mitochondrial dysfunction rescuable by wild-type SRSF4, linking the factor to energetic metabolism (PMID:38396760).

Mechanistic history

Synthesis pass · year-by-year structured walk · 13 steps
  1. 1993 High

    Established SRSF4 as a bona fide SR splicing factor by defining its modular RRM–glycine–RRM-homology–SR domain architecture and showing it can functionally complement splicing activity.

    Evidence cDNA cloning with S100 complementation splicing assay and dephosphorylation/mobility-shift analysis

    PMID:8321209

    Open questions at the time
    • Did not identify endogenous target transcripts
    • Functional role of SR-domain phosphorylation not established
  2. 2003 Medium

    Placed SRSF4 within a defined nuclear-speckle protein complex by identifying physical partners, addressing how it is organized with the splicing machinery.

    Evidence Yeast two-hybrid and reciprocal co-immunoprecipitation in corneal epithelial cells

    PMID:14578391

    Open questions at the time
    • Functional consequence of Pinin interaction on splicing not tested
    • Single cell type
  3. 2008 Medium

    Identified CLK kinases as the specific regulators of SRSF4 hyperphosphorylation and linked this modification to nuclear distribution and 5' splice-site selection.

    Evidence Comparative SR kinase assay, CLK inhibitor TG003, live-cell imaging, and E1A alternative splicing reporter

    PMID:18298798

    Open questions at the time
    • Phosphosites on SRSF4 not mapped
    • Effect generality across targets beyond E1A not shown
  4. 2010 High

    Demonstrated genome-wide that SRSF4 binds hundreds of endogenous mRNPs and that these associations functionally control transcript levels, establishing its role beyond single reporters.

    Evidence GFP-SR immunopurification of mRNPs with genome-wide target ID, siRNA knockdown, and GFP-SR rescue in P19 cells

    PMID:20639886

    Open questions at the time
    • Direct binding sites not resolved at nucleotide level
    • Splicing vs. stability contributions not separated
  5. 2010 Medium

    Showed SRSF4 acts as a splicing inhibitor at a viral splice site, distinguishing its activity from related SR proteins.

    Evidence Transfection-based HIV-1 splicing assay with SR protein expression constructs

    PMID:20685659

    Open questions at the time
    • RNA element bound by SRSF4 not mapped
    • Single viral context
  6. 2011 Medium

    Defined SRSF4 as a context-dependent splicing repressor at a disease-relevant exon and identified hnRNP cofactors, clarifying its regulatory mechanism at tau exon 10.

    Evidence Co-transfection splicing assay, co-IP, and RNAi knockdown

    PMID:21723381

    Open questions at the time
    • Stoichiometry/order of complex assembly unknown
    • In vivo relevance to tauopathy not tested
  7. 2015 Medium

    Connected SRSF4 to a stress-response apoptotic program, showing it drives cisplatin-induced splicing changes and cell death through PI3K rather than canonical DNA-damage kinases.

    Evidence siRNA knockdown with transcriptome-wide sequencing, RT-PCR, FACS apoptosis, and pathway-specific inhibitors/knockout cells

    PMID:25884497

    Open questions at the time
    • Direct SRSF4 targets mediating apoptosis not isolated
    • Mechanistic link to PI3K not biochemically defined
  8. 2015 Medium

    Identified upstream transcriptional control of SRSF4 by androgen receptor, showing its expression is hormonally repressed in Sertoli cells.

    Evidence AR ChIP/ARE binding, promoter assay, testosterone treatment of TM4 cells, immunofluorescence, and S-AR knockout comparison

    PMID:26308373

    Open questions at the time
    • Functional splicing consequence in Sertoli cells not defined
    • Single regulatory element
  9. 2018 Medium

    Resolved SRSF4 as a positive splicing regulator that binds an exonic enhancer to control an apoptotic isoform switch, demonstrating bidirectional splicing activity.

    Evidence SRSF4 overexpression/knockdown, 5' splice-site mutagenesis, and enhancer mapping on Fas pre-mRNA

    PMID:30376989

    Open questions at the time
    • Enhancer sequence consensus not generalized
    • Endogenous physiological context not tested
  10. 2020 Medium

    Dissected the determinants of SRSF4 nuclear import, showing reliance on the RS domain plus additional basic NLS motifs and multiple import routes.

    Evidence Pyruvate kinase fusion nuclear localization assay with serial deletion/domain mapping

    PMID:32050040

    Open questions at the time
    • Import receptors not identified
    • Link between import route and function not established
  11. 2021 Low

    Implicated SRSF4 in cardiac hypertrophy through a GAS5 lncRNA/glucocorticoid receptor axis.

    Evidence Not fully described in available abstract

    PMID:34333993

    Open questions at the time
    • Experimental detail not extractable from abstract
    • Direct molecular role of SRSF4 in the axis undefined
  12. 2023 Low

    Linked SRSF4 to DNA double-strand break repair and chemoresistance via positive regulation of MDC1 in glioma.

    Evidence Colony formation, flow cytometry, western blot, immunofluorescence, and orthotopic xenograft with SRSF4 manipulation

    PMID:37014544

    Open questions at the time
    • Biochemical mechanism linking SRSF4 to MDC1 not defined
    • Whether effect is splicing-mediated unknown
  13. 2024 Medium

    Provided human genetic and functional evidence tying SRSF4 dosage to mitochondrial function via a rescuable missense variant.

    Evidence Whole genome sequencing, patient lymphocyte/lymphoblast analysis, mitochondrial function assays, and wild-type SRSF4 rescue transfection

    PMID:38396760

    Open questions at the time
    • Splicing targets mediating mitochondrial phenotype not identified
    • Single-patient case study

Open questions

Synthesis pass · forward-looking unresolved questions
  • How SRSF4's diverse non-splicing phenotypes (apoptosis, DNA repair, mitochondrial and cardiac function) connect to its core RNA-binding/splicing activity remains unresolved.
  • No unifying set of direct RNA targets links the disparate phenotypes
  • Phosphorylation-state-specific target maps lacking
  • Structural basis of enhancer vs. silencer recognition unknown

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0003723 RNA binding 4
Localization
GO:0005634 nucleus 2 GO:0005654 nucleoplasm 2
Pathway
R-HSA-8953854 Metabolism of RNA 3
Partners
HNRNPE2HNRNPGPNNSRRM2

Evidence

Reading pass · 13 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
1993 SRp75 (SRSF4) contains an N-terminal RNA recognition motif (RRM), a glycine-rich region, an internal region homologous to the RRM, and a long C-terminal SR domain; it can complement a splicing-deficient S100 extract, restoring pre-mRNA splicing activity. Dephosphorylation of SRp75 causes a mobility shift proportional to SR domain length, indicating serines in the SR domain are phosphorylated. cDNA cloning, S100 complementation splicing assay, dephosphorylation/mobility-shift analysis Molecular and cellular biology High 8321209
2003 SRp75 (SRSF4) interacts with Pinin (Pnn/DRS/memA) via Pnn's polyserine/RS motif, as well as with SRm300 and SRrp130, forming a multiprotein complex in the nucleus of corneal epithelial cells that co-localizes with components of the pre-mRNA splicing machinery in nuclear speckles. Yeast two-hybrid, co-immunoprecipitation, co-transfection with immunostaining/immunoblotting Investigative ophthalmology & visual science Medium 14578391
2008 CLK family kinases specifically hyperphosphorylate SRp75 (SRSF4) among SR kinases tested (SRPK, CLK, PRP4, DYRK). This phosphorylation alters SRp75 nuclear distribution and, together with SRp75 overexpression, promotes selection of the 12S 5' splice site in Adenovirus E1A pre-mRNA. Comparative SR kinase assay with phospho-SR antibody (mAb1H4), CLK inhibitor TG003, live-cell imaging of mRFP-SRp75, co-transfection with HA-SRp75 and kinase constructs, alternative splicing reporter Genes to cells : devoted to molecular & cellular mechanisms Medium 18298798
2010 SRp75 (SRSF4) associates with hundreds of distinct endogenous mRNAs in cycling and neurally differentiating P19 cells; these mRNP associations are functionally relevant, as SRp75 knockdown causes up- or down-regulation of specific target transcripts, rescued by GFP-tagged SRp75. GFP-tagged SR protein immunopurification of mRNPs, genome-wide mRNA target identification, siRNA knockdown, rescue by GFP-SR transgene Nature structural & molecular biology High 20639886
2010 SRp75 (SRSF4) inhibits splicing from the 5' splice site of HIV-1 exon 3, causing accumulation of the partially unspliced 13a7 vpr mRNA. This is distinct from SRp40, which promotes splicing from exon 3 to exon 4 (tat mRNA production). Transfection-based splicing assay with SR protein expression constructs, mRNA quantification The Journal of biological chemistry Medium 20685659
2011 SRp75 (SRSF4) binds the proximal downstream intron of tau exon 10 at the FTDP-17 hotspot region and inhibits exon 10 splicing. SRp75 physically interacts with hnRNPG and hnRNPE2 (the latter activates exon 10 inclusion), forming a regulatory complex at this splice site. Co-transfection splicing assay, co-immunoprecipitation, RNAi knockdown Gene Medium 21723381
2015 SRSF4 is required for the majority of cisplatin-induced alternative splicing changes and for cisplatin-induced cell death in breast carcinoma cells; this process requires class I PI3K (p110β) but not ATM, ATR, or p53. siRNA depletion of SRSF4 (but not SRSF6) abrogated both the splicing alterations and apoptosis. siRNA knockdown, next-generation sequencing of transcriptome, RT-PCR, FACS apoptosis analysis, pathway-specific inhibitors and knockout cells BMC cancer Medium 25884497
2015 Androgen receptor (AR) directly binds an androgen-responsive element (ARE) in the Srsf4 promoter in mouse Sertoli cells, repressing Srsf4 expression; testosterone treatment down-regulates Srsf4 in the Sertoli-cell line TM4, and SRSF4 is localized to Sertoli cell nuclei. ChIP/AR binding to ARE, promoter assay, testosterone treatment of TM4 cells, immunofluorescence localization, S-AR knockout mouse comparison Molecular reproduction and development Medium 26308373
2018 SRSF4 promotes inclusion of exon 6 in Fas pre-mRNA by binding a novel exonic splicing enhancer on exon 6; a weaker 5' splice site abrogates this effect. Reduced SRSF4 promotes exon 6 exclusion (soluble anti-apoptotic isoform), while increased SRSF4 promotes exon 6 inclusion (membrane-bound pro-apoptotic isoform). SRSF4 overexpression and siRNA knockdown, 5' splice-site mutation analysis, RNA binding/functional enhancer mapping Biochemical and biophysical research communications Medium 30376989
2020 SRSF4 nuclear localization is mediated by multiple nuclear localization signals (NLSs): the RS-rich domain confers nuclear localization activity, but not all RS-rich sub-regions are sufficient; additional classical-type NLS-like basic amino acid stretches were identified, indicating SRSF4 uses at least two distinct nuclear import pathways. Pyruvate kinase (PK) fusion nuclear localization assay with serial deletions and domain mapping Genes to cells : devoted to molecular & cellular mechanisms Medium 32050040
2021 SRSF4 regulates ventricular hypertrophy through an axis involving GAS5 lncRNA and the glucocorticoid receptor. Not fully described in available abstract Circulation research Low 34333993
2023 SRSF4 promotes temozolomide resistance in glioma by positively regulating MDC1 expression, thereby accelerating DNA double-strand break repair. Colony formation assay, flow cytometry, western blot, immunofluorescence, bioinformatic analysis, orthotopic xenograft model with SRSF4 manipulation Journal of molecular neuroscience : MN Low 37014544
2024 A missense variant of SRSF4 (p.R235W) causes reduced SRSF4 protein expression, leading to mitochondrial dysfunction and altered energetic metabolism in patient lymphocytes; transfection with wild-type SRSF4 restored mitochondrial function. The mitochondrial defect was associated with low mTOR phosphorylation and imbalance of CLUH, DRP1, and OPA1. Whole genome sequencing, primary patient cell analysis (lymphocytes, EBV-immortalized lymphoblasts), western blot, mitochondrial function assays, wtSRSF4 rescue transfection International journal of molecular sciences Medium 38396760

Source papers

Stage 0 corpus · 14 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
1993 Human SR proteins and isolation of a cDNA encoding SRp75. Molecular and cellular biology 106 8321209
2003 Pinin/DRS/memA interacts with SRp75, SRm300 and SRrp130 in corneal epithelial cells. Investigative ophthalmology & visual science 54 14578391
2010 Global analysis reveals SRp20- and SRp75-specific mRNPs in cycling and neural cells. Nature structural & molecular biology 53 20639886
2015 Role of the splicing factor SRSF4 in cisplatin-induced modifications of pre-mRNA splicing and apoptosis. BMC cancer 41 25884497
2008 Combination of Clk family kinase and SRp75 modulates alternative splicing of Adenovirus E1A. Genes to cells : devoted to molecular & cellular mechanisms 41 18298798
2011 An SRp75/hnRNPG complex interacting with hnRNPE2 regulates the 5' splice site of tau exon 10, whose misregulation causes frontotemporal dementia. Gene 35 21723381
2010 Serine- and arginine-rich proteins 55 and 75 (SRp55 and SRp75) induce production of HIV-1 vpr mRNA by inhibiting the 5'-splice site of exon 3. The Journal of biological chemistry 22 20685659
2021 The SRSF4-GAS5-Glucocorticoid Receptor Axis Regulates Ventricular Hypertrophy. Circulation research 20 34333993
2018 Binding of SRSF4 to a novel enhancer modulates splicing of exon 6 of Fas pre-mRNA. Biochemical and biophysical research communications 13 30376989
2025 SRSF4-Associated ca-circFOXP1 Regulates Hypoxia-Induced PASMC Proliferation by the Formation of R Loop With Host Gene. Arteriosclerosis, thrombosis, and vascular biology 6 39973750
2023 SRSF4 Confers Temozolomide Resistance of Glioma via Accelerating Double Strand Break Repair. Journal of molecular neuroscience : MN 4 37014544
2020 Multiple nuclear localization sequences in SRSF4 protein. Genes to cells : devoted to molecular & cellular mechanisms 4 32050040
2015 Androgen receptor binding to an androgen-responsive element in the promoter of the Srsf4 gene inhibits its expression in mouse Sertoli cells. Molecular reproduction and development 4 26308373
2024 Impaired Mitochondrial Function and Marrow Failure in Patients Carrying a Variant of the SRSF4 Gene. International journal of molecular sciences 0 38396760

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