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      A Clinical Overview of Centrosome Amplification in Human Cancers

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          Abstract

          The turn of the 21st century had witnessed a surge of interest in the centrosome and its causal relation to human cancer development - a postulate that has existed for almost a century. Centrosome amplification (CA) is frequently detected in a growing list of human cancers, both solid and haematological, and is a candidate "hallmark" of cancer cells. Several lines of evidence support the progressive involvement of CA in the transition from early to advanced stages of carcinogenesis, being also found in pre-neoplastic lesions and even in histopathologically-normal tissue. CA constitutes the major mechanism leading to chromosomal instability and aneuploidy, via the formation of multipolar spindles and chromosomal missegregation. Clinically, CA may translate to a greater risk for initiation of malignant transformation, tumour progression, chemoresistance and ultimately, poor patient prognosis. As mechanisms underlying CA are progressively being unravelled, the centrosome has emerged as a novel candidate target for cancer treatment. This Review summarizes mainly the clinical studies performed to date focusing on the mechanisms underlying CA in human neoplasia, and highlights the potential utility of centrosomes in the diagnosis, prognosis and treatment of human cancers.

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          Most cited references186

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          Centrioles, centrosomes, and cilia in health and disease.

          Centrioles are barrel-shaped structures that are essential for the formation of centrosomes, cilia, and flagella. Here we review recent advances in our understanding of the function and biogenesis of these organelles, and we emphasize their connection to human disease. Deregulation of centrosome numbers has long been proposed to contribute to genome instability and tumor formation, whereas mutations in centrosomal proteins have recently been genetically linked to microcephaly and dwarfism. Finally, structural or functional centriole aberrations contribute to ciliopathies, a variety of complex diseases that stem from the absence or dysfunction of cilia.
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            Beyond self-assembly: from microtubules to morphogenesis.

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              Mechanisms of chromosomal instability.

              Most solid tumors are aneuploid, having a chromosome number that is not a multiple of the haploid number, and many frequently mis-segregate whole chromosomes in a phenomenon called chromosomal instability (CIN). CIN positively correlates with poor patient prognosis, indicating that reduced mitotic fidelity contributes to cancer progression by increasing genetic diversity among tumor cells. Here, we review the mechanisms underlying CIN, which include defects in chromosome cohesion, mitotic checkpoint function, centrosome copy number, kinetochore-microtubule attachment dynamics, and cell-cycle regulation. Understanding these mechanisms provides insight into the cellular consequences of CIN and reveals the possibility of exploiting CIN in cancer therapy. 2010 Elsevier Ltd. All rights reserved.
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                Author and article information

                Journal
                Int J Biol Sci
                ijbs
                International Journal of Biological Sciences
                Ivyspring International Publisher (Sydney )
                1449-2288
                2011
                16 October 2011
                : 7
                : 8
                : 1122-1144
                Affiliations
                Medical Resident, Ministry of Health Holdings, Singapore
                Author notes
                ✉ Corresponding author: Dr Jason Yongsheng Chan (MBBS, Singapore), Ministry of Health Holdings, Singapore. Tel.: +65-8100-4804; E-mail: jasoncys@ 123456live.com.sg

                Conflict of Interests: The authors have declared that no conflict of interest exists.

                Article
                ijbsv07p1122
                10.7150/ijbs.7.1122
                3204404
                22043171
                6057e289-3796-413d-8db7-e3fbfcd49b90
                © Ivyspring International Publisher. This is an open-access article distributed under the terms of the Creative Commons License (http://creativecommons.org/licenses/by-nc-nd/3.0/). Reproduction is permitted for personal, noncommercial use, provided that the article is in whole, unmodified, and properly cited.
                History
                : 15 July 2011
                : 6 October 2011
                Categories
                Review

                Life sciences
                p53,boveri hypothesis,centrosome,aneuploidy,chromosomal instability,aurora kinase
                Life sciences
                p53, boveri hypothesis, centrosome, aneuploidy, chromosomal instability, aurora kinase

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