Primary ciliary dyskinesia (PCD) is a genetically heterogeneous disorder characterized by impaired motility of cilia and flagella.
    Mutations in cilia- and flagella-associated protein 300 (CFAP300) are associated with human PCD and male infertility;
    however, the underlying pathogenic mechanisms remain poorly understood. In a consanguineous Chinese family, we identified a
    homozygous CFAP300 loss-of-function variant (c.304delC) in a proband presenting with classical PCD symptoms and severe sperm
    abnormalities, including dynein arm deficiency and acrosomal malformation, as confirmed by transmission electron microscopy
    (TEM). Histological analysis revealed multiple morphological abnormalities of the sperm flagella in CFAP300-mutant individual,
    whereas immunofluorescence demonstrated markedly reduced CFAP300 expression in the spermatozoa of the proband. Furthermore,
    tandem mass tag (TMT)-based quantitative proteomics showed that the CFAP300 mutation reduced key spermatogenesis proteins
    (e.g., sperm flagellar 2 [SPEF2], solute carrier family 25 member 31 [SLC25A31], and A-kinase anchoring protein 3 [AKAP3])
    and mitochondrial ATP synthesis factors (e.g., SLC25A31, cation channel sperm-associated 3 [CATSPER3]). It also triggered
    abnormal increases in autophagy-related proteins and signaling mediator phosphorylation. These molecular alterations are likely
    to contribute to progressive deterioration of sperm ultrastructure and function. Notably, successful pregnancy was achieved via
    intracytoplasmic sperm injection (ICSI) using the proband’s sperm. Overall, this study expands the known CFAP300 mutational
    spectrum and offers novel mechanistic insights into its role in spermatogenesis.

Full Text |