Abstract
The centrosome, consisting of two centrioles surrounded by a dense network of proteins, is the microtubule-organizing center of animal cells. Polo-like kinase 4 (PLK4) is a Ser/Thr protein kinase and the master regulator of centriole duplication, but it may play additional roles in centrosome function. To identify additional proteins regulated by PLK4, we generated an RPE-1 human cell line with a genetically engineered "analog-sensitive" PLK4AS, which genetically encodes chemical sensitivity to competitive inhibition via a bulky ATP analog. We used this transgenic line in an unbiased multiplex phosphoproteomic screen. Several hits were identified and validated as direct PLK4 substrates by in vitro kinase assays. Among them, we confirmed Ser-78 in centrosomal protein 131 (CEP131, also known as AZI1) as a direct substrate of PLK4. Using immunofluorescence microscopy, we observed that although PLK4-mediated phosphorylation of Ser-78 is dispensable for CEP131 localization, ciliogenesis, and centriole duplication, it is essential for maintaining the integrity of centriolar satellites. We also found that PLK4 inhibition or use of a nonphosphorylatable CEP131 variant results in dispersed centriolar satellites. Moreover, replacement of endogenous WT CEP131 with an S78D phosphomimetic variant promoted aggregation of centriolar satellites. We conclude that PLK4 phosphorylates CEP131 at Ser-78 to maintain centriolar satellite integrity.
Highlights
The centrosome, consisting of two centrioles surrounded by a dense network of proteins, is the microtubule-organizing center of animal cells
We identify CEP131 as a novel substrate of Polo-like kinase 4 (PLK4) and find that PLK4 phosphorylation of CEP131 is an important contributor to maintaining centriolar satellite integrity
The efficiency of centrosome loss is similar to a previous report of 39% of cells losing centrosomes 2 days after treatment with PLK4 siRNA [9]
Summary
Polo-like kinase 4 maintains centriolar satellite integrity by phosphorylation of centrosomal protein 131 (CEP131). We observed that PLK4-mediated phosphorylation of Ser-78 is dispensable for CEP131 localization, ciliogenesis, and centriole duplication, it is essential for maintaining the integrity of centriolar satellites. Centriolar satellites are small, dynamic structures surrounding the centrosome These satellites are important for the recruitment of proteins involved in microtubule organization [5], ciliogenesis [6], and centriole duplication [7]. Independent of its role in duplicating centrioles, PLK4 is implicated in other critical roles in centrosome biology, such as ciliogenesis [17, 18] and centriolar satellite maintenance [19] Regarding the latter, PLK4 phosphorylates PCM1, which partly regulates the integrity of centriolar satellite integrity [19]. We identify CEP131 as a novel substrate of PLK4 and find that PLK4 phosphorylation of CEP131 is an important contributor to maintaining centriolar satellite integrity
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