Affinage

CIBAR1

CBY1-interacting BAR domain-containing protein 1 · UniProt A1XBS5

Length
289 aa
Mass
33.4 kDa
Annotated
2026-06-09
13 papers in source corpus 9 papers cited in narrative 9 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

CIBAR1 (FAM92A1) is a homodimeric BAR domain protein that sculpts cellular membranes to support mitochondrial architecture and ciliogenesis (PMID:30404948, PMID:39043703). Its crystal structure reveals an antiparallel crescent-shaped homodimer whose concave surface carries positively charged residue clusters that bind phosphoinositide- and cardiolipin-containing membranes, drive lipid clustering, and induce high membrane curvature in vitro (PMID:39043703, PMID:40484380); dimerization is the functional prerequisite for this membrane-bending activity (PMID:34648955). At the mitochondrial inner membrane, CIBAR1 acts as a peripheral protein on the matrix side and is required for normal cristae ultrastructure and organelle bioenergetics (PMID:30404948, PMID:34648955). At the base of cilia, CIBAR1 binds the N-terminal region of CBY1 — an interaction in which the dimerization of both partners synergistically enhances mutual affinity — and this complex is required for ciliogenesis; a nonsense FAM92A variant that disrupts the complex abolishes CIBAR1 recruitment to CBY1 and impairs cilium formation (PMID:30395363, PMID:40484380). In vivo loss of CIBAR1 produces cell-type-dependent ciliary defects with randomized left-right asymmetry, exocrine pancreatic lesions, and impaired glucose tolerance (PMID:39622622). In sperm, CIBAR1 partners with CBY3 at the flagellar annulus to position it at the midpiece/principal-piece junction, with loss causing kinked flagella and male infertility (PMID:38197861). CIBAR1 can also support membrane recruitment of the Fuzzy-Inturned RabGEF complex [PMID:bio_10.1101_2025.03.27.645700].

Mechanistic history

Synthesis pass · year-by-year structured walk · 9 steps
  1. 2016 Low

    An early association placed a CIBAR1 splice variant in a proliferative/tumor context, raising the question of whether the protein had a nuclear or cell-cycle role.

    Evidence Co-immunoprecipitation with PCNA plus migration, proliferation, colony formation, and xenograft assays in cervical carcinoma cells

    PMID:27798880

    Open questions at the time
    • Single Co-IP without reciprocal validation
    • No mechanistic pathway linking CIBAR1 to PCNA function
    • Splice-variant-specific; not reconciled with later membrane-remodeling biology
  2. 2018 High

    Established CIBAR1 as a membrane-remodeling BAR protein at the mitochondrial inner membrane, defining its core biochemical activity and an organelle role.

    Evidence Subcellular fractionation, EM, in vitro membrane-tubulation assay, and loss-of-function cell lines

    PMID:30404948

    Open questions at the time
    • Molecular trigger for matrix-side recruitment not defined
    • Relationship between mitochondrial and ciliary pools unresolved
  3. 2018 High

    Identified the CIBAR1–CBY1 complex at the ciliary base as essential for ciliogenesis, extending the protein's role beyond mitochondria.

    Evidence Reciprocal Co-IP, immunofluorescence colocalization, Fam92a-KO mouse, and human variant segregation

    PMID:30395363

    Open questions at the time
    • Did not resolve the structural basis of the CBY1 interaction
    • Mechanism connecting CBY1 binding to curvature generation unknown
  4. 2021 Medium

    Confirmed that the dimer, not the monomer, is the functional unit for membrane bending, clarifying the quaternary requirement for activity.

    Evidence Recombinant expression, size-exclusion chromatography, and liposome membrane-bending assays using an NT* spidroin dimerization tag

    PMID:34648955

    Open questions at the time
    • In vitro only; physiological dimer regulation not addressed
    • Single lab
  5. 2024 High

    Solved the BAR domain structure and defined the concave-surface residues mediating phosphoinositide/cardiolipin binding, providing the physical basis for curvature induction and linking the protein to neuronal function.

    Evidence Crystal structure, atomistic MD simulations, biochemical membrane-binding assays, and FAM92A1-KO mouse cognitive/neuronal phenotyping

    PMID:39043703

    Open questions at the time
    • How specific lipid recognition is tuned across mitochondrial vs ciliary membranes not resolved
    • Neuronal phenotype mechanism not traced to a specific membrane substrate
  6. 2024 High

    Showed CIBAR1 partners with CBY3 at the sperm flagellar annulus, demonstrating a tissue-specific paralog complex controlling annulus positioning and fertility.

    Evidence Cby3-KO and ciBAR1-KO mouse models, colocalization, Co-IP, EM, and fertility assays

    PMID:38197861

    Open questions at the time
    • Determinants selecting CBY1 vs CBY3 partnership not defined
    • Molecular mechanism of annulus membrane positioning incomplete
  7. 2024 High

    Defined the in vivo consequences of CIBAR1 loss across tissues, establishing a cell-type-dependent ciliogenesis role with developmental and metabolic outcomes.

    Evidence ciBAR1-KO mouse histology, glucose tolerance testing, cilia quantification, and MEF ciliary assays

    PMID:39622622

    Open questions at the time
    • Basis of cell-type-dependent ciliary requirement unexplained
    • Link between ciliary defect and glucose intolerance mechanism not established
  8. 2025 High

    Resolved the structural basis of the CIBAR1–CBY1 interaction, showing the BAR domain binds the CBY1 N-terminus and that mutual dimerization synergistically strengthens affinity.

    Evidence 2.2 Å crystal structure, structure-guided mutagenesis, and in vitro lipid- and protein-binding/dimerization assays

    PMID:40484380

    Open questions at the time
    • Does not show how complex formation is coupled to membrane curvature at the ciliary base in vivo
    • Regulation of complex assembly timing unknown
  9. 2025 Medium

    Connected CIBAR1's membrane-binding activity to downstream ciliary signaling machinery by showing it can recruit a RabGEF complex to membranes.

    Evidence In vitro reconstitution and protein-lipid interaction studies (preprint)

    PMID:bio_10.1101_2025.03.27.645700

    Open questions at the time
    • Preprint, single lab
    • ciBAR1-specific recruitment mechanism not detailed
    • Not validated in cells/in vivo

Open questions

Synthesis pass · forward-looking unresolved questions
  • How CIBAR1 is partitioned and regulated between its mitochondrial, ciliary-base, and flagellar pools — and what selects its lipid and protein partners in each context — remains unresolved.
  • No mechanism for targeting to distinct membrane compartments
  • No upstream regulator of CIBAR1 recruitment identified
  • Functional integration of mitochondrial vs ciliary roles unknown

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0005198 structural molecule activity 3 GO:0008289 lipid binding 2 GO:0060090 molecular adaptor activity 2
Localization
GO:0005739 mitochondrion 2 GO:0005815 microtubule organizing center 2 GO:0005929 cilium 2
Pathway
R-HSA-1266738 Developmental Biology 2 R-HSA-1852241 Organelle biogenesis and maintenance 2
Partners
CBY1CBY3
Complex memberships
CIBAR1–CBY1 complexCIBAR1–CBY3 complex

Evidence

Reading pass · 9 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2018 FAM92A1 (CIBAR1) is a BAR domain protein that localizes to the matrix side of the mitochondrial inner membrane (MIM) and is required for mitochondrial ultrastructure and function; loss of FAM92A1 causes severe disruption of mitochondrial morphology and impairs organelle bioenergetics; purified FAM92A1 displays membrane-remodeling activity in vitro, inducing high membrane curvature. Subcellular fractionation, fluorescence microscopy, electron microscopy, in vitro membrane-tubulation assay, loss-of-function cell lines The Journal of cell biology High 30404948
2018 A nonsense variant in FAM92A (CIBAR1) disrupts the FAM92A/Chibby1 (CBY1) protein complex, abolishes FAM92A recruitment to and colocalization with CBY1 at the base of cilia, and impairs ciliogenesis; FAM92A localizes to cilia in the developing mouse limb, implicating the FAM92A–CBY1 complex as critical for ciliogenesis. Co-immunoprecipitation, immunofluorescence colocalization, Fam92a−/− mouse model, Sanger/exome sequencing for segregation Journal of bone and mineral research High 30395363
2024 FAM92A1 (CIBAR1) BAR domain crystal structure (resolved at the same time as a second study) reveals an antiparallel crescent-shaped homodimer; the concave surface bears positively charged clusters critical for phosphoinositide- and cardiolipin-containing membrane binding; FAM92A1 induces lipid clustering and membrane curvature as shown by atomistic molecular dynamics simulations and biochemical assays. Crystal structure determination, atomistic molecular dynamics simulations, biochemical membrane-binding assays, FAM92A1-KO mouse model with cognitive and neuronal morphology phenotyping Nature communications High 39043703
2025 Crystal structure (2.2 Å) of the mouse FAM92A BAR domain reveals an antiparallel crescent-shaped homodimer; structure-guided mutagenesis identifies positively charged residues on the concave surface as critical for lipid binding and separate residues essential for dimerization; FAM92A BAR domain directly binds the N-terminal region of CBY1, and the dimerizations of both proteins synergistically enhance their mutual affinity. X-ray crystallography (2.2 Å), structure-guided mutagenesis, in vitro binding assays (lipid-binding and protein–protein interaction), dimerization assays The Journal of biological chemistry High 40484380
2024 ciBAR1 (CIBAR1) forms a complex with Chibby3 (Cby3) at the sperm flagellar annulus; Cby3 and ciBAR1 colocalize to the annulus near the curved membrane invagination at the flagellar pocket; ablation of either gene in mice mispositions the annulus into the principal piece and causes male infertility with kinked flagella; the Cby3/ciBAR1 complex regulates local membrane properties to position the annulus at the midpiece/principal-piece junction. Cby3-KO and ciBAR1-KO mouse models, immunofluorescence colocalization, Co-immunoprecipitation, electron microscopy of flagellar ultrastructure, fertility assays The Journal of cell biology High 38197861
2024 ciBAR1-KO mice exhibit randomized left-right asymmetry (~28% embryonic lethality), exocrine pancreatic lesions, impaired glucose tolerance, and reduced cilia number and length in ductal and islet cells; ciBAR1-KO MEFs also display ciliary defects, establishing that ciBAR1 plays a critical cell-type-dependent role in ciliogenesis in vivo. ciBAR1-KO mouse model, histological assessment, glucose tolerance testing, immunofluorescence quantification of cilia number and length, MEF ciliary assays Life science alliance High 39622622
2025 The BAR domain protein ciBAR1 (CIBAR1) can support membrane recruitment of the Fuzzy-Inturned RabGEF complex, as demonstrated by reconstitution experiments. In vitro reconstitution, protein-lipid interaction studies bioRxivpreprint Medium bio_10.1101_2025.03.27.645700
2021 FAM92A1 (CIBAR1) exists as a dimer and binds the mitochondrial inner membrane as a peripheral membrane protein; the NT* spidroin tag stabilizes FAM92A1 as a dimer and the resulting fusion protein retains membrane-bending activity, confirming that the dimer is the functional unit for membrane remodeling. Recombinant protein expression and purification, size-exclusion chromatography (dimerization), in vitro liposome membrane-bending assay Protein expression and purification Medium 34648955
2016 FAM92A1-289 (a splice variant of CIBAR1) co-immunoprecipitates with PCNA, suggesting a physical interaction; overexpression promotes cell migration, proliferation, and tumor growth in cervical carcinoma cells. Co-immunoprecipitation (pulldown with anti-PCNA antibody), scratch assay, MTT assay, colony formation, xenograft Anticancer research Low 27798880

Source papers

Stage 0 corpus · 13 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2018 FAM92A Underlies Nonsyndromic Postaxial Polydactyly in Humans and an Abnormal Limb and Digit Skeletal Phenotype in Mice. Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research 35 30395363
2018 FAM92A1 is a BAR domain protein required for mitochondrial ultrastructure and function. The Journal of cell biology 29 30404948
2008 Prokaryotic expression, purification of a new tumor-relative protein FAM92A1-289 and its characterization in renal cell carcinoma. Cancer letters 15 19059705
2024 The Cby3/ciBAR1 complex positions the annulus along the sperm flagellum during spermiogenesis. The Journal of cell biology 9 38197861
2024 Membrane remodeling by FAM92A1 during brain development regulates neuronal morphology, synaptic function, and cognition. Nature communications 9 39043703
2007 Identification and characterization of two novel variants of the DUF1208 protein FAM92A1. Molecules and cells 6 17646714
2021 Optimizing purification of the peripheral membrane protein FAM92A1 fused to a modified spidroin tag. Protein expression and purification 5 34648955
2016 The Tumor-promoting Effects of FAM92A1-289 in Cervical Carcinoma Cells. Anticancer research 5 27798880
2024 A novel homozygous FAM92A gene (CIBAR1) variant further confirms its association with non-syndromic postaxial polydactyly type A9 (PAPA9). Clinical genetics 3 38853702
2020 BARMR1/FAM92A1, a novel gene encoding BAR domain protein with multi-functions. Gene 3 32891772
2024 ciBAR1 loss in mice causes laterality defects, pancreatic degeneration, and altered glucose tolerance. Life science alliance 1 39622622
2026 Identification of the HMGA2::CIBAR1-DT fusion transcript in two lipomas with chromosomal rearrangements involving chromosomes 8 and 12. Frontiers in oncology 0 41568362
2025 Dimerization of the BAR domain-containing protein FAM92A modulates lipid binding and interaction with CBY1. The Journal of biological chemistry 0 40484380

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