John M. Ryniawec scite author profile

The centrosome is the major microtubule-organizing centre of many cells, best known for its role in mitotic spindle organization. How the proteins of the centrosome are accurately assembled to carry out its many functions remains poorly understood. The non-membrane-bound nature of the centrosome dictates that protein–protein interactions drive its assembly and functions. To investigate this massive macromolecular organelle, we generated a ‘domain-level' centrosome interactome using direct protein–protein interaction data from a focused yeast two-hybrid screen. We then used biochemistry, cell biology and the model organism Drosophila to provide insight into the protein organization and kinase regulatory machinery required for centrosome assembly. Finally, we identified a novel role for Plk4, the master regulator of centriole duplication. We show that Plk4 phosphorylates Cep135 to properly position the essential centriole component Asterless. This interaction landscape affords a critical framework for research of normal and aberrant centrosomes.

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An ordered pattern of Ana2 phosphorylation by Plk4 is required for centriole assembly

McLamarrah

Buster

Galletta

et al. 2018

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An ordered pattern of Ana2 phosphorylation by Plk4 is required for centriole assembly

McLamarrah

Buster

Galletta

et al. 2017

Preprint

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Plk4 Regulates Centriole Asymmetry and Spindle Orientation in Neural Stem Cells

et al. 2019

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Summary Defects in mitotic spindle orientation (MSO) disrupt the organization of stem cell niches impacting tissue morphogenesis and homeostasis. Mutations in centrosome genes reduce MSO fidelity, leading to tissue dysplasia and causing several diseases such as microcephaly, dwarfism, and cancer. Whether these mutations perturb spindle orientation solely by affecting astral microtubule nucleation or whether centrosome proteins have more direct functions in regulating MSO is unknown. To investigate this question, we analyzed the consequences of deregulating Plk4 (the master centriole duplication kinase) activity in Drosophila asymmetrically dividing neural stem cells. We found that Plk4 functions upstream of MSO control, orchestrating centriole symmetry breaking and consequently centrosome positioning. Mechanistically, we show that Plk4 acts through Spd2 phosphorylation, which induces centriole release from the apical cortex. Overall, this work not only reveals a role for Plk4 in regulating centrosome function but also links the centrosome biogenesis machinery with the MSO apparatus.

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Centrosome instability: when good centrosomes go bad

Ryniawec

Rogers

2021

Cell. Mol. Life Sci.

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The centrosome is a tiny cytoplasmic organelle that organizes and constructs massive molecular machines to coordinate diverse cellular processes. Due to its many roles during both interphase and mitosis, maintaining centrosome homeostasis is essential to normal health and development. Centrosome instability, divergence from normal centrosome number and structure, is a common pathognomonic cellular state tightly associated with cancers and other genetic diseases. As novel connections are investigated linking the centrosome to disease, it is critical to understand the breadth of centrosome functions to inspire discovery. In this review, we provide an introduction to normal centrosome function and highlight recent discoveries that link centrosome instability to specific disease states.

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John M. Ryniawec

A centrosome interactome provides insight into organelle assembly and reveals a non-duplication role for Plk4

An ordered pattern of Ana2 phosphorylation by Plk4 is required for centriole assembly

An ordered pattern of Ana2 phosphorylation by Plk4 is required for centriole assembly

Plk4 Regulates Centriole Asymmetry and Spindle Orientation in Neural Stem Cells

Centrosome instability: when good centrosomes go bad

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