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Showing CFAP221PCDP1 is a alias.

CFAP221

Cilia- and flagella-associated protein 221 · UniProt Q4G0U5

Length
840 aa
Mass
96.9 kDa
Annotated
2026-06-09
19 papers in source corpus 12 papers cited in narrative 12 extracted findings
Cross-family judge faithfulness: 5/5 claims corpus-supported (100%)

Mechanistic narrative

Synthesis pass · prose summary of the discoveries below

CFAP221 (PCDP1/FAP221) is a structural component of the C1d projection of the ciliary and flagellar central pair apparatus that governs ciliary waveform and motility across species (PMID:20421426, PMID:26224312). Within the C1d projection it assembles into a calmodulin-binding complex with FAP54/CFAP54, FAP46, FAP74, and C1d-87, and binds calmodulin in a Ca2+-dependent manner, linking the central apparatus to Ca2+-regulated flagellar behaviors (PMID:20421426, PMID:22573824). Functionally, CFAP221 and the C1d complex are required for proper C1d projection assembly and act upstream of dynein arm coordination: C1d-defective axonemes retain normal dynein-driven microtubule sliding velocity but fail to coordinate dynein activity among doublets, producing uncoordinated bends, altered waveforms, and reduced beat frequency (PMID:21998195, PMID:22573824). In mammals, CFAP221 localizes to motile cilia of respiratory and ependymal epithelia and to sperm flagella, where it is required for ciliary/flagellar biogenesis and motility; it is transported as a cargo along manchette microtubules during spermatid elongation (PMID:18039845, PMID:29690537). Loss-of-function variants in CFAP221 cause primary ciliary dyskinesia, with affected cilia showing normal ultrastructure but aberrant circular beating, defective C1d projection composition, and insufficient mucociliary clearance, as well as asthenoteratozoospermia with sperm flagellar defects (PMID:31636325, PMID:39362668, PMID:40272718, PMID:40250778).

Mechanistic history

Synthesis pass · year-by-year structured walk · 10 steps
  1. 2007 High

    Established that CFAP221/Pcdp1 is required in vivo for motile cilia and flagella function, answering whether the gene has a non-redundant role in ciliary biogenesis and motility.

    Evidence Transgenic rescue, IHC, EM, and beat-frequency measurement in nm1054 mutant mice

    PMID:18039845

    Open questions at the time
    • Subciliary localization within the axoneme not resolved
    • Molecular partners and biochemical activity unknown
    • Mechanism linking loss to motility defect undefined
  2. 2010 High

    Placed CFAP221 in the C1d central pair projection and defined it as a Ca2+-dependent calmodulin-binding component of a multi-polypeptide complex, providing a molecular framework for its role in motility regulation.

    Evidence Anti-CaM Co-IP from Chlamydomonas axonemes, RNAi knockdown, Ca2+-dependent CaM binding assay, EM

    PMID:20421426

    Open questions at the time
    • Full subunit composition incomplete
    • How CaM binding regulates motility mechanistically unresolved
    • Direct binding interface within complex not mapped
  3. 2011 High

    Resolved how the C1d complex affects motility, showing it coordinates dynein activity rather than enabling dynein force generation itself.

    Evidence Genetic epistasis with dynein arm double mutants, microtubule sliding velocity assays, EM, motility analysis in Chlamydomonas

    PMID:21998195

    Open questions at the time
    • Signal relay from C1d to dynein arms not identified
    • Role of Ca2+/CaM in dynein coordination not directly tested
    • CFAP221-specific contribution vs. whole complex not isolated
  4. 2012 Medium

    Expanded the C1d projection inventory (FAP54, FAP46, FAP74, C1d-87) and tied the complex to interdoublet sliding velocity and Ca2+-mediated flagellar behaviors.

    Evidence fap46-1 null mutant characterization, EM, motility and calmodulin-binding assays in Chlamydomonas

    PMID:22573824

    Open questions at the time
    • CFAP221 itself not directly manipulated in this study
    • Hierarchy of subunit assembly not established
    • Multiple CaM-binding sites not assigned to specific subunits
  5. 2013 Medium

    Connected CFAP221 to a regulatory assembly pathway by showing physical association with the kinase Fused (Stk36) and central pair component Spag16.

    Evidence Co-IP and immunofluorescence in mammalian oviduct cilia

    PMID:23907739

    Open questions at the time
    • Single Co-IP without reciprocal validation of direct binding
    • Whether CFAP221 is a Fu substrate untested
    • Functional consequence of the association not demonstrated
  6. 2015 High

    Confirmed conservation of the C1d complex to mammals, showing complex members are required for C1d assembly and normal ciliary beat and flow.

    Evidence Gene-trapped Cfap54 mouse model, EM, beat frequency, cilia-driven flow assays, immunolocalization

    PMID:26224312

    Open questions at the time
    • Direct CFAP221 assembly dependency on CFAP54 not isolated in mammals
    • Structural model of mammalian C1d absent
    • Ca2+ regulation in mammalian cilia not tested
  7. 2018 Medium

    Identified how CFAP221 reaches the developing flagellum, defining it as a cargo of Spag17-dependent manchette-based transport during spermatid elongation.

    Evidence Immunofluorescence of Pcdp1 in Spag17 knockout vs. wild-type spermatids, EM of manchette

    PMID:29690537

    Open questions at the time
    • CFAP221 not directly manipulated
    • Direct interaction with transport machinery not shown
    • Whether transport defect alone explains flagellar phenotype unclear
  8. 2019 Medium

    Demonstrated CFAP221 is a human PCD gene whose loss alters ciliary waveform rather than gross structure, refining its role to motion patterning.

    Evidence Whole-exome sequencing and high-speed videomicroscopy of patient nasal epithelial cells

    PMID:31636325

    Open questions at the time
    • Molecular basis of the circular beating pattern not defined
    • C1d composition in patient cilia not assessed in this study
    • Genotype-phenotype range from limited patients
  9. 2024 Medium

    Linked CFAP221 variants to defective C1d projection and impaired mucociliary clearance despite normal ultrastructure and beating, and revealed transcriptional remodeling of airway epithelium upon loss.

    Evidence Patient sequencing with ciliary transport assays, TEM, videomicroscopy; single-cell RNA-seq of mutant mouse tracheal epithelium

    PMID:39362668 PMID:39558053

    Open questions at the time
    • Mechanism linking subtle C1d defect to clearance failure unresolved
    • Transcriptomic changes are correlative, no protein-level follow-up
    • Causality of deuterosomal cell shifts not established
  10. 2025 Medium

    Established CFAP221's direct role in sperm flagellar assembly and confirmed cilia-motility function in an independent model organism.

    Evidence Patient sequencing with sperm SEM/TEM and immunofluorescence; RNAi knockdown in Schmidtea mediterranea with locomotion assay

    PMID:40250778 PMID:40272718

    Open questions at the time
    • Molecular cause of flagellar ultrastructural abnormality not defined
    • Discordance between ciliary and sperm motility phenotypes unexplained
    • Structural composition changes in patient cilia not fully resolved

Open questions

Synthesis pass · forward-looking unresolved questions
  • How CFAP221/C1d transduces Ca2+/calmodulin signals into coordinated dynein activity and waveform control at the molecular and structural level remains unresolved.
  • No high-resolution structure of the CFAP221-containing C1d complex
  • Mechanism converting CaM binding into dynein coordination unknown
  • Direct binding partners and stoichiometry within C1d not fully mapped

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0005198 structural molecule activity 3
Localization
GO:0005929 cilium 4 GO:0005856 cytoskeleton 3
Pathway
R-HSA-1474165 Reproduction 2 R-HSA-1852241 Organelle biogenesis and maintenance 2
Partners
C1D-87CALM (CALMODULIN)CFAP54FAP46FAP74SPAG16SPAG17STK36
Complex memberships
C1d central pair projection

Evidence

Reading pass · 12 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2007 Pcdp1 (CFAP221) localizes to sperm flagella and motile cilia (respiratory epithelial and brain ependymal cells) in mice and humans, and is required for ciliary/flagellar biogenesis and motility; loss-of-function (nm1054 mutation) causes PCD phenotypes including hydrocephalus, male infertility (sperm lacking mature flagella), and reduced respiratory ciliary beat frequency, rescued by transgenic re-expression of Pcdp1. Transgenic rescue, immunohistochemistry, electron microscopy, ciliary beat frequency measurement in homozygous mutant mice Molecular and cellular biology High 18039845
2010 FAP221/Pcdp1 (CFAP221) is a component of the C1d central pair projection in Chlamydomonas and mammalian axonemes; it specifically binds calmodulin (CaM) in a Ca2+-dependent (high [Ca2+]) manner and participates in a four-polypeptide complex precipitated with anti-CaM antibodies. Reduced expression of Pcdp1 complex members causes failure of the C1d projection to assemble and severely impairs motility (uncoordinated bends, reduced beat frequency, altered waveforms). Co-immunoprecipitation with anti-CaM antibodies from Chlamydomonas axonemal extracts, RNAi knockdown in Chlamydomonas, Ca2+-dependent CaM binding assay, electron microscopy of axoneme structure The Journal of cell biology High 20421426
2011 The Pcdp1/C1d complex coordinates the activity of specific dynein isoforms (outer and inner dynein arms) to produce wild-type ciliary motility; C1d-defective mutants show wild-type dynein-driven microtubule sliding velocities but severely disrupted coordination of dynein activity among microtubule doublets. Mutations in either outer or inner dynein arm suppress motility defects in C1d-deficient mutants, placing C1d upstream of dynein coordination. Genetic epistasis (double mutants lacking C1d and specific dynein arm subsets), microtubule sliding velocity assays, electron microscopy, motility analysis in Chlamydomonas Molecular biology of the cell High 21998195
2012 FAP221/Pcdp1 (CFAP221) is part of the C1d projection along with FAP54, FAP46, FAP74, and a novel subunit C1d-87; multiple sites of calmodulin interaction exist within the C1d projection. The C1d projection is involved in control of interdoublet sliding velocity and Ca2+-mediated flagellar behaviors (phototaxis, photoshock response). Chlamydomonas fap46-1 null mutant characterization, electron microscopy, motility assays, calmodulin binding, identification of novel C1d subunit Journal of cell science Medium 22573824
2013 Pcdp1 (CFAP221) physically associates with kinase Fused (Stk36) and known central pair component Spag16 in the mammalian oviduct, placing it in a pathway for central pair apparatus assembly regulated by Fu. Co-immunoprecipitation (physical association of Fu with Spag16 and Pcdp1), immunofluorescence localization in oviductal cilia Developmental dynamics Medium 23907739
2015 CFAP221/Pcdp1 localizes to the C1d projection of the central microtubule apparatus in mammalian cilia, and its complex members (including CFAP54) are required for C1d projection assembly; loss of CFAP54 disrupts C1d structure, decreases ciliary beat frequency, and perturbs cilia-driven flow, consistent with conservation of the C1d complex function from Chlamydomonas to mammals. Gene-trapped mouse model, electron microscopy of ciliary ultrastructure, ciliary beat frequency analysis, cilia-driven flow assays, immunolocalization Molecular biology of the cell High 26224312
2018 Pcdp1 (CFAP221) is transported along manchette microtubules during spermatid elongation; this transport is disrupted in Spag17 knockout elongating spermatids, placing CFAP221 as a cargo of Spag17-dependent manchette-based protein transport. Immunofluorescence analysis of Pcdp1 localization in Spag17 knockout spermatids vs. wild-type, coupled with electron microscopy of manchette structure International journal of molecular sciences Medium 29690537
2019 Loss-of-function variants in CFAP221 (compound heterozygous) cause PCD in humans; affected cilia have normal ultrastructure and near-normal beat frequency but beat in an aberrant circular pattern, indicating CFAP221 is required for proper ciliary waveform rather than gross structural assembly. Whole-exome sequencing, nasal epithelial cell analysis (beat frequency measurement, waveform analysis by high-speed videomicroscopy) in PCD patients Journal of human genetics Medium 31636325
2024 Pathogenic variants in CFAP221 cause PCD characterized by defective C1d projection of the ciliary central apparatus, normal ciliary ultrastructure by TEM, normal nasal nitric oxide, normal ciliary beating by high-speed videomicroscopy, yet insufficient ciliary clearance as demonstrated by in vitro ciliary transport assays; situs is normal. High-throughput sequencing, high-speed videomicroscopy, transmission electron microscopy, in vitro ciliary transport assays in PCD patients The European respiratory journal Medium 39362668
2024 Loss of Cfap221/Pcdp1 in mice alters gene expression in tracheal epithelial cells as revealed by single-cell RNA sequencing, including changes in deuterosomal cell differentiation states; this defines a broader role for CFAP221 in shaping the airway ciliary microenvironment response to cilia dysfunction. Single-cell RNA sequencing of tracheal epithelial cells from Cfap221/Pcdp1 mutant mice, differential gene expression analysis Scientific reports Low 39558053
2025 CFAP221 protein is primarily localized in the flagella of elongating and elongated sperm in humans and mice during spermatogenesis; biallelic loss-of-function variants in CFAP221 cause asthenoteratozoospermia with abnormal sperm flagellar morphology and ultrastructure, confirming a direct role in sperm flagellar assembly. Immunofluorescence staining, single-cell RNA sequencing, SEM and TEM of patient sperm, whole-exome sequencing Journal of assisted reproduction and genetics Medium 40272718
2025 A homozygous protein-truncating variant in CFAP221 causes subtle abnormalities in ciliary central apparatus protein composition, asynchronous circular ciliary motion, and reduced ciliary beat frequency, but normal sperm motility; RNAi knockdown of CFAP221 homolog in Schmidtea mediterranea impairs motile cilia function and reduces locomotion speed, independently confirming CFAP221's role in cilia motility. Whole-exome sequencing, immunofluorescence, high-speed videomicroscopy, mucociliary transport assay, RNAi knockdown in Schmidtea mediterranea with locomotion assay Biochimica et biophysica acta. Molecular basis of disease Medium 40250778

Source papers

Stage 0 corpus · 19 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2007 Primary ciliary dyskinesia in mice lacking the novel ciliary protein Pcdp1. Molecular and cellular biology 100 18039845
2010 Pcdp1 is a central apparatus protein that binds Ca(2+)-calmodulin and regulates ciliary motility. The Journal of cell biology 86 20421426
2015 CFAP54 is required for proper ciliary motility and assembly of the central pair apparatus in mice. Molecular biology of the cell 55 26224312
2018 SPAG17 Is Required for Male Germ Cell Differentiation and Fertility. International journal of molecular sciences 48 29690537
2012 A FAP46 mutant provides new insights into the function and assembly of the C1d complex of the ciliary central apparatus. Journal of cell science 38 22573824
2021 CX3CR1 Engagement by Respiratory Syncytial Virus Leads to Induction of Nucleolin and Dysregulation of Cilia-related Genes. Journal of virology 32 33731455
2019 Identification of genetic variants in CFAP221 as a cause of primary ciliary dyskinesia. Journal of human genetics 29 31636325
2013 Fused (Stk36) is a ciliary protein required for central pair assembly and motile cilia orientation in the mammalian oviduct. Developmental dynamics : an official publication of the American Association of Anatomists 29 23907739
2011 The Pcdp1 complex coordinates the activity of dynein isoforms to produce wild-type ciliary motility. Molecular biology of the cell 21 21998195
2020 Transcriptional Expression in Human Periodontal Ligament Cells Subjected to Orthodontic Force: An RNA-Sequencing Study. Journal of clinical medicine 17 32012982
2024 Pathogenic variants in CFAP46, CFAP54, CFAP74 and CFAP221 cause primary ciliary dyskinesia with a defective C1d projection of the central apparatus. The European respiratory journal 15 39362668
2006 Enhanced immunogenicity to food-and-mouth disease virus in mice vaccination with alphaviral replicon-based DNA vaccine expressing the capsid precursor polypeptide (P1). Virus genes 14 16991005
2018 Intestinal Barrier Impairment and Immune Activation in HIV-Infected Advanced Late Presenters are Not Dependent on CD4 Recovery. Archivum immunologiae et therapiae experimentalis 8 29468256
2025 A novel pathogenic variant of CFAP221 is a cause of a mild form of primary ciliary dyskinesia. Biochimica et biophysica acta. Molecular basis of disease 1 40250778
2025 Identification of a Novel Biallelic CFAP119 Variant in an Infertile Man with Asthenoteratozoospermia. The world journal of men's health 1 40759592
2021 Identification and functional characterization of the transcription factor coding Dp1 gene in large yellow croaker Pseudosciaena crocea. Heliyon 1 33718639
2025 Establishing the causative link between CFAP221 variants and asthenoteratozoospermia in humans. Journal of assisted reproduction and genetics 0 40272718
2025 Large Yellow Croaker (Pseudosciaena crocea, Richardson) E2F4, a Cyclin-Dependent Transcription Factor, Forms a Heterodimer with DP1. International journal of molecular sciences 0 40508152
2024 Airway ciliary microenvironment responses in mice with primary ciliary dyskinesia and central pair apparatus defects. Scientific reports 0 39558053

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