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Browsing CCR - Artigos by Author "Amado, Tiago"
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- BLD10/CEP135 Is a Microtubule-Associated Protein that Controls the Formation of the Flagellum Central Microtubule PairPublication . Carvalho-Santos, Zita; Machado, Pedro; Alvarez-Martins, Inês; Gouveia, Susana M.; Jana, Swadhin C.; Duarte, Paulo; Amado, Tiago; Branco, Pedro; Freitas, Micael C.; Silva, Sara T.N.; Antony, Claude; Bandeiras, Tiago M.; Bettencourt-Dias, MónicaCilia and flagella are involved in a variety of processes and human diseases, including ciliopathies and sterility. Their motility is often controlled by a central microtubule (MT) pair localized within the ciliary MT-based skeleton, the axoneme. We characterized the formation of the motility apparatus in detail in Drosophila spermatogenesis. We show that assembly of the central MT pair starts prior to the meiotic divisions, with nucleation of a singlet MT within the basal body of a small cilium, and that the second MT of the pair only assembles much later, upon flagella formation. BLD10/CEP135, a conserved player in centriole and flagella biogenesis, can bind and stabilize MTs and is required for the early steps of central MT pair formation. This work describes a genetically tractable system to study motile cilia formation and provides an explanation for BLD10/CEP135's role in assembling highly stable MT-based structures, such as motile axonemes and centrioles.
- Regulation of Autophosphorylation Controls PLK4 Self-Destruction and Centriole NumberPublication . Cunha-Ferreira, Inês; Bento, Inês; Pimenta-Marques, Ana; Jana, Swadhin Chandra; Lince-Faria, Mariana; Duarte, Paulo; Borrego-Pinto, Joana; Gilberto, Samuel; Amado, Tiago; Brito, Daniela; Rodrigues-Martins, Ana; Debski, Janusz; Dzhindzhev, Nikola; Bettencourt-Dias, MónicaPolo-like kinase 4 (PLK4) is a major player in centriole biogenesis: in its absence centrioles fail to form, while in excess leads to centriole amplification. The SCF-Slimb/βTrCP-E3 ubiquitin ligase controls PLK4 levels through recognition of a conserved phosphodegron. SCF-Slimb/βTrCP substrate binding and targeting for degradation is normally regulated by phosphorylation cascades, controlling complex processes, such as circadian clocks and morphogenesis. Here, we show that PLK4 is a suicide kinase, autophosphorylating in residues that are critical for SCF-Slimb/βTrCP binding. We demonstrate a multisite trans-autophosphorylation mechanism, likely to ensure that both a threshold of PLK4 concentration is attained and a sequence of events is observed before PLK4 can autodestruct. First, we show that PLK4 trans-autophosphorylates other PLK4 molecules on both Ser293 and Thr297 within the degron and that these residues contribute differently for PLK4 degradation, the first being critical and the second maximizing auto-destruction. Second, PLK4 trans-autophosphorylates a phospho-cluster outside the degron, which regulates Thr297 phosphorylation, PLK4 degradation, and centriole number. Finally, we show the importance of PLK4-Slimb/βTrCP regulation as it operates in both soma and germline. As βTrCP, PLK4, and centriole number are deregulated in several cancers, our work provides novel links between centriole number control and tumorigenesis.