The centrosome cycle: Centriole biogenesis, duplication and inherent asymmetries
Erich A. Nigg,Tim Stearns +1 more
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TLDR
The spatial aspects of the centrosome duplication cycle, the mechanism of centriole assembly and the possible consequences of the inherent asymmetry of Centrosomes and centrosomes are discussed.Abstract:
Centrosomes are microtubule-organizing centres of animal cells. They influence the morphology of the microtubule cytoskeleton, function as the base for the primary cilium and serve as a nexus for important signalling pathways. At the core of a typical centrosome are two cylindrical microtubule-based structures termed centrioles, which recruit a matrix of associated pericentriolar material. Cells begin the cell cycle with exactly one centrosome, and the duplication of centrioles is constrained such that it occurs only once per cell cycle and at a specific site in the cell. As a result of this duplication mechanism, the two centrioles differ in age and maturity, and thus have different functions; for example, the older of the two centrioles can initiate the formation of a ciliary axoneme. We discuss spatial aspects of the centrosome duplication cycle, the mechanism of centriole assembly and the possible consequences of the inherent asymmetry of centrioles and centrosomes.read more
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GAS2L1 Is a Centriole-Associated Protein Required for Centrosome Dynamics and Disjunction
Franco K. C. Au,Yue Jia,Kai Jiang,Ilya Grigoriev,Bill K.T. Hau,Yuehong Shen,Shengwang Du,Anna Akhmanova,Robert Z. Qi +8 more
TL;DR: A GAS2L1-mediated centriole-tethering mechanism of microtubules and actin, which provide the forces required for centrosome dynamics and separation are revealed.
Journal ArticleDOI
Structural centrosome aberrations favor proliferation by abrogating microtubule-dependent tissue integrity of breast epithelial mammospheres
Dominik Schnerch,Erich A. Nigg +1 more
TL;DR: It is demonstrated that structural centrosome aberrations cause not only the disruption of epithelial polarity but also favor overproliferation, two phenotypes typically associated with human carcinomas.
Journal ArticleDOI
ANKRD26 recruits PIDD1 to centriolar distal appendages to activate the PIDDosome following centrosome amplification
Lauren T Evans,Taylor Anglen,Phillip M. Scott,Kimberly Lukasik,Jadranka Loncarek,Andrew J. Holland +5 more
TL;DR: Using a genome‐wide screen, data support a model in which ANKRD26 initiates a centriole‐derived signal to limit cell proliferation in response to centrosome amplification, and a recurrent AN KRD26 mutation found in human tumors disrupts PIDD1 localization and PIDDosome activation in cells with extra centrosomes.
Journal ArticleDOI
CEP120 interacts with C2CD3 and Talpid3 and is required for centriole appendage assembly and ciliogenesis
TL;DR: A novel role is revealed in ciliogenesis by showing that it interacts with C2CD3 and Talpid3 to assemble centriole appendages and by illuminating the molecular mechanism through which the CEP120 (I975S) mutation causes complex ciliopathies.
Journal ArticleDOI
STAR syndrome-associated CDK10/Cyclin M regulates actin network architecture and ciliogenesis.
Vincent J Guen,Carly Gamble,Dahlia E. Perez,Sylvie Bourassa,Hildegard Zappel,Jutta Gärtner,Jacqueline A. Lees,Pierre Colas +7 more
TL;DR: CDK10/CycM is revealed as a key regulator of actin dynamics and a suppressor of ciliogenesis through phosphorylation of PKN2 and promotion of RhoA signaling, suggesting that STAR syndrome is a ciliopathy.
References
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Journal ArticleDOI
The primary cilium: a signalling centre during vertebrate development
TL;DR: The connections between cilia and developmental signalling have begun to clarify the basis of human diseases associated with ciliary dysfunction, and the cilium represents a nexus for signalling pathways during development.
Journal ArticleDOI
A Mechanism Linking Extra Centrosomes to Chromosomal Instability
TL;DR: It is demonstrated that cells with multiple centrosomes rarely undergo multipolar cell divisions, and the progeny of these divisions are typically inviable, and it is proposed that this mechanism may be a common underlying cause of CIN in human cancer.
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Proteomic characterization of the human centrosome by protein correlation profiling
Jens S. Andersen,Christopher J. Wilkinson,Thibault Mayor,Thibault Mayor,Peter Mortensen,Erich A. Nigg,Matthias Mann +6 more
TL;DR: A mass-spectrometry-based proteomic analysis of human centrosomes in the interphase of the cell cycle by quantitatively profiling hundreds of proteins across several centrifugation fractions identified and validated 23 novel components and identified 41 likely candidates as well as the vast majority of the known centrosomal proteins in a large background of nonspecific proteins.
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Hippo signaling: growth control and beyond
Georg Halder,Randy L. Johnson +1 more
TL;DR: Recently discovered mechanisms that contribute to the dynamic regulation of Hippo signaling during Drosophila and vertebrate development are reviewed and exciting new insights are provided into the elusive mechanisms that regulate organ growth and regeneration.
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Cleavage of Cohesin by the CD Clan Protease Separin Triggers Anaphase in Yeast
TL;DR: It is shown here that separin is a cysteine protease related to caspases that alone can cleave Sccl in vitro and depends on a conserved protein called separin for sister chromatid separation.