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Advisor(s)
Abstract(s)
Aims/Context: Primary cilia are specialized microtubule-based signaling organelles that convey extracellular signaling and cellular polarity into a cellular response. Defects in primary cilia assembly/function cause severe diseases known as ciliopathies, typified by clinical manifestations, like infertility, obesity, brain problems, blindness, and kidney cysts. Primary cilia assembly entails centrosome migration to the plasma membrane where a centriole docks, maturates into a basal body (BB), and assembles the cilia axoneme. The human centrosomal TBCCD1 is a critical factor in centrosome positioning previously identified by us. Our aim is to discover the mechanisms/signals required for the correct positioning of the centrosome during cilia assembly, and how these mechanisms, when compromised, are related to ciliopathies. Methods: The proximity-dependent identification (BioID) assay was used to screen for TBCCD1 interactors. Immunofluorescent and super-resolution microscopy, as well as Western blot, were used to study the levels and cellular localization of the identified TBCCD1 interactors in human RPE1 cells overexpressing or depleted of TBCCD1. To study the impact of TBCCD1 knockdown in motile cilia the ciliate Paramecium, containing ∼3,000 motile cilia, was used. Results: Our BioID screen for TBCCD1 interactors identified several well-known proteins encoded by ciliopathy genes, e.g. the centrosomal protein OFD1 involved in the Orofacial-Digital Syndrome. We show that TBCCD1 knockdown and overexpression in RPE1 cells affects OFD1 distribution. Super-resolution microscopy shows TBCCD1 is localized at the distal region of the centrosome and that its depletion dramatically affects the centrosome subdistal protein CEP170, a component of cilia basal feet. In Paramecium, the TBCCD1 knockdown causes abnormal BB-associated structures organization and anomalous BB positioning/anchoring defects. Conclusions: Our data support a role for TBCCD1 in the maintenance of centrosome structure and in BB anchoring at the cell membrane during ciliogenesis. TBCCD1 is emerging as a novel protein with a role in human ciliopathies.
Description
Project IPL/2019/MOONOFCILI/ESTeSL
Keywords
TBCCD1 Ciliopathy-involved Cilia Orofacio-digital syndrome IPL/2019/MOONOFCILI/ESTeSL
Citation
Carmona B, Camelo C, Mehraz M, Lemullois M, Nolasco S, Soares H, et al. Centrosome positioning and development of ciliopathies: role of the human centrosomal protein TBCCD1. In: 23rd Annual Meeting da Sociedade Portuguesa de Genética Humana, Fundação Bissaya Barreto, Bencanta (Coimbra), 14 a 16 de novembro de 2019. Proceedings of the 23rd Annual Meeting of the Portuguese Society of Human Genetics. Medicine. 2020;99(9):e19291.