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Showing ARHGAP44RICH2 is a alias.

ARHGAP44

Rho GTPase-activating protein 44 · UniProt Q17R89

Length
818 aa
Mass
89.2 kDa
Annotated
2026-06-09
23 papers in source corpus 11 papers cited in narrative 11 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

ARHGAP44 (RICH2) is a Rho-family GTPase-activating protein that couples membrane geometry to actin remodeling, restraining Rac1, Cdc42, and RhoA signaling across neuronal and epithelial contexts (PMID:24352656, PMID:25498153, PMID:28527113, PMID:28642683). Its N-BAR domain senses inward plasma membrane curvature generated by acto-myosin contractile forces, recruiting the protein to nascent filopodia sites where its GAP domain drives local Rac-GTP hydrolysis to suppress filopodia initiation in developing neurons (PMID:25498153). As a Rac1-specific GAP it controls dendritic spine morphogenesis, with loss-of-function disinhibiting synaptic Rac1 in vivo and altering spine number and receptor composition (PMID:24352656, PMID:26969129); at postsynaptic densities it forms an LTP-regulated complex with Shank3 that governs endosomal recycling and GluA1 AMPA-receptor exocytosis during spine enlargement (PMID:23739967, PMID:36630934). In polarized epithelial cells ARHGAP44 links CD317/tetherin to the apical actin cytoskeleton through EBP50 and ezrin, maintaining the apical actin network and microvilli (PMID:19273615). Its catalytic (R291A-sensitive) GAP activity toward Cdc42 restrains cell spreading and migration and is transcriptionally suppressed by mutant p53 (PMID:28527113).

Mechanistic history

Synthesis pass · year-by-year structured walk · 9 steps
  1. 2009 High

    Established the first cellular role for RICH2 as a cytoskeletal adaptor, answering how the membrane protein CD317/tetherin is anchored to the apical actin network in polarized epithelia.

    Evidence siRNA knockdown, co-immunoprecipitation, and confocal imaging in polarized epithelial cells

    PMID:19273615

    Open questions at the time
    • Did not test GAP activity or a specific Rho GTPase in this epithelial context
    • Direct binding stoichiometry within the EBP50/ezrin complex not resolved
  2. 2013 High

    Defined RICH2 as a Rac1-specific GAP acting upstream of Rac1 to control dendritic spine morphology, answering which GTPase mediates its synaptic function.

    Evidence Knockdown/overexpression with Rac1-inhibitor (EHT 1864) epistasis rescue, mEPSC recording, and immunofluorescence in cultured hippocampal neurons

    PMID:24352656

    Open questions at the time
    • Did not address regulation of recruitment to spines
    • Did not distinguish Rac1 from other potential substrates biochemically
  3. 2013 High

    Identified the Shank3-RICH2 complex as an LTP-regulated machine controlling AMPA receptor recycling, connecting GAP function to synaptic plasticity output.

    Evidence Proteomic screen, BRET in live cells, siRNA and interfering peptide disruption, GluA1 exocytosis assay in hippocampal neurons

    PMID:23739967

    Open questions at the time
    • Molecular basis of LTP-induced interaction increase not defined
    • Link between GAP catalysis and receptor exocytosis not directly dissected
  4. 2014 High

    Revealed the mechanistic logic of curvature-sensing, showing the N-BAR domain reads acto-myosin-generated membrane curvature to target GAP activity and suppress filopodia initiation.

    Evidence Live-cell imaging, dominant-negative/constitutively-active constructs, BAR-domain curvature binding assay, Rac-GTP pull-down in neurons

    PMID:25498153

    Open questions at the time
    • In vivo relevance of curvature sensing not tested
    • Whether the same mechanism operates at spines or epithelial surfaces unknown
  5. 2016 Medium

    Confirmed RICH2 as an in vivo negative regulator of synaptic Rac1, linking its loss to structural and receptor-composition synaptic phenotypes.

    Evidence RICH2 knockout mouse with immunohistochemistry, electron microscopy, Rac1-GTP pull-down, and behavioral testing

    PMID:26969129

    Open questions at the time
    • Single lab
    • Behavioral consequences not mechanistically tied to specific spine changes
  6. 2017 Medium

    Extended the substrate repertoire to Cdc42 and RhoA and placed RICH2 in a tumor-suppressive transcriptional circuit downstream of mutant p53.

    Evidence RNA-seq/RT-qPCR, Cdc42-GTP and RhoA-GTP pull-downs, WT vs GAP-dead R291A overexpression, cell spreading/migration assays, and amygdala KO analysis

    PMID:28527113 PMID:28642683

    Open questions at the time
    • Region- and context-specificity of substrate choice (Rac1 vs Cdc42 vs RhoA) unexplained
    • Single lab for each substrate claim
  7. 2019 Medium

    Documented physical association with Cdc42, Rac1, and β-catenin in carcinoma cells and a Cdc42-dependent anti-tumor, anti-filopodia function in vivo.

    Evidence Co-immunoprecipitation, filopodia assay, stable overexpression, and xenograft in hepatocellular carcinoma cells

    PMID:31136984

    Open questions at the time
    • β-catenin interaction functional significance not established
    • GAP-dependence of tumor suppression not formally tested here
  8. 2023 Medium

    Anchored RICH2 biochemically to the postsynaptic density in vivo and noted developmental nuclear accumulation, refining its subcellular localization.

    Evidence Subcellular fractionation, immunoblotting, and immunohistochemistry of mouse brain across regions and developmental stages

    PMID:36630934

    Open questions at the time
    • Functional role of nuclear pool not addressed
    • Single lab
  9. 2023 Low

    Reported a non-canonical effect of RICH2 overexpression on mitochondrial dynamics and MAPK/ERK/HIF-1 signaling in glioma.

    Evidence Fluorescence microscopy, qRT-PCR, Western blot, calcium imaging, and glioma mouse model (overexpression only)

    PMID:37926169

    Open questions at the time
    • Overexpression only, no loss-of-function
    • Direct molecular link between RICH2 and mitochondrial machinery not dissected
    • Not independently replicated

Open questions

Synthesis pass · forward-looking unresolved questions
  • How ARHGAP44 selects among Rac1, Cdc42, and RhoA in different cellular and tissue contexts, and how curvature sensing, scaffold binding, and transcriptional control are integrated, remains unresolved.
  • No structural model of substrate selectivity
  • Mechanism coupling N-BAR recruitment to specific GTPase choice unknown
  • No unified model across neuronal, epithelial, and tumor contexts

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0098772 molecular function regulator activity 3 GO:0008092 cytoskeletal protein binding 2 GO:0060090 molecular adaptor activity 2 GO:0008289 lipid binding 1
Localization
GO:0005856 cytoskeleton 2 GO:0005886 plasma membrane 2
Pathway
R-HSA-162582 Signal Transduction 3 R-HSA-112316 Neuronal System 2
Partners
CD317CDC42CTNNB1EBP50EZRRAC1RHOASHANK3
Complex memberships
CD317-EBP50-ezrin apical complexRICH2-Shank3 postsynaptic complex

Evidence

Reading pass · 11 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2009 RICH2 (ARHGAP44) links CD317/tetherin to the apical actin cytoskeleton in polarized epithelial cells via a complex with EBP50 and ezrin. Knockdown of RICH2 causes loss of the apical actin network, loss of apical microvilli, increased basal actin bundles, and reduced cell height, phenocopying CD317 knockdown. siRNA knockdown, co-immunoprecipitation, confocal imaging of polarized epithelial cells The Journal of cell biology High 19273615
2013 Rich2 (ARHGAP44) is a Rac1-specific GAP that controls dendritic spine morphogenesis in hippocampal neurons. Overexpression increases spine size and decreases density; knockdown decreases both. The morphological changes are rescued by Rac1 inhibitor EHT 1864, placing Rich2 upstream of Rac1 in spine regulation. siRNA knockdown, overexpression, pharmacological Rac1 inhibition (EHT 1864) epistasis, miniature EPSC recording, immunofluorescence in cultured hippocampal neurons The Journal of biological chemistry High 24352656
2013 Rich2 (ARHGAP44) physically interacts with the postsynaptic scaffolding protein Shank3 in dendritic spines, and this interaction is increased during LTP. Rich2 functions as an endosomal recycling regulator controlling AMPA receptor GluA1 subunit exocytosis and spine enlargement during LTP. Disruption of the Rich2-Shank3 complex (via siRNA or interfering peptide) inhibits LTP-associated spine enlargement and GluA1 exocytosis. Proteomic screen, bioluminescence resonance energy transfer (BRET) microscopy, siRNA knockdown, interfering mimetic peptide, GluA1 exocytosis assay in cultured hippocampal neurons The Journal of neuroscience High 23739967
2014 ArhGAP44 (ARHGAP44) contains an N-BAR domain that senses inward plasma membrane curvature generated by acto-myosin contractile forces at actin patches, recruiting the protein to nascent filopodia seed sites. The GAP domain then triggers local Rac-GTP hydrolysis, reducing actin polymerization and suppressing filopodia initiation in neurons. ArhGAP44 expression increases during neuronal development concurrent with decreased filopodia formation rate. Live-cell imaging, dominant-negative and constitutively active constructs, BAR domain membrane curvature binding assay, Rac-GTP pull-down, neuronal KD/OE with filopodia quantification eLife High 25498153
2016 In RICH2 knockout mice, synaptic Rac1 is disinhibited in vivo, leading to increased multiple spine synapses in hippocampus and cerebellum, altered receptor composition, and impaired actin polymerization, consistent with RICH2 acting as a negative regulator of Rac1 at postsynaptic densities. RICH2 KO mouse model, immunohistochemistry, electron microscopy, biochemical Rac1-GTP pull-down, behavioral testing Molecular brain Medium 26969129
2017 Mutant p53 suppresses ARHGAP44 transcription, leading to elevated GTP-Cdc42 levels. Wild-type ARHGAP44 (but not GAP-dead R291A mutant) suppresses mutant-p53-mediated cell spreading and migration, establishing ARHGAP44 as a GAP for Cdc42 that restrains these behaviors. RNA-seq, RT-qPCR, Cdc42-GTP pull-down, overexpression of WT vs. R291A mutant ARHGAP44, cell spreading and migration assays Science China. Life sciences Medium 28527113
2017 In RICH2 KO mouse amygdala, RhoA (not Rac1) is disinhibited, associated with decreased actin polymerization capacity and reduced mature spines, indicating that RICH2 also negatively regulates RhoA signaling in this brain region. RICH2 KO mouse, RhoA-GTP pull-down, spine morphology analysis, c-fos immunostaining in amygdala Frontiers in molecular neuroscience Medium 28642683
2019 RICH2 co-immunoprecipitates with endogenous Cdc42, Rac1, and β-catenin in hepatocellular carcinoma cells. RICH2 overexpression inhibits filopodia formation in a Cdc42-dependent manner and suppresses tumor growth in vivo. Co-immunoprecipitation, filopodia assay, stable overexpression, in vivo xenograft Frontiers in bioscience (Landmark edition) Medium 31136984
2020 CD317 protects tumor cells from NK cell-mediated immunocytolysis through its association with RICH2, which modulates cytoskeletal flexibility to preserve membrane integrity against perforin. CD317 knockdown in tumor cells, NK and CAR-NK cytotoxicity assays, RICH2 interaction assessed, perforin sensitivity assay Molecular immunology Low 33223223
2023 Rich2/Arhgap44 is localized to postsynaptic densities via biochemical fractionation in mouse brain and is expressed in excitatory synapses of hippocampal CA1 at postnatal day 30, with nuclear accumulation also observed in cortical neurons at certain developmental stages. Immunohistochemistry, immunoblotting of tissue fractions, subcellular fractionation to postsynaptic density fraction Developmental neuroscience Medium 36630934
2023 RICH2 overexpression in glioma cells decreases mitochondrial number and calcium flow, reduces mitochondrial fusion via downregulation of MFN-1/MFN-2 and upregulation of Drp-1, reduces mitochondrial release from glioma cells into extracellular environment, and downregulates the MAPK/ERK/HIF-1 pathway. Fluorescence microscopy, qRT-PCR, Western blot, electrophysiology in nude mouse glioma model, single-cell calcium imaging Neurobiology of disease Low 37926169

Source papers

Stage 0 corpus · 23 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2009 A CD317/tetherin-RICH2 complex plays a critical role in the organization of the subapical actin cytoskeleton in polarized epithelial cells. The Journal of cell biology 112 19273615
2021 Modulation of transforming growth factor-β-induced kidney fibrosis by leucine-rich ⍺-2 glycoprotein-1. Kidney international 81 34774561
2013 Shank3-Rich2 interaction regulates AMPA receptor recycling and synaptic long-term potentiation. The Journal of neuroscience : the official journal of the Society for Neuroscience 53 23739967
1998 Structural and transglutaminase substrate properties of the small proline-rich 2 family of cornified cell envelope proteins. The Journal of biological chemistry 51 9722562
2014 Dynamic recruitment of the curvature-sensitive protein ArhGAP44 to nanoscale membrane deformations limits exploratory filopodia initiation in neurons. eLife 46 25498153
2013 Rho-GTPase-activating protein interacting with Cdc-42-interacting protein 4 homolog 2 (Rich2): a new Ras-related C3 botulinum toxin substrate 1 (Rac1) GTPase-activating protein that controls dendritic spine morphogenesis. The Journal of biological chemistry 27 24352656
2016 Enlarged dendritic spines and pronounced neophobia in mice lacking the PSD protein RICH2. Molecular brain 24 26969129
2004 Estrogen regulates the expression of the small proline-rich 2 gene family in the mouse uterus. Molecules and cells 21 15232223
2017 Mutant p53 promotes cell spreading and migration via ARHGAP44. Science China. Life sciences 16 28527113
2017 Object Phobia and Altered RhoA Signaling in Amygdala of Mice Lacking RICH2. Frontiers in molecular neuroscience 11 28642683
2021 Brewing rich 2-phenylethanol beer from cassava and its producing metabolisms in yeast. Journal of the science of food and agriculture 8 33349937
2019 RICH2, a potential tumor suppressor in hepatocellular carcinoma. Frontiers in bioscience (Landmark edition) 8 31136984
2020 CD317 mediates immunocytolysis resistance by RICH2/cytoskeleton-dependent membrane protection. Molecular immunology 7 33223223
2018 The evolution of phase constitution and microstructure in iron-rich 2:17-type Sm-Co magnets with high magnetic performance. Scientific reports 7 29904086
2022 Long non-coding RNA HOXA11 antisense RNA upregulates spermatogenesis-associated serine-rich 2-like to enhance cisplatin resistance in laryngeal squamous cell carcinoma by suppressing microRNA-518a. Bioengineered 6 34974809
1999 Acquisition of ordered conformation by the N-terminal domain of the human small proline rich 2 protein. Biochemical and biophysical research communications 5 10462486
2023 RICH2 decreases the mitochondrial number and affects mitochondrial localization in diffuse low-grade glioma-related epilepsy. Neurobiology of disease 4 37926169
2023 Expression Analyses of Rich2/Arhgap44, a Rho Family GTPase-Activating Protein, during Mouse Brain Development. Developmental neuroscience 3 36630934
2023 ARHGAP44-mediated regulation of the p53/C-myc/Cyclin D1 pathway in modulating the malignant biological behavior of osteosarcoma cells. Journal of orthopaedic surgery and research 2 38031136
2017 RICH2 is implicated in viraemic control of HIV-1 in black South African individuals. Infection, genetics and evolution : journal of molecular epidemiology and evolutionary genetics in infectious diseases 2 28069446
2017 Structural and inhibition analysis of novel sulfur-rich 2-mercaptobenzothiazole and 1,2,3-triazole ligands against Mycobacterium tuberculosis DprE1 enzyme. Journal of molecular modeling 2 28744747
2025 Evidence of a novel gene locus ARHGAP44 for longitudinal change in hemoglobin A1c levels among subjects without diabetes from the Long Life Family Study. Physiological genomics 1 40019798
2024 A Novel Gene ARHGAP44 for Longitudinal Changes in Glycated Hemoglobin (HbA1c) in Subjects without Type 2 Diabetes: Evidence from the Long Life Family Study (LLFS) and the Framingham Offspring Study (FOS). bioRxiv : the preprint server for biology 0 38826208

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