Affinage

P4HTM

Transmembrane prolyl 4-hydroxylase · UniProt Q9NXG6

Length
502 aa
Mass
56.7 kDa
Annotated
2026-06-10
24 papers in source corpus 10 papers cited in narrative 10 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

P4HTM (P4H-TM/PH-4) is an endoplasmic reticulum-resident transmembrane prolyl 4-hydroxylase that acts as a non-redundant regulator of HIF-α stability and thereby of oxygen-dependent gene expression (PMID:12163023, PMID:42114683). Distinct from the cytoplasmic/nuclear EGLN prolyl hydroxylases, it localizes to the ER through an N-terminal anchor and carries an N-terminal EF-hand motif and a C-terminal catalytic domain; its overexpression suppresses HIF transactivation in an ODDD proline-dependent manner and lowers cellular HIF protein (PMID:12163023). Loss of P4H-TM stabilizes HIF-1α in normoxic neurons and drives constitutive HIF activation in vivo, with zebrafish epistasis demonstrating that the resulting erythrocytosis, cardiac, renal, and hepatic steatosis phenotypes are HIF-α dependent (PMID:27466183, PMID:42114683). In mice its highest expression spans RPE, brain, heart, lung, muscle, and kidney, and its loss produces retinal thinning, photoreceptor recycling defects, and renal lipid accumulation/fibrosis with age (PMID:27466183). A CNS-selective expression pattern in amygdala, lateral septum, and bed nucleus of the stria terminalis underlies a non-redundant role in fear, anxiety, and social behavior not shared by other HIF prolyl hydroxylases, and knockout mice further show disrupted circadian energy metabolism, muscle weakness, and a blunted ventilatory response to hypoxia and hypercapnia of neurological origin (PMID:31029587, PMID:38396259). Biallelic loss-of-function P4HTM variants, which destabilize or solubilize the protein, cause the severe neurological HIDEA syndrome (PMID:30940925).

Mechanistic history

Synthesis pass · year-by-year structured walk · 10 steps
  1. 2002 Medium

    Established P4H-TM as a distinct, ER-localized prolyl 4-hydroxylase that can suppress HIF activity, raising the question of whether it is a bona fide oxygen-sensing enzyme separate from the EGLN family.

    Evidence Cellular reporter assays, overexpression, and subcellular localization in cultured cells

    PMID:12163023

    Open questions at the time
    • No in vitro enzymatic reconstitution or catalytic-residue mutagenesis
    • Direct hydroxylation of HIF prolines not demonstrated biochemically
  2. 2013 Medium

    Showed P4HTM can lower HIF-2α and drive a downstream angiogenic program via TGF-α, linking its HIF-regulatory activity to tissue vascularization.

    Evidence Overexpression in osteosarcoma cells, HIF-2α western blot, in vitro sprouting and in vivo xenograft assays

    PMID:24048703

    Open questions at the time
    • Relies on overexpression rather than loss-of-function
    • No direct enzymatic assay of P4H-TM on HIF-2α
  3. 2016 High

    Genetic loss-of-function in mice established P4H-TM as a physiological regulator of HIF-1α stability with tissue-specific consequences, moving beyond overexpression artifacts.

    Evidence P4h-tm-/- knockout mouse with HIF-1α western blot, HIF target qRT-PCR, electroretinography, and renal/retinal histology

    PMID:27466183

    Open questions at the time
    • Direct substrate hydroxylation not measured
    • Mechanism connecting HIF stabilization to retinal/renal pathology not fully resolved
  4. 2019 Medium

    Defined a non-redundant CNS role for P4H-TM in anxiety and social behavior absent from other HIF prolyl hydroxylase isoforms, indicating isoform-specific neural function.

    Evidence Knockout mouse behavioral battery with brain expression mapping and isoform-specificity controls

    PMID:31029587

    Open questions at the time
    • Downstream molecular mechanism in CNS undefined
    • Whether behavioral phenotype is HIF-dependent not established
  5. 2019 Medium

    Connected P4HTM to human disease, identifying biallelic loss-of-function variants as the cause of HIDEA syndrome and confirming variant proteins are functionally compromised.

    Evidence Exome sequencing with segregation, insect-cell expression and solubility assays of variant proteins

    PMID:30940925

    Open questions at the time
    • Solubility loss inferred rather than enzymatic activity measured
    • Genotype-phenotype mechanism in patients not dissected
  6. 2021 Low

    Raised the possibility that P4H-TM function extends to mitochondrial homeostasis and additional substrates beyond HIF.

    Evidence Trio whole-genome sequencing and muscle complex I activity assay in a single patient

    PMID:34285383

    Open questions at the time
    • Single patient, single assay
    • Proposed targets (RNA Pol II, ATF4) not experimentally confirmed
    • Causal link between P4HTM loss and complex I deficiency not established
  7. 2022 Low

    Consolidated the disease mechanism by showing all known pathogenic variants converge on loss of enzymatic function through truncation, deletion, or active-site/stability disruption.

    Evidence In silico structural/functional analysis of pathogenic variants across patients

    PMID:35908151

    Open questions at the time
    • Computational only; no biochemical reconstitution or mutagenesis
    • Predicted active-site impacts not validated functionally
  8. 2023 Low

    Identified upstream transcriptional control of P4HTM, placing it downstream of GATA3 in breast cancer cells.

    Evidence ChIP-seq/genomics analysis and ectopic GATA3 overexpression with RT-qPCR (preprint)

    PMID:36909571

    Open questions at the time
    • Preprint, single overexpression experiment
    • No promoter reporter or binding-site mutagenesis confirming direct regulation
  9. 2024 Medium

    Expanded the in vivo phenotype to systemic physiology, showing P4H-TM loss disrupts circadian energy metabolism, muscle strength, and respiratory chemosensitivity via CNS-attributed mechanisms.

    Evidence Knockout mouse indirect calorimetry, glucose/insulin tolerance, respiratory and sedation challenges

    PMID:38396259

    Open questions at the time
    • Upstream molecular mechanism not resolved
    • Tissue of origin (CNS vs peripheral) not genetically isolated
  10. 2026 High

    Provided definitive pathway placement, demonstrating by epistasis that P4H-TM loss-of-function phenotypes are HIF-α-dependent and conserved across vertebrates.

    Evidence Zebrafish knockout with Hif-α inhibitor rescue and multi-organ phenotyping

    PMID:42114683

    Open questions at the time
    • Does not address HIF-independent functions (e.g. mitochondrial/CNS)
    • Direct hydroxylation chemistry still not reconstituted in vitro

Open questions

Synthesis pass · forward-looking unresolved questions
  • Whether P4H-TM directly hydroxylates HIF-α prolines (and any non-HIF substrates such as ATF4 or RNA Pol II) via reconstituted enzymatic activity, and how its ER localization and EF-hand motif shape substrate selection, remains unresolved.
  • No direct biochemical demonstration of prolyl hydroxylation
  • Non-HIF substrates unconfirmed
  • Role of EF-hand/calcium sensing in catalysis unknown

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0016491 oxidoreductase activity 2 GO:0016787 hydrolase activity 1
Localization
GO:0005783 endoplasmic reticulum 2
Pathway
R-HSA-74160 Gene expression (Transcription) 2 R-HSA-8953897 Cellular responses to stimuli 2

Evidence

Reading pass · 10 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2002 P4H-TM (PH-4) is a novel putative proline 4-hydroxylase that localizes to the endoplasmic reticulum (unlike EGLN1-3 which are cytoplasmic/nuclear), contains an N-terminal EF-hand motif and a C-terminal catalytic domain. Overexpression in cellular reporter assays suppressed HIF transactivation activity dependent on consensus ODDD proline residues, correlated with decreased cellular HIF protein levels. Cellular reporter assays, overexpression, subcellular localization studies Biochemical and biophysical research communications Medium 12163023
2016 P4H-TM participates in the oxygen-dependent regulation of HIF; loss of P4h-tm in mice stabilizes HIF-1α in cortical neurons under normoxia and increases expression of certain HIF target genes in hypoxia in tissues with high P4h-tm expression. P4h-tm is most highly expressed in mouse RPE, brain, heart, lung, skeletal muscle, and kidney. P4h-tm-/- mice develop retinal thinning, drusen-like structures, compromised photoreceptor recycling, and renal lipid accumulation/fibrosis with aging. Knockout mouse model (P4h-tm-/-), western blot for HIF-1α, qRT-PCR for HIF target genes, electroretinography, histology, fractionation/localization studies Human molecular genetics High 27466183
2013 PHD4 (P4HTM) overexpression in osteosarcoma cells reduced HIF-2α protein levels and stimulated TGF-α expression, which was necessary and sufficient to promote angiogenic sprouting of endothelial cells in vitro and increased tumor blood vessel density in vivo. Overexpression in osteosarcoma cells, western blot for HIF-2α, in vitro angiogenesis assay, in vivo tumor xenograft Molecular cancer research : MCR Medium 24048703
2019 Biallelic loss-of-function variants in P4HTM cause HIDEA syndrome. Three P4H-TM variant proteins (lacking the transmembrane region) expressed in insect cells yielded insoluble protein products, demonstrating loss-of-function at the protein level. Exome sequencing, Sanger segregation analysis, overexpression in insect cells, SDS-PAGE and western blot to assess protein solubility Genetics in medicine : official journal of the American College of Medical Genetics Medium 30940925
2019 P4h-tm is selectively expressed in mouse brain regions involved in social behavior and anxiety (amygdala, lateral septum, bed nucleus of stria terminalis). P4h-tm-/- mice display reduced fear/anxiety, increased social interaction, and near-complete absence of behavioral despair, a phenotype not seen in mice lacking other Hif-p4h isoforms, establishing a non-redundant CNS role for P4H-TM. Knockout mouse model, in situ hybridization/immunostaining for brain expression mapping, behavioral assays (open field, Morris swim, forced swim, tail suspension, social interaction) Neuropharmacology Medium 31029587
2021 Biallelic predicted truncating P4HTM variants were associated with significantly decreased mitochondrial respiratory chain complex I activity in muscle, suggesting P4H-TM function is linked to mitochondrial homeostasis. Putative P4H-TM targets noted include HIF, RNA polymerase II, and activating transcription factor 4 (ATF4, implicated in the integrated stress response). Trio whole-genome sequencing, mitochondrial respiratory chain complex activity assay in muscle biopsy European journal of human genetics : EJHG Low 34285383
2022 All known pathogenic HIDEA-associated P4HTM variants result in either premature stop codons, intragenic deletion, or amino acid changes that impact the active site or overall stability of the P4H-TM protein, confirming that loss of enzymatic function is the common mechanism. In silico structural/functional characterization of pathogenic variants, clinical genetics Clinical genetics Low 35908151
2024 P4h-tm-/- mice exhibit alterations in whole-body energy metabolism including disrupted 24-h oscillations of energy expenditure and locomotor activity, better glucose tolerance and lower fasting insulin under sedation, faster hepatic glycogenolysis, significant muscle weakness, and a reduced ventilatory response to both hypoxia and hypercapnia. The phenotype is attributed to neurological/CNS origins. Knockout mouse model, indirect calorimetry, glucose and insulin tolerance tests, lactate/FFA measurements, respiratory rate measurements, sedation challenges Pflugers Archiv : European journal of physiology Medium 38396259
2026 p4htm knockout zebrafish exhibit constitutive Hif activation, erythrocytosis, pathological cardiac remodeling, and HIF-dependent hepatic steatosis. Pericardial edema and renal defects in p4htm mutants are mechanistically rescued by Hif-α inhibition, establishing p4htm as a non-redundant regulator of HIF signaling in vivo. Zebrafish knockout model, genetic epistasis (rescue with Hif-α inhibitor), blood/cardiac/renal/hepatic phenotyping Biochemical pharmacology High 42114683
2023 GATA3 binds to the P4HTM locus and ectopic expression of GATA3 in basal breast cancer cells increases P4HTM transcript levels, identifying P4HTM as a downstream transcriptional target of GATA3. ChIP-seq/genomics data analysis, ectopic GATA3 overexpression with RT-qPCR for P4HTM Research square (preprint)preprint Low 36909571

Source papers

Stage 0 corpus · 24 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2006 PH4 of Petunia is an R2R3 MYB protein that activates vacuolar acidification through interactions with basic-helix-loop-helix transcription factors of the anthocyanin pathway. The Plant cell 265 16603655
2002 Overexpression of PH-4, a novel putative proline 4-hydroxylase, modulates activity of hypoxia-inducible transcription factors. Biochemical and biophysical research communications 132 12163023
2013 Cysteine dioxygenase structures from pH4 to 9: consistent cys-persulfenate formation at intermediate pH and a Cys-bound enzyme at higher pH. Journal of molecular biology 61 23747973
2005 Thermodynamic properties of molecular borane phosphines, alane amines, and phosphine alanes and the [BH(4)(-)][PH(4)(+)], [AlH(4)(-)][NH(4)(+)], and [AlH(4)(-)][PH(4)(+)] salts for chemical hydrogen storage systems from ab initio electronic structure theory. The journal of physical chemistry. A 51 16838934
2015 Two showy traits, scent emission and pigmentation, are finely coregulated by the MYB transcription factor PH4 in petunia flowers. The New phytologist 43 26111005
2020 Citrus PH4-Noemi regulatory complex is involved in proanthocyanidin biosynthesis via a positive feedback loop. Journal of experimental botany 32 31728522
2019 Biallelic loss-of-function P4HTM gene variants cause hypotonia, hypoventilation, intellectual disability, dysautonomia, epilepsy, and eye abnormalities (HIDEA syndrome). Genetics in medicine : official journal of the American College of Medical Genetics 22 30940925
2013 PHD4 stimulates tumor angiogenesis in osteosarcoma cells via TGF-α. Molecular cancer research : MCR 20 24048703
2016 Lack of P4H-TM in mice results in age-related retinal and renal alterations. Human molecular genetics 18 27466183
2019 Null mutation in P4h-tm leads to decreased fear and anxiety and increased social behavior in mice. Neuropharmacology 13 31029587
2023 Biallelic Mutations in P4HTM Cause Syndromic Obesity. Diabetes 11 37083980
2021 Biallelic P4HTM variants associated with HIDEA syndrome and mitochondrial respiratory chain complex I deficiency. European journal of human genetics : EJHG 10 34285383
2022 HIDEA syndrome is caused by biallelic, pathogenic, rare or founder P4HTM variants impacting the active site or the overall stability of the P4H-TM protein. Clinical genetics 9 35908151
2016 A chimeric repressor of petunia PH4 R2R3-MYB family transcription factor generates margined flowers in torenia. Plant signaling & behavior 8 27089475
2024 Metabolic characteristics of transmembrane prolyl 4-hydroxylase (P4H-TM) deficient mice. Pflugers Archiv : European journal of physiology 5 38396259
2021 Dynamic interactions in the l-lactate oxidase active site facilitate substrate binding at pH4.5. Biochemical and biophysical research communications 5 34214876
2023 P4HTM: A Novel Downstream Target of GATA3 in Breast Cancer. Research square 3 36909571
2024 Exploring optoelectronic and photocatalytic properties of X2AgBiY6 (X = NH4, PH4, AsH4, SbH4 and Y = Cl, Br): a DFT study. RSC advances 1 38249669
2024 A pathogenic P4HTM gene variant in two brothers with autism spectrum disorder. Psychiatric genetics 1 38441145
2024 Clinical characteristics of patients with P4HTM variant-associated epilepsy and therapeutic exploration: a case report and literature review. Frontiers in neurology 1 39582684
2024 Novel compound heterozygous P4HTM variants in a girl with developmental and epileptic encephalopathy: First case report of P4HTM variant-associated epileptic encephalopathy. Seizure 1 39612909
2026 p4htm acts as a non-redundant regulator of HIF signaling to govern erythropoiesis and renal homeostasis in zebrafish. Biochemical pharmacology 0 42114683
2025 [Clinical study on intravenous human immunoglobulin (pH4) for hypogammaglobulinemia and infection risk following CD20 monoclonal antibody therapy in patients with B-cell non-Hodgkin lymphoma]. Zhonghua xue ye xue za zhi = Zhonghua xueyexue zazhi 0 40623901
2025 Evidence for the major role of PH4⍺EFB in the prolyl 4-hydroxylation of Drosophila collagen IV. Matrix biology : journal of the International Society for Matrix Biology 0 40946811

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