The distal lumen of the centriole plays a critical role in ciliogenesis, yet the molecular composition, spatial organization, and targeting hierarchy of distal luminal proteins remain poorly understood. In this study, we identify Sjögren's syndrome nuclear autoantigen 1 (SSNA1) as a bona fide centriolar protein and a key regulator of ciliogenesis in mammalian cells. Using our newly developed knockout (KO)-validated antibody, we show that, contrary to previous reports, SSNA1 does not reside in the nucleus, midbody, or ciliary axoneme. Instead, super-resolution imaging combined with expansion microscopy (ExM) reveals that SSNA1 localizes to the distal lumen of centrioles and the basal bodies of both primary and motile cilia, where it is arranged in a ring-like configuration with 9-fold symmetry and apart from centriolar microtubules. Molecular dissection using tag-free SSNA1, its oligomerization-deficient mutants, and microtubule co-pelleting assays further demonstrates that SSNA1, previously described as a microtubule nucleator, stabilizer, and branching factor, does not bind microtubules in vitro. Interactor screening and KO analysis unveil a hierarchical targeting network involving a C2CD3-SSNA1-LRRCC1 axis in the distal lumen. Functional characterization indicates that although dispensable for cell division, overall centriole organization and duplication, SSNA1 promotes cilia assembly by facilitating CP110 removal. Our findings redefine the physiological role of SSNA1 as part of the distal luminal module contributing to ciliogenesis and provide new insights into the molecular architecture and functional relevance of the distal centriolar lumen.