USP44 regulates centrosome positioning to prevent aneuploidy and suppress tumorigenesis
Ying Zhang, … , Jan van Deursen, Paul J. Galardy
Ying Zhang, … , Jan van Deursen, Paul J. Galardy
Published November 26, 2012
Citation Information: J Clin Invest. 2012;122(12):4362-4374. https://doi.org/10.1172/JCI63084.
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Research Article

USP44 regulates centrosome positioning to prevent aneuploidy and suppress tumorigenesis

Abstract

Most human tumors have abnormal numbers of chromosomes, a condition known as aneuploidy. The mitotic checkpoint is an important mechanism that prevents aneuploidy by restraining the activity of the anaphase-promoting complex (APC). The deubiquitinase USP44 was identified as a key regulator of APC activation; however, the physiological importance of USP44 and its impact on cancer biology are unknown. To clarify the role of USP44 in mitosis, we engineered a mouse lacking Usp44. We found that USP44 regulated the mitotic checkpoint and prevented chromosome lagging. Mice lacking Usp44 were prone to the development of spontaneous tumors, particularly in the lungs. Additionally, USP44 was frequently downregulated in human lung cancer, and low expression correlated with a poor prognosis. USP44 inhibited chromosome segregation errors independent of its role in the mitotic checkpoint by regulating centrosome separation, positioning, and mitotic spindle geometry. These functions required direct binding to the centriole protein centrin. Our data reveal a new role for the ubiquitin system in mitotic spindle regulation and underscore the importance of USP44 in the pathogenesis of human cancer.

Authors

Ying Zhang, Oded Foreman, Dennis A. Wigle, Farhad Kosari, George Vasmatzis, Jeffrey L. Salisbury, Jan van Deursen, Paul J. Galardy

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Figure 1

USP44 loss leads to chromosome mis-segregation.

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USP44 loss leads to chromosome mis-segregation. (A) Strategy for targeti...
(A) Strategy for targeting the Usp44 gene in mice. The Usp44 gene with indicated EcoRV sites, location of the Southern probe, the targeting vector with NeoR, Frt and loxP sites, and the resulting hypomorphic floxed and null alleles. (B) MEFs of the indicated genotypes were transduced with H2B-YFP to visualize chromosomes and followed through mitosis by live-cell microscopy. Values represent the mean ± SEM of 3 independent lines per genotype (n = 137 Usp44+/+ and n = 91 Usp44–/–). (C) Still image of lagging chromosome captured from live-cell time-lapse microscopy from Usp44–/– MEFs transduced with H2B-YFP. Scale bar: 5 μm. (D) Cells encountering a lagging chromosome were scored for the number of chromosomes involved in the error. Graph represents the percent incidence of each error in the overall population of cells observed. *P < 0.05, 2-tailed unpaired t test.