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Showing P3H4SC65 is a alias.

P3H4

Endoplasmic reticulum protein SC65 · UniProt Q92791

Length
437 aa
Mass
50.4 kDa
Annotated
2026-06-10
13 papers in source corpus 7 papers cited in narrative 7 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

P3H4 (SC65) is an endoplasmic reticulum-resident protein that functions in collagen post-translational modification rather than in the nuclear/synaptonemal roles once attributed to it (PMID:23959653). In the ER it forms a stable complex with prolyl 3-hydroxylase 3 (P3H3), and this complex regulates the activity of lysyl hydroxylase 1 (LH1) on collagen, potentially through interactions involving LH1 and cyclophilin B (PMID:27119146). P3H4 and P3H3 act together specifically to hydroxylate lysines at helical-domain cross-linking sites in fibrillar collagens across skin, bone, tendon, aorta, and cornea, without affecting prolyl 3-hydroxylation; loss of either protein alters divalent aldimine cross-link chemistry and reverses the bone mature cross-link ratio, phenocopying EDS VIA (PLOD1 deficiency) (PMID:28115524). Consistent with this biochemical role, loss of P3H4 destabilizes the ER complex and produces collagen lysine under-hydroxylation, low bone mass, and skin fragility, with progressive osteopenia driven by non-cell-autonomous increased osteoclastogenesis (PMID:23959653, PMID:27119146). In cancer contexts, P3H4 transcription is directly activated by ETV4 in bladder cancer, where it supports proliferation, cell-cycle progression, migration, and invasion (PMID:32018225), and its mRNA stability is regulated by METTL3-mediated m6A modification (PMID:37979898).

Mechanistic history

Synthesis pass · year-by-year structured walk · 7 steps
  1. 2014 Medium

    Established that SC65/P3H4 is an ER-resident protein in somatic cells rather than a nuclear synaptonemal-complex component, reassigning its cellular compartment and linking it to skeletal homeostasis.

    Evidence Subcellular fractionation and immunofluorescence plus Sc65 knockout mouse bone phenotyping (microCT, histomorphometry)

    PMID:23959653

    Open questions at the time
    • Molecular mechanism connecting ER localization to the osteoclast phenotype not defined
    • Non-cell-autonomous signal driving osteoclastogenesis not identified
  2. 2016 High

    Defined the molecular partnership: SC65/P3H4 forms an ER complex with P3H3 that regulates LH1-mediated collagen lysine hydroxylation, explaining the bone and skin phenotypes.

    Evidence Co-immunoprecipitation of ER complex components, MS-based collagen modification analysis, and connective-tissue phenotyping in Sc65 knockout mice

    PMID:27119146

    Open questions at the time
    • Direct enzymatic role of P3H4 within the complex not established (non-enzymatic scaffold vs. catalytic)
    • Precise stoichiometry and contributions of LH1 and cyclophilin B unresolved
  3. 2017 High

    Mapped substrate specificity to helical-domain cross-linking lysines and showed the pathway controls cross-link chemistry, demonstrating that P3H4/P3H3 loss phenocopies EDS VIA.

    Evidence Tandem MS substrate mapping and quantitative cross-link analysis on collagen from Sc65-/- and P3h3-/- mouse tissues across multiple tissue types

    PMID:28115524

    Open questions at the time
    • How the complex confers site-specificity to LH1 at helical sites is unknown
    • Whether human P3H4 mutations cause an EDS-like disorder not addressed in the corpus
  4. 2020 Medium

    Identified an upstream transcriptional driver of P3H4 in cancer, showing ETV4 directly activates P3H4 to support bladder tumor cell growth and invasion.

    Evidence ChIP and promoter reporter assays, shRNA knockdown with ETV4-overexpression rescue, and xenograft tumor model in bladder cancer cells

    PMID:32018225

    Open questions at the time
    • Effector mechanism linking P3H4 to proliferation/invasion not defined
    • Relationship between cancer role and ER collagen function unclear
  5. 2022 Low

    Proposed a non-collagen interaction by reporting P3H4 binding to EGFR in lung adenocarcinoma.

    Evidence Co-immunoprecipitation/interaction assay and knockdown/overexpression in LUAD cell lines with in vivo tumor models

    PMID:35805016

    Open questions at the time
    • Single Co-IP without reciprocal validation or detailed mechanistic follow-up
    • Direct vs. indirect EGFR association not established
  6. 2023 Medium

    Showed post-transcriptional control of P3H4 in cancer, with METTL3-mediated m6A modification stabilizing P3H4 mRNA to promote bladder cancer phenotypes.

    Evidence mRNA half-life assays after METTL3 knockdown plus knockdown/overexpression rescue and in vivo xenograft with IHC

    PMID:37979898

    Open questions at the time
    • Specific m6A sites on P3H4 mRNA not mapped
    • Reader protein mediating stabilization not identified
  7. 2025 Low

    Linked P3H4 to a signaling/metabolic output in hepatocellular carcinoma via PI3K/AKT and glycolysis.

    Evidence shRNA knockdown with viability, glycolysis (glucose/lactate/ATP), and PI3K/AKT phospho-western readouts plus nude mouse xenograft

    PMID:41220593

    Open questions at the time
    • Pathway placement inferred from phosphorylation changes without direct mechanistic link to P3H4 activity
    • Connection to ER collagen-modifying function unexplained

Open questions

Synthesis pass · forward-looking unresolved questions
  • How P3H4's defined ER collagen-modifying role mechanistically relates to its reported oncogenic functions, and whether human P3H4 variants cause connective-tissue disease, remains unresolved.
  • No reconciliation between scaffolding role in collagen hydroxylation and cancer signaling functions
  • No human genetic disease evidence in the corpus
  • No structural model of the P3H4/P3H3/LH1/cyclophilin B complex

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0140096 catalytic activity, acting on a protein 2 GO:0060090 molecular adaptor activity 1
Localization
GO:0005783 endoplasmic reticulum 2
Pathway
R-HSA-1474244 Extracellular matrix organization 2 R-HSA-392499 Metabolism of proteins 2
Partners
CYCLOPHILIN BEGFRETV4LH1METTL3P3H3
Complex memberships
ER P3H4-P3H3 collagen-modifying complex

Evidence

Reading pass · 7 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2014 SC65 (P3H4) is an endoplasmic reticulum-resident protein, not a nuclear or synaptonemal complex protein in somatic cells; its loss results in progressive osteopenia and a non-cell-autonomous increase in osteoclastogenesis, establishing SC65 as a negative regulator of bone resorption. Subcellular fractionation and immunofluorescence localization; Sc65 knockout mouse model with bone phenotyping (microCT, histomorphometry) Journal of bone and mineral research Medium 23959653
2016 SC65 (P3H4) forms a complex in the ER with prolyl 3-hydroxylase 3 (P3H3); this complex regulates lysyl hydroxylase 1 (LH1) activity on collagen, potentially through interactions with LH1 and/or cyclophilin B. Loss of Sc65 destabilizes this complex, causing reduced collagen lysine hydroxylation and abnormal collagen cross-linking, leading to low bone mass and skin fragility. Sc65 knockout mouse model; co-immunoprecipitation of ER complex components; mass spectrometry-based collagen modification analysis; skeletal and connective tissue phenotyping PLoS genetics High 27119146
2017 SC65 (P3H4) and P3H3 act in the same pathway to hydroxylate lysines specifically at helical domain cross-linking sites in collagens I, across multiple tissues (skin, bone, tendon, aorta, cornea); neither SC65 nor P3H3 loss affects prolyl 3-hydroxylation at any known 3-hydroxyproline site. Loss of either protein alters divalent aldimine cross-link chemistry and reverses the HP/LP mature cross-link ratio in bone, phenocopying EDS VIA (PLOD1 deficiency). Tandem mass spectrometry on collagen from Sc65-/- and P3h3-/- mouse tissues; SDS-PAGE analysis of collagen cross-linked trimers; quantitative cross-link analysis The Journal of biological chemistry High 28115524
2020 ETV4 directly binds the promoter region of P3H4 and activates its transcription in bladder cancer cells; P3H4 knockdown inhibits bladder cancer cell proliferation, cell cycle progression, migration, and invasion in vitro and tumor growth in vivo, and overexpression of ETV4 rescues the inhibitory effects of P3H4 silencing. Chromatin immunoprecipitation (ChIP) and promoter reporter assays for ETV4 binding; shRNA knockdown of P3H4; rescue experiments with ETV4 overexpression; xenograft tumor model Aging Medium 32018225
2022 P3H4 interacts with EGFR to promote malignant progression (metastasis and proliferation) of lung adenocarcinoma, with P3H4 modulating metabolic substances in this context. Co-immunoprecipitation/interaction assay between P3H4 and EGFR; P3H4 knockdown/overexpression in LUAD cell lines; in vivo tumor models Cancers Low 35805016
2023 METTL3 (an m6A methyltransferase) regulates the mRNA stability of P3H4 in bladder cancer; METTL3 knockdown reduces P3H4 mRNA half-life, and overexpression of P3H4 rescues the inhibitory effects of METTL3 knockdown on bladder cancer cell proliferation, migration, invasion, and EMT. RNA stability assays measuring P3H4 mRNA half-life after METTL3 knockdown; shRNA knockdown and overexpression rescue experiments; in vivo xenograft with IHC Cellular signalling Medium 37979898
2025 P3H4 knockdown in hepatocellular carcinoma cells suppresses PI3K/AKT pathway phosphorylation and inhibits proliferation, invasion, and glycolysis (reduced glucose consumption, lactate, and ATP production). shRNA knockdown of P3H4; CCK8 viability assay; glycolysis detection kit measuring glucose/lactate/ATP; western blot for PI3K/AKT phosphorylation; nude mouse xenograft with IHC International journal of genomics Low 41220593

Source papers

Stage 0 corpus · 13 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2016 Sc65-Null Mice Provide Evidence for a Novel Endoplasmic Reticulum Complex Regulating Collagen Lysyl Hydroxylation. PLoS genetics 45 27119146
2017 P3h3-null and Sc65-null Mice Phenocopy the Collagen Lysine Under-hydroxylation and Cross-linking Abnormality of Ehlers-Danlos Syndrome Type VIA. The Journal of biological chemistry 35 28115524
2000 Identification of nucleolar protein No55 as a tumour-associated autoantigen in patients with prostate cancer. British journal of cancer 25 10952778
2014 Sc65 is a novel endoplasmic reticulum protein that regulates bone mass homeostasis. Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research 20 23959653
2020 Knockdown of P3H4 inhibits proliferation and invasion of bladder cancer. Aging 17 32018225
2023 METTL3 regulates the proliferation, metastasis and EMT progression of bladder cancer through P3H4. Cellular signalling 14 37979898
2021 Germinated Rhynchosia nulubilis Fermented with Lactobacillus pentosus SC65 Reduces Particulate Matter Induced Type II Alveolar Epithelial Apoptotic Cell Death. International journal of molecular sciences 10 33915904
2020 Germinated black soybean fermented with Lactobacillus pentosus SC65 alleviates DNFB-induced delayed-type hypersensitivity in C57BL/6N mice. Journal of ethnopharmacology 10 32750462
2018 P3H4 affects renal carcinoma through up-regulating miR-1/133a. European review for medical and pharmacological sciences 5 30178839
2022 P3H4 Promotes Malignant Progression of Lung Adenocarcinoma via Interaction with EGFR. Cancers 3 35805016
2022 Efficient Delivery of P3H4 siRNA and Chlorin e6 by cRGDfK-Installed Polyarginine Nanoparticles for Tumor-Targeting Therapy of Bladder Cancer. Pharmaceutics 3 36297587
2025 P3H4 Enhances the Proliferation, Invasion, and Glycolysis of Hepatocellular Carcinoma Cells. International journal of genomics 1 41220593
1975 Stability and dissociation of P3H4-1 Burkitt's lymphoma cell soluble complement-fixing antigen identified with human serum. Cancer research 1 236823

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