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Showing RIMS2RIM2 is a alias.

RIMS2

Regulating synaptic membrane exocytosis protein 2 · UniProt Q9UQ26

Length
1411 aa
Mass
160.4 kDa
Annotated
2026-06-10
22 papers in source corpus 13 papers cited in narrative 13 extracted findings
Cross-family judge vs UniProt: Affinage preferred faithfulness: 7/7 claims corpus-supported (100%)

Mechanistic narrative

Synthesis pass · prose summary of the discoveries below

RIMS2 (Rim2) is a multidomain active-zone scaffolding protein that couples small-GTPase signaling to regulated exocytosis at both neuronal and endocrine release sites (PMID:12578829, PMID:25343783). Through an N-terminal Rab-binding domain it acts as a Rab3A effector, recognizing Rab3A/B/C/D and Rab8A via an acidic cluster (Glu-50/51/52) in its α1 region, and alternative splicing of this domain tunes Rab3A affinity—the short-form binds Rab3A with high affinity and is recruited to dense-core vesicles to support stimulated secretion, while the low-affinity long form does not (PMID:12578829, PMID:16473611). In pancreatic beta-cells RIMS2 functions in a ternary complex with Epac2/cAMP-GEFII and the Ca2+-sensing scaffold Piccolo to mediate cAMP-dependent, PKA-independent insulin secretion, and the same Epac2–Rim2–Rab3A module is required for GLP-1 potentiation of glucokinase activity and glucose sensing (PMID:11598134, PMID:12401793, PMID:22147008). At central synapses RIMS2 acts redundantly with RIM1 to maintain presynaptic Ca2+ channel density and the readily releasable pool, with double knockout but not single knockout producing strong deficits (PMID:25343783). At photoreceptor ribbon synapses RIMS2 localizes interior to the RIBEYE-containing ribbon, and ribbon integrity is required to stabilize and enrich Cav1.4/RIM2 clusters at the active zone (PMID:22832038, PMID:32249787). Its C2A domain adopts a β-sandwich fold that does not bind Ca2+ and shows little binding to SNAP-25 or synaptotagmin-1, indicating it acts through Ca2+-independent protein interactions (PMID:16216076). Biallelic loss-of-function RIMS2 variants cause a syndromic congenital cone-rod synaptic disorder, consistent with its localization to the retinal outer plexiform layer, Purkinje cells, and pancreatic islets (PMID:32470375).

Mechanistic history

Synthesis pass · year-by-year structured walk · 9 steps
  1. 2001 Medium

    Established that Rim2 operates downstream of cAMP-GEFII (Epac2) in a PKA-independent branch of incretin-potentiated insulin secretion, placing the protein in a defined cAMP signaling pathway rather than as a generic scaffold.

    Evidence Antisense knockdown plus PKA inhibition with insulin secretion assays in pancreatic islets

    PMID:11598134

    Open questions at the time
    • Does not define the direct molecular interactions linking Epac2 to Rim2
    • Does not resolve which exocytic step Rim2 controls
  2. 2002 Medium

    Identified Piccolo as a Ca2+-sensing partner that dimerizes with Rim2 within the Epac2·Rim2·Piccolo complex, supplying the Ca2+-dependence of cAMP-induced insulin secretion.

    Evidence Co-IP and pulldown dimerization assays plus antisense Piccolo knockdown in islets

    PMID:12401793

    Open questions at the time
    • Stoichiometry and architecture of the ternary complex not resolved
    • Single-lab functional knockdown
  3. 2003 High

    Defined the molecular basis of Rim2 as a Rab3A/Rab8A effector by mapping an acidic-cluster determinant in the Rab-binding domain, distinguishing its Rab selectivity from Rab27.

    Evidence Cotransfection binding screen across 42 Rab proteins with site-directed mutagenesis and chimeras

    PMID:12578829

    Open questions at the time
    • Functional consequence of Rab8A binding not characterized
    • Binding measured in cotransfection rather than reconstituted system
  4. 2005 High

    Showed that the C2A domain, despite a canonical β-sandwich fold, lacks Ca2+-binding and weak binding to SNAP-25/synaptotagmin-1, redefining it as a Ca2+-independent protein-interaction module.

    Evidence 1.4 Å X-ray crystallography, NMR, and biochemical binding assays

    PMID:16216076

    Open questions at the time
    • The Ca2+-independent binding partner engaging the bottom face is unidentified
    • No in-cell validation of the proposed interaction surface
  5. 2005 Medium

    Demonstrated that alternative splicing of the Rab-binding domain is a regulatory switch controlling Rab3A affinity, vesicle recruitment, and secretory competence.

    Evidence In vitro Rab3A binding, PC12 localization, NPY secretion, and E36A/R37S mutagenesis

    PMID:16473611

    Open questions at the time
    • Physiological regulation of splice-form choice not addressed
    • Single cell model
  6. 2011 Medium

    Extended the Epac2–Rim2–Rab3A module to metabolic sensing by showing it is required for GLP-1 enhancement of glucokinase activity and downstream glucose handling.

    Evidence siRNA silencing of Epac2/Rim2/Rab3A with glucokinase, glucose uptake, and ATP assays in INS-1 and native beta-cells

    PMID:22147008

    Open questions at the time
    • Mechanistic link between Rim2 and glucokinase regulation unresolved
    • Single lab
  7. 2014 High

    Resolved the functional relationship between RIM1 and RIM2 at a central synapse, showing they redundantly set presynaptic Ca2+ channel density and readily releasable pool size.

    Evidence Conditional single and double knockouts with direct presynaptic patch-clamp at the calyx of Held

    PMID:25343783

    Open questions at the time
    • Does not isolate RIM2-specific molecular targets
    • Channel-clustering mechanism not directly visualized
  8. 2020 Medium

    Linked RIM2 to ribbon-synapse organization by showing the synaptic ribbon is required to stabilize and enrich Cav1.4/RIM2 clusters at photoreceptor active zones.

    Evidence STED imaging, RIBEYE morpholino/knockout in zebrafish and mouse with cluster quantification

    PMID:22832038 PMID:32249787

    Open questions at the time
    • Whether RIM2 directly tethers Cav1.4 versus depends on ribbon scaffold is unresolved
    • Mechanism of darkness-induced enrichment unknown
  9. 2020 Medium

    Established RIMS2 as a human disease gene, with biallelic loss-of-function causing a syndromic cone-rod synaptic disorder and impaired insulin secretion, tying its retinal and endocrine roles to pathology.

    Evidence Whole-exome sequencing, immunolocalization, and truncating-variant expression with insulin secretion assays

    PMID:32470375

    Open questions at the time
    • Genotype-phenotype correlations across tissues not fully defined
    • Cerebellar Purkinje-cell function of RIMS2 not assayed

Open questions

Synthesis pass · forward-looking unresolved questions
  • The identity of the Ca2+-independent C2A binding partner, the regulation of RIM2 splicing in vivo, and how Rab3 phosphorylation gates RIM2 recruitment at disease-vulnerable synapses remain open.
  • C2A-domain interacting protein unidentified
  • In vivo control of RBM5-dependent RIMS2 splicing not mechanistically established
  • LRRK2/Rab3-phosphorylation effect on RIM2 reported only in preprint

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0060090 molecular adaptor activity 4 GO:0098772 molecular function regulator activity 3
Localization
GO:0005886 plasma membrane 3 GO:0031410 cytoplasmic vesicle 1
Pathway
GO:0005829 cytosol 1
Partners
CACNA1FPCLORAB3ARAB8ARAPGEF4RIMS1
Complex memberships
Epac2·Rim2·Piccolo complexphotoreceptor synaptic ribbon active zonepresynaptic active zone

Evidence

Reading pass · 13 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2001 The cAMP-GEFII (Epac2)–Rim2 complex mediates cAMP-dependent, PKA-independent exocytosis in pancreatic beta-cells; antisense knockdown of cAMP-GEFII combined with PKA inhibition inhibited incretin-potentiated insulin secretion ~80–90%, establishing that Rim2 acts downstream of cAMP-GEFII in a PKA-independent pathway for incretin-potentiated insulin secretion. Antisense oligodeoxynucleotide knockdown in pancreatic islets; pharmacological PKA inhibition (H-89); insulin secretion assay The Journal of biological chemistry Medium 11598134
2002 Piccolo forms Ca2+-dependent homodimers and heterodimers with Rim2, and acts as a Ca2+ sensor in the cAMP-GEFII·Rim2·Piccolo complex required for cAMP-induced insulin secretion in pancreatic beta-cells; antisense knockdown of Piccolo inhibited cAMP analog-induced insulin secretion. Co-immunoprecipitation, pulldown assays for dimerization; antisense oligodeoxynucleotide knockdown of Piccolo in pancreatic islets; insulin secretion assay The Journal of biological chemistry Medium 12401793
2003 Rim2 interacts specifically with Rab3A/B/C/D and Rab8A (but not Rab27A/B), and an acidic cluster (Glu-50, Glu-51, Glu-52) in the α1 region of the Rab-binding domain of Rim2 is a critical determinant of Rab3A recognition, as shown by site-directed mutagenesis and chimeric analyses. Cotransfection binding assay with 42 Rab proteins; site-directed mutagenesis; chimeric protein analyses The Journal of biological chemistry High 12578829
2005 Crystal structure of the RIM2 C2A-domain at 1.4 Å resolution reveals a β-sandwich with a unique dipolar electrostatic charge distribution; the domain does not bind Ca2+, and NMR experiments showed little binding to SNAP-25 or synaptotagmin 1 C2-domains, suggesting unidentified Ca2+-independent interactions via the bottom face. X-ray crystallography (1.4 Å); NMR spectroscopy; biochemical binding assays Biochemistry High 16216076
2005 Alternative splicing in the Rab-binding domain (RBD1) of Rim2 controls Rab3A-binding affinity: short-form RBD binds Rab3A with high affinity and is recruited to dense-core vesicles (DCVs) in PC12 cells, while long-form RBD has >50-fold reduced Rab3A affinity and localizes to cytoplasm/nucleus. Expression of the short form, but not a Rab3A-binding-defective mutant (E36A/R37S), promotes high-KCl-dependent neuropeptide Y secretion. In vitro Rab3A binding assay; fluorescence localization in PC12 cells; neuropeptide Y secretion assay; site-directed mutagenesis (E36A/R37S) Methods in enzymology Medium 16473611
2009 TBEV-NS5 binds to the RIMS2 PDZ domain via an internal PDZ-binding mechanism, and this interaction stabilizes targeting of TBEV-NS5 to the plasma membrane. Protein–protein interaction assay; co-localization imaging; PDZ binding characterization Biological chemistry Low 19199833
2011 GLP-1 enhances glucokinase (GK) activity in beta-cells via a cAMP-dependent, PKA-independent pathway requiring Epac2, Rim2, and Rab3A; siRNA silencing of any of these three proteins blocked GLP-1-induced enhancement of GK activity and downstream glucose sensing. siRNA silencing of Epac2, Rim2, Rab3A; glucokinase activity assay; glucose uptake, mitochondrial membrane potential, and ATP measurements in INS-1 cells and native beta-cells Endocrinology Medium 22147008
2012 In zebrafish photoreceptors, RIM2 localizes inside the horseshoe-shaped synaptic ribbon structure (interior relative to RIBEYE); RIBEYE knockdown reduces ribbon number/length and causes corresponding reduction in RIM2 expression and loss of clustered CaV1.4 localization. STED super-resolution microscopy; morpholino antisense RIBEYE knockdown; electroretinogram Microscopy and microanalysis Medium 22832038
2014 At the calyx of Held synapse, RIM1 and RIM2 are redundantly required for normal presynaptic Ca2+ channel density and readily releasable pool (RRP) size; conditional RIM2 single KO caused a subtle reduction in presynaptic Ca2+ current density, while RIM1 single KO was ineffective, but only the RIM1/2 double KO strongly reduced both Ca2+ channel density and RRP. Conditional genetic knockout (RIM1, RIM2, RIM1/2 double); direct presynaptic patch-clamp electrophysiology at calyx of Held; quantitative PCR Journal of neurophysiology High 25343783
2020 Synaptic ribbons are required to stabilize Cav1.4/RIM2 clusters at rod photoreceptor active zones and are needed for darkness-induced enrichment of Cav1.4/RIM2 at active zones; RIBEYE KO mice showed loss of both ribbon integrity and Cav1.4/RIM2 cluster size. RIBEYE knockout mouse analysis; quantitative immunofluorescence imaging of Cav1.4/RIM2 clusters; ribbon length correlation analysis Scientific reports Medium 32249787
2020 Biallelic loss-of-function RIMS2 variants cause a syndromic congenital cone-rod synaptic disorder; RIMS2 protein is localized to the human retinal outer plexiform layer, Purkinje cells, and pancreatic islets; nonsense RIMS2 variants produce truncated protein and decrease insulin secretion in mammalian cells. Whole-exome sequencing; immunostaining for subcellular localization; expression of truncated variants in mammalian cells; insulin secretion assay American journal of human genetics Medium 32470375
2024 RBM5 knockout in the mouse brain alters RIMS2 protein homeostasis: male KOs show decreased canonical RIMS2 levels in cerebellum and hippocampus, and an increased novel ~170 kDa RIMS2 variant in hippocampus, suggesting RBM5 regulates RIMS2 splicing/expression in the brain. Conditional gene knockout (RBM5 KO); immunoprecipitation; western blot Experimental neurology Low 38218585
2025 Pathogenic LRRK2 increases phosphorylation of RAB3 proteins, reducing their interactions with RIM2 (and RIM1) effector proteins, thereby disrupting release sites in vulnerable dopamine axons and impairing dopamine release in vivo. Proximity labeling proteomics; immunofluorescence; in vivo dopamine release measurement; biochemical phosphorylation assays bioRxivpreprint Low bio_10.1101_2025.08.28.672006

Source papers

Stage 0 corpus · 22 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2001 Critical role of cAMP-GEFII--Rim2 complex in incretin-potentiated insulin secretion. The Journal of biological chemistry 290 11598134
2002 Piccolo, a Ca2+ sensor in pancreatic beta-cells. Involvement of cAMP-GEFII.Rim2. Piccolo complex in cAMP-dependent exocytosis. The Journal of biological chemistry 167 12401793
2003 Distinct Rab binding specificity of Rim1, Rim2, rabphilin, and Noc2. Identification of a critical determinant of Rab3A/Rab27A recognition by Rim2. The Journal of biological chemistry 159 12578829
2011 Glucagon-like peptide-1 enhances glucokinase activity in pancreatic β-cells through the association of Epac2 with Rim2 and Rab3A. Endocrinology 43 22147008
2011 Rim2, a pyrimidine nucleotide exchanger, is needed for iron utilization in mitochondria. The Biochemical journal 38 21777202
2014 RIM1 and RIM2 redundantly determine Ca2+ channel density and readily releasable pool size at a large hindbrain synapse. Journal of neurophysiology 35 25343783
2020 Synaptic ribbons foster active zone stability and illumination-dependent active zone enrichment of RIM2 and Cav1.4 in photoreceptor synapses. Scientific reports 34 32249787
2009 Flavivirus NS5 associates with host-cell proteins zonula occludens-1 (ZO-1) and regulating synaptic membrane exocytosis-2 (RIMS2) via an internal PDZ binding mechanism. Biological chemistry 34 19199833
2013 The mitochondrial carrier Rim2 co-imports pyrimidine nucleotides and iron. The Biochemical journal 32 23800229
2000 The rice Rim2 transcript accumulates in response to Magnaporthe grisea and its predicted protein product shares similarity with TNP2-like proteins encoded by CACTA transposons. Molecular & general genetics : MGG 28 11016827
2012 High-resolution optical imaging of zebrafish larval ribbon synapse protein RIBEYE, RIM2, and CaV 1.4 by stimulation emission depletion microscopy. Microscopy and microanalysis : the official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada 27 22832038
2003 Genomic characterization of Rim2/Hipa elements reveals a CACTA-like transposon superfamily with unique features in the rice genome. Molecular genetics and genomics : MGG 26 14513364
2020 Loss of Function of RIMS2 Causes a Syndromic Congenital Cone-Rod Synaptic Disease with Neurodevelopmental and Pancreatic Involvement. American journal of human genetics 22 32470375
1993 RIM2, MSI1 and PGI1 are located within an 8 kb segment of Saccharomyces cerevisiae chromosome II, which also contains the putative ribosomal gene L21 and a new putative essential gene with a leucine zipper motif. Yeast (Chichester, England) 21 8346681
2005 Crystal structure of the RIM2 C2A-domain at 1.4 A resolution. Biochemistry 18 16216076
2019 Splitting the functions of Rim2, a mitochondrial iron/pyrimidine carrier. Mitochondrion 9 30660752
2021 Circular Rims2 Deficiency Causes Retinal Degeneration. Advanced biology 7 34738746
2005 Assay and functional interactions of Rim2 with Rab3. Methods in enzymology 5 16473611
1998 rim2 (recombination-induced mutation 2) is a new allele of pearl and a mouse model of human Hermansky-Pudlak syndrome (HPS): genetic and physical mapping. Mammalian genome : official journal of the International Mammalian Genome Society 5 9434937
2024 Autozygome-guided exome-first study in a consanguineous cohort with early-onset retinal disease uncovers an isolated RIMS2 phenotype and a retina-enriched RIMS2 isoform. Clinical genetics 4 38468396
2024 Gene knockout of RNA binding motif 5 in the brain alters RIMS2 protein homeostasis in the cerebellum and Hippocampus and exacerbates behavioral deficits after a TBI in mice. Experimental neurology 2 38218585
2025 Genetic Heterogeneity of Autism Spectrum Disorder: Identification of Five Novel Mutations (RIMS2, FOXG1, AUTS2, ZCCHC17, and SPTBN5) in Iranian Families via Whole-Exome and Whole-Genome Sequencing. Biochemical genetics 1 40819013

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